KR100908701B1 - Seat Conveyor Lifting Device of Sheet Shear Line - Google Patents

Abstract

SUMMARY OF THE INVENTION An object of the present invention is to provide a sheet conveyor lifting device of a sheet shear line, by which the height of the conveyor can be adjusted according to the thickness of the sheet to obtain a favorable drop condition of the sheet.

Accordingly, the present invention is a sheet conveyor line, a flow conveyor which is located between the exit side and the sheet conveying conveyor of the shearing machine is installed to be able to rotate up and down the conveyor side with a rotation axis, vertically installed in the equipment and the flow of the conveyor A drive cylinder connected to a free end to move the flow conveyor up and down; a seat conveyor of a seat shear line including an impact mitigating means for mitigating the impact of the seat drop by rotating the flow conveyor down when the seat falls in connection with the drive shaft. Provide a lifting device.

Floating conveyor, drive cylinder, cam member, operating lever

Description

Device conveyor lifting device of sheet shear line {Device for lifting conveyer in strip shear line}

1 is a perspective view showing a state in which the seat conveyor lifting apparatus according to the present invention is installed on the sheet shear line;

Figure 2 is a side cross-sectional view of the seat conveyor lifting apparatus according to the present invention,

3 is a cross-sectional view showing a state of use of the seat conveyor lifting apparatus according to the present invention.

Explanation of symbols on the main parts of the drawings

10: shearing machine 12: drive shaft

20: fluid conveyor 30: drive cylinder

40: horizontal axis 41: cam member

42: operating lever 43: long hole

44: horizontal link bar 45,46: support block

47: operation bar 48: connection link bar

49: connecting ring 50: cam member

The present invention relates to a sheet shearing line for processing a strip into a sheet in a final working line on a stainless steel production line, and more particularly, a conveyor lifting device capable of adjusting the height of the conveyor to prevent bending of the sheared sheet. It is about.

In general, a sheet shear line is a line for producing sheet products by cutting and cutting strips according to a customer's order. The sheet shear line is sheared and packaged to a desired length through a sheet shearing machine disposed on the line. .

The shear line includes a conveyor to which the strip released from the payoff reel is transferred and a shear installed on one side of the conveyor.

The shear includes upper and lower bodies and upper and lower diaphragms installed on each body. When the strip is advanced, the shear cuts the strip by engaging the upper and lower diaphragms, and the cut sheet falls to the upper part of the conveyor. Is moved to the process.

However, in the above conventional structure, the rear end portion is bent or bent as the sheet falling onto the conveyor hits the conveyor.

For example, when shearing a thin plate, the rear end of the sheet falling onto the conveyor is bent, and at this time, a buffer device is inserted below the seat dropping point on one side of the conveyor or the shearing speed is reduced.

In addition, when the tip of the sheared strip enters the conveyor, a phenomenon that the front of the conveyor is hit by the deflection of the strip is generated, to prevent this, a guide plate for guiding the strip must be separately installed.

In addition, when shearing a thick strip, the front end of the sheared sheet comes into contact with the inside of the conveyor, causing bending in the middle part and severe impact when the rear end falls to the conveyor. There is a disadvantage to slow down.

As described above, when the thickness of the strip is thin or thick, the speed of the line needs to be reduced for smooth operation. Therefore, the work efficiency decreases and the downtime increases, resulting in a decrease in productivity. .

Accordingly, the present invention has been made to solve the above problems, by providing a seat conveyor lifting device of the sheet shear line to obtain a good falling condition of the sheet by adjusting the height of the conveyor according to the thickness of the sheet. There is a purpose.

In order to achieve the object as described above, the present invention is to install a movable conveyor can be rotated up and down between the conveyor and the shear on the exit side of the strip shear, and to install a drive cylinder for raising and lowering the flow conveyor according to the strip thickness In addition, the structure is further provided with a shock mitigating means to relieve the drop impact caused by the rear end of the seat by rotating the flow conveyor when the cut sheet falling.                     

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view showing a state in which the seat conveyor lifting device according to the present invention is installed on the sheet shear line, Figure 2 is a side cross-sectional view of the seat conveyor lifting device according to the present invention, Figure 3 is a seat according to the present invention It is sectional drawing which shows the use condition of a conveyor lifting apparatus.

