KR20140103232A - Conveyor apparatus and method for blanking process - Google Patents

Abstract

A conveyor apparatus, which transports steel sheet released from a press in blanking process according to an embodiment of the present invention, comprises a frame; multiple rollers; a driving motor; a transport belt; and a belt protection unit. The frame is arranged on one side of the press and supported on the floor to form a pair of frames where a space is formed in between. The multiple rollers are connected to be rotated in the space, and the driving motor is connected to one of the rollers and drives the roller. The transport belt moves by the rotation of the rollers while being surrounded by the rollers and transports the steel sheet laid on the upper part of the conveyor apparatus in one direction. The belt protection unit is equipped with a buffer which is installed on the exterior of the transport belt and reduces the impact of the transport belt that occurred when the released steel sheet is transported to the upper part of the transport belt.

Description

CONVEYOR APPARATUS AND METHOD FOR BLANKING PROCESS [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a conveyor apparatus and a blanking process method, and more particularly, to a conveyor belt protecting unit for preventing impact and damage to a belt of a conveyor for conveying a steel sheet discharged from a blanking process line to a next process And more particularly, to a conveyor apparatus and a non-ranking processing method.

A conveyor apparatus is used to transport a predetermined article from one place to another. In this conveyor apparatus, a conveying frame is disposed in the same direction as the longitudinal direction of the support frame on a support frame and a support frame which are arranged long in a certain direction. A conveyance belt of an infinite orbit that surrounds the outer surface along the longitudinal direction of the conveyance frame, and a drive motor for applying a driving force for rotating the conveyance belt.

Generally, a conveyor is also used in the process of conveying the steel sheet product discharged from a steel line blanking line press to the next process. Generally, telescopic conveyors are used. Telescopic conveyors, like telescopes, are constructed to absorb and absorb shocks and to support loads. Thus, the steel sheet processed into a certain shape through the press can be transferred to the next process by using the conveyance belt of the telescopic conveyor, thereby improving the conveying operation and the work efficiency.

On the other hand, the sharp edges of the processed steel sheet discharged from the press impact the surface of the conveyor belt of the telescopic conveyor to damage the rotating belt, thereby causing problems such as premature wear, loosening and breakage of the conveyor belt. Therefore, there is a need for an apparatus that can effectively protect the conveyance belt.

Korean Patent Registration No. 10-0359610. Nov. 07, 2002.

An object of the present invention is to prevent a conveyor belt of a conveyor from being damaged by a steel plate.

Other objects of the present invention will become more apparent from the following detailed description and drawings.

According to an embodiment of the present invention, there is provided a conveyor apparatus for conveying a discharged steel sheet from a press of a blanking processing line, the conveyor apparatus being disposed on one side of the press, A frame formed therein; A plurality of rollers rotatably connected to the installation space; A driving motor connected to any one of the rollers to drive the roller; A conveyance belt wound on the rollers and moved by rotation of the rollers, the conveyance belt conveying the steel sheets placed on the upper side in one direction; And a cushioning member provided on the outer side of the belt to prevent the belt from being impacted when the discharged steel sheet is conveyed to an upper portion of the belt.

The belt protecting unit includes: a cylinder fixedly installed outside the frame; Further comprising: a cylinder rod having one end connected to the cylinder and capable of ascending and descending, and the other end connected to the buffer member and moving up and down together, wherein the buffer member includes an operating position located higher than an upper surface of the conveyance belt; And a release position located lower than the upper surface of the conveyance belt.

The conveyor device further comprises a controller connected to the cylinder and the press respectively and for controlling the cylinder according to the operation of the press to switch the buffer member to the operating position and the release position, The buffering member can be switched from the released position to the operating position after completion of the operation of the buffering member.

The belt protection unit may further include a support member connected to an upper portion of the cylinder rod to support the buffer member, wherein the buffer member may be attached to an upper end of the support member.

The buffer member may be softer than the steel sheet.

