KR100404958B1 - Fixing device of coil type wire bunch - Google Patents

Abstract

The present invention relates to a device for fixing the inner diameter of the coil-type wire bundle in a system for transporting and stacking the coil-type wire bundle, and stretches in all directions to stretch and grip the gripper and the gripper for pressing and fixing the inner diameter of the coil-type wire bundle. It consists of a lower flange supporting the driving unit and the fixing device, and an upper flange portion for cushioning the shock applied to the fixing device, and a robot arm connecting the upper flange and the expensive mobile robot on the upper part of the conveying system. The present invention relates to a device for fixing a coil-type wire bundle, which can easily transport the wire bundle by pressing and fixing the inner diameter of the wire bundle.

Description

Fixing device of coil type wire bunch}

The present invention provides a gripper for compressing and fixing the inner diameter of the coil-type wire bundle and stretched in all directions, a lower flange for supporting the drive unit and the fixing device for stretching and gripping the gripper, and an upper flange portion for cushioning the shock applied to the fixing device. It consists of a robot arm that connects between the upper flange and the expensive mobile robot on the upper part of the conveying system, and secures the coiled wire bundle to easily transport the wire bundle by compressing and fixing the inner diameter of the coiled wire bundle by stretching the gripper. Relates to a device.

In general, the finished wire is wound on the bobbin or wound in a coil form to form a bundle, and when the coil is wound in a coil form, a donut-shaped wire bundle is formed only by the wire itself. Is transported for shipment and deposited on the loading stand. The transfer of the finished product of the bundle of coiled wires to the proper time is a method of manually transporting the forklift or the hoist as an auxiliary tool. Even if it is utilized, it is very difficult to apply practically in the field that handles a large quantity of coil type wire bundles such as wire manufacturing plant or distribution center.

Therefore, in the case of handling a large quantity of coiled wire bundles, an automated transfer system should be applied to transfer and stack the coiled wire bundles. The conventional transport system includes an expensive mobile robot that moves along a rail formed at an upper portion of the system, a fork device having a coiled wire bundle loaded thereon, and a robot arm that connects the fork device and the expensive mobile robot to a lower portion of the expensive mobile robot. It is made, the fork device is a structure that is raised and lowered by the robot arm. The holding device is manually lifted up by the robotic arm after the coiled wire bundles are transported to the fork device and moved by the elevated mobile robot along the rail to the destination.

The fixing device of the coil-type wire bundles requires a lot of manpower and time since the coil-type wire bundles must be manually loaded in the fork device, and the fork device is not the same as the center of gravity of the fork device and the center of gravity of the coil-type wire bundles. Is likely to be destroyed, and because the fork device supports the lower portion of the coil bundle, there is a problem that only a limited bundle of coil bundles can be loaded.

An object of the present invention is to stretch in all directions to grip the inner diameter of the bundle of coiled wire and to secure the gripper and the lower portion for supporting the fixing device and the drive unit for stretching the gripper and the upper flange to cushion the shock applied to the fixing device And a robot arm that connects the upper flange and the expensive mobile robot at the upper part of the transfer system. The coil-type wire bundle makes it easy to transfer the wire bundle by compressing and fixing the inner diameter of the coil-type wire bundle by stretching the gripper. It is to provide a fixing device of.

1 is a detailed view of the fixing device of the present invention

2 is an overall structural diagram of a fixing device of the present invention

* Explanation of symbols for the main parts of the drawings

1: robot arm 3: wire bundle

4: gripper 5: pad

6: air cylinder 7: piston

8 link 9: lower flange

10 buffer spring 11: support shaft

12: upper flange 13: sensor

14: support tube 15: expensive mobile robot

16 rail 18 conveying device

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described in detail with reference to the drawings and embodiments. Fig. 1 shows a detailed structure of a fixing device for a coiled wire bundle according to the present invention, and Fig. 2 shows the fixing of a coiled wire bundle according to the present invention. The overall structure of the device is illustrated. The lower portion of the fixing device 18 of the coil-type wire bundle 3 is stretched in all directions by the link 8 to compress and fix the inner diameter of the coil-type wire bundle 3. A plurality of grippers 4 which can be formed are formed. The plurality of grippers 4 are formed at the same angle to each other on the circumference, and the gripper 4 formed in the gripper device in consideration of the compression force against the inner diameter of the coil-shaped wire bundle 3 and the structure of the fixing device 18 having a hexahedron shape. It is preferable that the number of) is four. When the gripper 4 compresses and fixes the inner diameter of the wire bundle 3, the shock applied to the gripper 4 and the wire bundle 3 can be alleviated, and the wire bundle 3 of a wide range can be compressed and fixed. So that the contact surface with the wire bundle of the gripper 4 is formed with a buffer pad (5).