According to the above drawings, the sheet shearing line includes a conveyor 100 for transferring the strip, and a shearing machine 10 installed at one side of the conveyor 100 to cut the strip 200 into sheets. The shearing machine 10 includes a drive shaft 12 installed in the width direction of the strip 200 on the base frame 11 installed on the floor of the facility, an upper body 13 installed on the base frame 11, and An upper cutting blade 14 installed downward on the upper body 13, an eccentric cam member 15 installed on the drive shaft 12, and a lower side of the base frame 11 so as to be lifted and lowered. Lower body 16 is placed and interlocked with), and the lower cutting blade 17 is installed upward in the lower body (16).

Accordingly, when the drive shaft 12 is rotated, the lower body 16 that is tuned along the eccentric cam member 15 is lifted to cut the strip 200 as the lower cutting blade 17 meshes with the upper cutting blade 14. You can do it.

Here, the present invention is a sheet conveyor line of the above-described structure, the flow conveyor is installed between the exit side and the conveyor 100 of the shearing machine 10 is installed so that the tip of the conveyor (100) side can be rotated up and down by a rotation shaft ( 20) and a vertically installed in the equipment and connected to the free end of the flow conveyor 20, the drive cylinder 30 for raising and lowering the flow conveyor 20, the drive shaft 12 in conjunction with the seat 210 It includes a shock mitigating means for reducing the drop impact by rotating the flow conveyor 20 down when the seat 210.

The flow conveyor 20 is installed in succession to the conveyor (100), consisting of a conveyor belt (23) spanning the drive rolls (21, 22) and the drive rolls (21, 22), one side of the drive roll exactly the conveyor (100) The side driving roll 21 is pivotally coupled on the installation frame so that the part of the shearing machine 10 is moved up and down about the axis of the driving roll 21.

The drive cylinder 30 has a cylinder housing axially coupled to the lower portion of the installation and the piston rod front end is also axially coupled to a lower portion of the support member 24 on which the driving roll 22 of the free end side of the flow conveyor 20 is supported.

Therefore, by extending the operation cylinder 30 can be adjusted to the optimum state according to the thickness of the strip 200, the position of the first flow conveyor (20).

On the other hand, the impact mitigating means is to lower the flow conveyor 20 when the seat 210 falls in conjunction with the operation of the shear 10, rotatably installed on the piston rod end of the drive cylinder (30) And a horizontal shaft 40 placed in the width direction of the conveyor 100, a cam member 41 disposed on the horizontal shaft 40, and placed at a lower end of the support member 24, and installed on one side of the horizontal shaft 40. And a horizontal link bar slidably horizontally installed on the support block 45 installed in the facility by being coupled to the operation lever 42 extending downward, and through the long hole 43 formed in the longitudinal direction on the operation lever 42. 44, an operation bar 47 slidably installed horizontally on the support block 46 installed in the lower part of the facility and interlocked with the cam member 50 installed in the drive shaft 12, the center of which is axially coupled to the facility, Linked to the tip of the operating bar 47, the top is The horizontal link bar 44 includes a link link 48 which is vertically coupled to the front end of the link link.

The cam member installed on the horizontal shaft 40 is a circular shaft having the horizontal shaft 40 eccentrically installed, and a connecting ring 49 is installed on the outer circumferential surface thereof, and the support member 24 is connected to the connecting ring 49. It is structured.

The link link 48 has a length from the tip of the horizontal link bar 44 toward the tip of the operating bar 47 about its rotational axis is relatively longer than the length of the tip of the operating bar 47. This is to increase the movement amount of the horizontal link bar 44 and to make the movement speed faster.

The link coupling portion of each bar forms a long hole in consideration of the flow amount in the coupling portion to enable smooth movement.

In addition, looking at the installation relationship between the cam member 41 and the operating lever 42 installed on the horizontal shaft 40, in consideration of the maximum amount of movement of the horizontal link bar 44, the operating lever 42 is pulled or pushed as far as possible. When the top dead center of the cam member 41 is adjusted in the upward direction, that is, the support member 24 to adjust the installation angle of the cam member and the operating lever 42.

In addition, the operation bar 47 is installed on the drive shaft 12 may be interlocked with the cam member 15 for operating the lower body 16, preferably as shown in Figure 1 separate cam member ( 50) is installed in the center of the drive shaft and the operating bar 47 is interlocked with the cam member 50.

Hereinafter will be described the operation of the present invention.