The cushioning member may be disposed adjacent to the front end adjacent to the press, and may be installed along the longitudinal direction of the belt.

According to an embodiment of the present invention, a blanking method includes blanking a steel sheet, discharging the steel sheet, loading the sheet on an upper portion of the conveyance belt, conveying the sheet through the conveyance belt, The transfer belt is switched to an operation position located higher than the upper surface of the conveyance belt at a release position lower than the upper surface of the conveyance belt to prevent the conveyance belt from being impacted.

The buffer member may be provided along the longitudinal direction of the conveyance belt and may be softer than the steel sheet.

According to the embodiment of the present invention, the cushioning member is lifted to prevent the steel sheet discharged to the conveyance belt of the telescopic conveyor from being directly conveyed to the conveyance belt, thereby preventing the conveyance belt from being worn and damaged. Therefore, the economical efficiency can be secured by delaying the replacement timing of the conveyance belt, and the work efficiency of the operator can be improved.

1 is a view showing a position where a telescopic conveyor is installed.
2 is a schematic view of a conveyor apparatus according to an embodiment of the present invention.
3 is an enlarged view of B shown in Fig.
4 and 5 are views showing the operation of the belt protecting unit shown in Fig.

Hereinafter, embodiments of the present invention will be described in detail with reference to FIGS. 1 to 5 attached hereto. The embodiments of the present invention can be modified in various forms, and the scope of the present invention should not be construed as being limited to the embodiments described below. The embodiments are provided to explain the present invention to a person having ordinary skill in the art to which the present invention belongs. Accordingly, the shape of each element shown in the drawings may be exaggerated to emphasize a clearer description. Also, the 'connection' referred to below should be construed to include not only the case where two components are directly connected but also the case where they are indirectly connected through another medium. It will be appreciated by those skilled in the art that, in the following, the belt protection unit may be mounted on other types of conveyors, including telescopic conveyors, for example described in the examples.

1 is a view showing a position where a telescopic conveyor is installed. Generally, the manufacture of a vehicle panel is performed by a multistage press forming process. In order to transfer between such press processes, a conveyor apparatus 100 is used as shown in Fig. The conveyor apparatus 100 can be disposed on the exit side of the press apparatus 10 and is installed in a state of being supported on the upper portion of the support frame 22 to convey the steel sheet before and after the molding.

That is, a steel sheet to be processed is fed into the press die 15 through a loader (not shown) or an unloader (not shown) mounted on one side of the press apparatus 10, After the formed steel sheet is discharged and loaded onto the conveyor belt 30, the steel sheet is conveyed to the next process via the conveyance belt 30.

Here, when the steel plate that has been formed in the press apparatus 10 is loaded on the conveyance belt 30, the flange portion or the sharp portion of the steel plate is depressed on the surface of the conveyance belt so that the impact portion A is generated. Which may cause breakage of the battery 30.

2 is a schematic view of a conveyor apparatus according to an embodiment of the present invention. 2, the conveyor apparatus 100 includes a support frame 22 and a conveyance frame 25, a plurality of rollers for driving the conveyance belt 30, and a belt protection unit. The conveyor apparatus 100 may be a telescopic conveyor and includes a lift unit (not shown) for lifting and moving the conveyance frame 25 to closely arrange the processed steel sheet to a predetermined shape through the frame apparatus 10, And may further include a transfer unit (not shown).

Generally, the telescopic conveyor is provided with a support frame 22, which is arranged long in a certain direction, and a transfer frame 25, which is arranged on the upper side of the support frame 22, in the same direction as the longitudinal direction of the support frame 22. The transfer frame 25 may be provided in pairs such that the support frames 22 are supported and aligned with each other, and an installation space is formed between the transfer frames. A plurality of rollers are provided in the installation space, and a driving motor (40) for applying a driving force to one of the driving rollers (32) is connected. The outer surface of each of the plurality of rollers is surrounded by a conveyor belt 30, and the conveyor belt is arranged in a caterpillar form.