In the inner diameter of the gripper device, a link 8 having one end thereof connected to the gripper 4 and the other end connected to the piston to expand and contract the gripper 4 is formed, and the link 8 is formed at an outer diameter thereof. A driving portion is formed, which consists of a piston 7 moving along the interior of the air cylinder 6 and an air cylinder 6 in which the shaft of the piston 7 slides along the interior thereof.

In the upper part of the drive unit, a lower flange 9 is formed, which forms a skeleton of the fixing device 18 and supports the fixing device 18.

On the upper part of the lower flange 9, a plurality of buffer springs 10 for mitigating the shock applied to the fixing device 18 when the fixing device 18 is lowered by the robot arm 1, and the buffer spring 10 ) Is formed inside the support shaft (11) for supporting the buffer spring (10), and an upper flange portion consisting of an upper flange (12) formed with one end of the robot arm (1).

One upper end of the upper flange portion is formed in the upper flange 12 and the other end thereof is accommodated in the support tube 14 of the expensive mobile robot 15 so that the upper flange 12 and the expensive mobile robot 15 The robot arm 1 is formed to connect the two, and to raise and lower the upper flange 12 by a control signal from the expensive mobile robot 15.

In addition, it is connected to the expensive mobile robot 15 to transfer the rising or lowering distance of the fixed device 18 to the expensive mobile robot 15, if the fixed device 18 is moved more than the set distance of the expensive mobile robot 15 A sensor unit 13 is formed that can pause the operation.

Data such as the movement path of the fixing device 18 and the stretching distance of the gripper 4 are set and input to the expensive mobile robot 15. When the fixing device 18 is positioned above the coiled wire bundle 3 to be transferred, the support tube 14 of the expensive mobile robot 15 is lowered to a certain height, and thus the fixing device 18 is lowered to fix it. The gripper 4 of the device 18 enters the inner diameter of the wire bundle 3. When the gripper 4 enters the inner diameter of the coil bundle 3, the robot arm 1 is lowered from the support tube 14 of the expensive mobile robot 15, followed by the upper flange 12, the lower flange 9, and the piston ( 7) will descend in this order. When the piston 7 is lowered, the link 8 formed in the outer diameter of the piston 7 is extended so that the gripper 4 connected to the link 8 is stretched, thereby compressing the inner diameter of the coil-shaped wire bundle 3 from all directions. To fix it. When the inner diameter of the electric wire bundle 3 is fixed by the gripper 4, since the support tube of the expensive mobile robot 15 is raised to a fixed position, the fixing device 18 is raised as it is. When the ascent of the fixing device 18 is completed, the expensive mobile robot 15 transfers the wire bundle 3 along the rail 16 to the destination. At the destination, the support pipe 14 of the expensive mobile robot 15 is lowered to a certain height, and then the fixing device 18 is lowered to store the wire bundle 3. When the wire bundle 3 is loaded, the robot arm 1 is raised, and then the upper flange 12, the lower flange 9, and the piston 7 are sequentially raised. When the piston 7 is raised, the link 8 formed at the outer diameter of the piston 7 is contracted, so that the gripper 4 connected to the link 8 is contracted, thereby compressing the inner diameter of the coiled wire bundle 3. The fixing device 18 is raised as it is, as the support pipe 14 of the expensive mobile robot 15 is raised to a constant height.

The fixing device for the coiled wire bundle according to the present invention uses a plurality of grippers that are stretched in all directions to press and fix the inner diameter of the coiled wire bundle so that the coiled wire bundle is easily fixed without manpower and time. The possibility of damage of the fixing device is prevented during the transfer of the coiled wire bundle, and the coiled wire bundle can be fixed and transferred regardless of the specification.

Claims (3)

In a system for transferring and stacking a bundle of coiled wires, A gripper 4 which is stretched in all directions and is capable of pressing and fixing the inner diameter of the coil-shaped wire bundle 3, and a piston in which the air cylinder 6 and its shaft move along the inside of the air cylinder 6 ( 7) and a drive unit consisting of a link 8 connecting the outer diameter of the piston 7 and the gripper 4, a lower flange 9 formed on the drive unit to support the fixing device 18, and fixed thereto. An upper flange portion consisting of a buffer spring 10 for alleviating the shock applied to the device 18, a support shaft 11 for supporting the buffer spring 10, and an upper flange 12, and the upper flange 12 And a robot arm (1) for connecting between the elevated mobile robot (15). 2. The coil type according to claim 1, wherein a sensor unit (13) is connected to the high moving robot (15) to transmit the rising and falling distances of the fixing device (18) to the high moving robot (15). Fixation of wire bundles. 2. A device according to claim 1, characterized in that the contact surface with the wire bundle (3) of the gripper (4) is formed with a buffer pad (5).