Firstly, the operator lifts the flow conveyor 20 to the most suitable height in consideration of the dropping point of the front end and the rear end of the seat 210 falling to the flow conveyor 20 upon shearing according to the thickness of the sheet 210 to be sheared. Lower

That is, when the driving cylinder 30 installed in the lower portion of the flow conveyor 20 is stretched and operated, the horizontal shaft 40 installed on the piston rod of the driving cylinder 30 is moved up and down and the connecting ring 49 is connected to the horizontal shaft 40. The support member 24 installed through this is raised and lowered, so that the flow conveyor 20 is rotated about the conveyor side driving roll 21 to be able to suit its height.

As such, when the height of the primary flow conveyor 20 is determined, the front end of the sheet 210 cut by the shearer 10 can be smoothly entered.

On the other hand, when the rear end of the seat 210 enters the flow conveyor 20, the impact when the rear end of the seat 210 is reduced as the flow conveyor 20 flows down.

That is, as shown in FIG. 3, when the driving shaft 12 is rotated so that the top dead center of the cam member faces upward, the lower body is completely raised to cut the seat 210 and the cam member is continuously rotated as the driving shaft is rotated. The top dead center moves to the right by rotating in the direction.

Therefore, the bottom dead center of the cam member 50 is located on the left side, whereby the operating bar 47 interlocked with the cam member 50 is horizontally moved to the left.

As the operation bar 47 moves, the lower end of the connection link bar 48 which is coupled to the operation bar 47 is pulled, and the connection link bar 48 is rotated counterclockwise around its rotation axis. do.

According to the rotation of the link bar 48, the horizontal link bar 44, which is coupled to the top of the link link bar 48, is moved to the left in the drawing, and thus the operating lever connected to the horizontal link bar 44. 42 is pulled.

As the actuating lever 42 is pulled, the horizontal shaft 40 on which the actuating lever 42 is installed is rotated clockwise, and the cam member installed on the horizontal shaft 40 is rotated at a position where the first top dead center faces the support member 24. The top dead center is moved to the right.

Therefore, the support member 24 is lowered by the height difference of the cam member 41 according to the movement of the top dead center.

Accordingly, when the seat 210 is in contact with the flow conveyor 20, the flow conveyor 20 is instantaneously lowered by the above action to mitigate the drop impact of the seat 210, the sheet 210 of the drop impact The rear end bending can be prevented.

Since the driving shaft 12 continues to rotate while the rear end of the seat 210 is completely in contact with the flow conveyor 20, the top dead center of the cam member 50 is moved back to the left axis, and the operation bar linked thereto ( 47 is pushed out by the top dead center of the cam member (50).                     

As the operation bar 47 is pushed out, as opposed to the above-mentioned, each bar is operated to push the operation lever 42 and the cam member 41 has a top dead center facing upwards, and is connected again through the connection ring 49. The support member 24 installed is raised.

According to the sheet conveyor lifting device of the sheet shear line according to the present invention as described above, by adjusting the position of the conveyor in accordance with the thickness of the sheet to be sheared, it is possible to prevent the equipment or sheet damage by the sheet tip deflection.

In addition, it is possible to reduce the impact of the rear end of the sheet to reduce sheet defects.

In addition, it is possible to maintain the line speed during sheet shearing, thereby improving productivity and increasing the efficiency of the facility.

Claims (2)

It is installed between the conveyor for transporting strips in the sheet shearing line and the shearing machine installed on one side of the conveyor to cut the strip into sheets, and the conveyor is installed vertically on the equipment so that the tip of the conveyor can be rotated vertically. And a drive cylinder for lifting and lowering the flow conveyor connected to the free end of the flow conveyor, and an impact mitigating means for relieving the sheet drop impact by rotating the flow conveyor downward when the seat falls in connection with the drive shaft of the shear. Including, The impact mitigating means is a cam which is rotatably installed at the tip of the piston rod of the drive cylinder and placed in the width direction of the conveyor, and the cam is installed so that the lower end of the support member installed on the horizontal axis supports the free end of the flow conveyor. Member, an operating lever installed on one side of the horizontal shaft and extending downward, a horizontal link bar slidably horizontally installed on a support block installed in the equipment by being coupled to the operating lever through a long hole formed in the longitudinal direction, and installed in the bottom of the equipment An operating bar slidably horizontally installed on the support block and interlocked with a cam member installed on the drive shaft, the center portion of which is axially coupled to the equipment, and the lower end of the link linking to the tip of the operating bar, and the upper end of the operating link linking to the tip of the horizontal link bar. Seat conveyor platform of the seat shear line including connecting link bar installed . delete

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