The driving motor 40 is connected to the rotary shaft 45 and the driving motor 40 applies a driving force to the driving shaft 45. A plurality of drive rollers 32 connected to the drive shaft 45 are rotatable together with the rotation of the drive shaft and the drive rollers 32 are disposed on one side of the insertion space of the transfer frame 25 arranged in a pair. A driven roller 35 is disposed on the other side of the insertion space and the conveyance belt 30 is connected in an endless track shape surrounding the outer diameter of the drive roller 32 and the driven roller 35. The telescopic conveyor may be provided with a plurality of conveyance frames 25 at a lower portion thereof, and a support roller 37 may be disposed below the driven roller.

An auxiliary tension roller (not shown) for adjusting the tension of the conveyance belt 30 may be provided between the support roller 37 and the driven roller 35. The plurality of rollers provided in the telescopic conveyor, and the elevating and conveying unit are the well-known inventions, and a detailed description thereof will be omitted.

As described above, when the steel plate having been formed in the press apparatus 10 is loaded on the conveyor belt 30, the edge portion or the sharp edge of the steel plate is depressed on the surface of the conveyor belt 30, , Causing damage to the conveyance belt 30 during prolonged use. This causes the conveyance belt 30 to be worn prematurely, causing problems such as looseness and breakage. Therefore, a belt protecting unit for preventing shock and abrasion as the processed steel sheet is loaded onto the conveyance belt 30 will be described with reference to the following drawings.

3 is an enlarged view of B shown in Fig. As described above, an installation space is formed between transfer frames arranged in parallel along the longitudinal direction. On the installation space, there is provided a driven roller close to the press, and a bearing is provided between the transfer frame and the driven roller so that the bearing is rotatably connected. The conveyance belt is sequentially connected to the drive roller, the driven roller, and the auxiliary tension roller and the supporter roller, and rotates in an endless track shape.

The cylinder 50 is fixed to the outside of the transfer frame 25. Preferably, the processed steel sheet may be provided on both sides of the impact portion A to be loaded, respectively. One end of the cylinder rod 55 is connected to the cylinder 50 so that the cylinder rod 55 can be raised and lowered, and the other end thereof is connected to the support member 60. The support member 60 is provided along the longitudinal direction of the conveyance belt 30 and may have a rectangular shape.

A buffer member 70 is provided on the upper portion of the support member 60. The cushioning member 70 is softer than the finished steel sheet, and may be made of leather, plastic, rubber, urethane or the like. The buffer member 70 is supported by the support member 60 and may be fixedly attached to the upper surface of the buffer member 70 by adhesion or bolt connection. When the buffer member 70 is adhered to the support member 60, the upper surface of the support member 60 may be roughly roughened so that the buffer member 70 is easily attached.

The support member 60 and the buffer member 70 can be lifted and lowered together with the cylinder rod 55. The cushioning member 60 can be switched to the disengagement position in which the cylinder rod 55 rises and is lower than the operating position located above the conveying belt 30 and the upper surface of the conveying belt. A controller (not shown) is connected to the cylinder 50 and the press apparatus 10, respectively, and the controller controls the cylinder 50 in accordance with the operation of the press apparatus 10 to move the buffer member 70 to the operating position and the release position . Further, the controller can switch the buffer member 70 to the operation position and the release position at predetermined time intervals.

The cushioning member 70 is lifted to the operating position immediately before the steel plate subjected to the machining operation is loaded on the conveying belt 30 through the metal mold 15 of the press apparatus 10, It is possible to prevent a direct impact on the conveyance belt 30 by abutting the processed steel sheet before the conveyance belt 30. The operation of the belt protecting unit will now be described with reference to FIGS. 4 and 5. FIG.

4 and 5 are views showing the operation of the belt protecting unit shown in Fig. FIG. 4 is a view showing a release position of the buffer member, and FIG. 5 is a view showing an operation position of the buffer member. As shown in Fig. 4, the buffer member 70 is disposed at the lower portion of the conveyance belt 30 in the release position. As described above, the steel sheet processed into a predetermined shape by the press apparatus 10 is loaded on the upper portion (impact portion A) of the conveyance belt 30 and impacts the conveyance belt 30, 30).

The steel plate finished to have a predetermined shape by the press apparatus 10 is loaded on the conveying belt 30 of the telescopic conveyor, and upon completion of machining, the controller lifts the cylinder rod 55 through the cylinder 50. The finished steel plate first abuts against the cushioning member 70 raised to the upper portion of the conveyance belt 30, after which the cushioning member 70 is again switched to the releasing position. Preferably, the lowering speed of the buffer member 70 is set to be slower than the rising speed, so that the impact of the conveyance belt 30 can be minimized.

That is, according to the present invention, when the steel sheet processed through the press apparatus 10 is conveyed to the next process through the telescopic conveyor, the edge portion or the sharp edge of the steel sheet does not impact the surface of the conveyance belt 30 . Therefore, the replacement time of the conveyance belt 30 is delayed, thereby ensuring economical efficiency and improving work efficiency of the operator.

Although the present invention has been described in detail by way of examples, other forms of embodiments are possible. Therefore, the technical idea and scope of the claims set forth below are not limited to the embodiments.

10: Press apparatus 22: Support frame
25: Feed frame 30: Feed belt
32: drive roller 35: driven roller
40: Driving motor 45:
50: cylinder 55: cylinder rod
60: support member 70: buffer member

Claims (8)

A conveyor apparatus for conveying a discharged steel sheet from a press of a blanking line,
A frame disposed on one side of the press and supported on the floor, the frame being provided in a pair in parallel with each other to form an installation space therebetween;
A plurality of rollers rotatably connected to the installation space;
A driving motor connected to any one of the rollers to drive the roller;
A conveyance belt wound on the rollers and moved by rotation of the rollers, the conveyance belt conveying the steel sheets placed on the upper side in one direction;
And a buffering unit disposed on the outer side of the conveyance belt and configured to prevent impact of the conveyance belt when the discharged steel sheet is conveyed to an upper portion of the conveyance belt. The method according to claim 1,
The belt protecting unit includes:
A cylinder fixedly installed outside the frame;
Further comprising a cylinder rod having one end connected to the cylinder and capable of ascending and descending and the other end connected to the buffer member to ascend and descend together,
The cushioning member,
An operating position located higher than an upper surface of the conveyance belt; And
The conveyance belt being capable of switching to a release position located lower than an upper surface of the conveyance belt. 3. The method of claim 2,
The conveyor apparatus includes:
And a controller connected to the cylinder and the press, respectively, for controlling the cylinder according to the operation of the press to switch the buffer member to the operating position and the release position,
The controller comprising:
And after the completion of the operation of the press, shifts the buffer member from the release position to the operation position. 3. The method of claim 2,
The belt protecting unit includes:
And a support member connected to an upper end of the cylinder rod to support the buffer member,
Wherein the buffer member is attached to the upper surface of the support member. 3. The method of claim 2,
Wherein the buffer member is softer than the steel plate. 7. The method according to claim 1 or 6,
Wherein the buffer member is disposed adjacent to a distal end portion adjacent to the press and is installed along a longitudinal direction of the conveyance belt. After the steel sheet is blanked, the steel sheet is discharged and loaded onto the conveyance belt, and then conveyed through the conveyance belt,
Wherein the shock absorbing member is disposed at a position lower than the upper surface of the conveying belt and is located at a position higher than the upper surface of the conveying belt to prevent an impact of the conveying belt. 8. The method of claim 7,
Wherein the buffer member is provided along the longitudinal direction of the conveyance belt and is softer than the steel sheet.

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