KR19980011951U - Duckbill Coil Straightening Device - Google Patents

Abstract

A base 14 is formed on both sides of the bottom of the coil 13 so that the bottom circumference of the coil 13 is grounded, and a driving wheel 6 is installed below the end thereof, and on one side of the base 14. The frame 5 is installed and the hydraulic motor 3 and the hydraulic pump 2 are respectively installed on one side thereof, and the X-shaped lifter 11 is installed inside the frame 5 to be installed at the upper end thereof. The transfer unit 16 is connected to both ends of the lifter 11, an elliptical mandrel 1 is connected to one side of the transfer unit 16, and the mandrel 1 is separated from the upper cover 1 '. And integrally connected to the lower side of the mandrel 1 by hydraulic cylinders 8 installed on both sides thereof, and female threads 10 are formed at the upper ends of the lifters 11, respectively. The handle 4, in which 22 is formed, is interpolated.

Description

Duckbill Coil Straightening Device

In general, the duckbill coil is loaded due to deformation due to a winding failure caused by winding the coil rolled in a hot state, bending due to vibration during transfer to a conveying conveyor, or forming a layer at a cooling place to catch a coil. Deformation is caused by being pressed by the weight or by impact, etc. In order to introduce the duckbill coil into the temper rolling process, the inside diameter of the duckbill coil is corrected to be inserted into the mandrel.

As shown in FIG. 1, in the conventional duckbill coil correction apparatus associated with the above technology, the support plates 52 are respectively installed on both sides of the base 53 in which the bottom of the support plate 52 is integrally fixed and installed therein. The coil 51 is supported on the upper end of the support plate 52.

The device for correcting the duckbill coil is positioned on the support plate 52 such that the long radius of the duckbill coil 51 is positioned up and down so that the coil can be inserted into the mandrel of the temper rolling process. In order to correct the inner diameter of the duckbill coil 51 by pressing a load p such as another coil on the upper side of the duckbill coil 51, or the non-calibration product, it will be scraped.

However, the above-mentioned corrective device of the duckbill coil, the inner diameter correction work is carried out by the hand signal of the operator using a crane (crane), the workability is extremely reduced, the risk of equipment and safety accidents, the work time is increased And, the corrective operation is impossible due to the eccentricity during the calibration operation by the load (p) pressed from the outside has the disadvantage that the duckbill coil 51 is generated in the post process.

A base is formed on both sides of the bottom of the coil to ground the bottom edge of the coil. A driving wheel is installed at the bottom of each end, and a frame is mounted on one side of the base, and a hydraulic motor and a pump are installed on one side of the base. An X-shaped lifter is installed inside the frame to be integrally connected to a transporting unit installed at an upper end thereof, and an elliptical mandrel is connected to one side of the transporting unit, and the upper and lower covers are separated. It is integrally connected to the hydraulic cylinders respectively installed on both sides on both sides of the inside, and the female thread is formed at the upper end of the lifter, respectively, by providing a corrective device for the duckbill coil in which the handle is inserted into the male thread formed on the periphery.

1 is a schematic perspective view of a conventional duckbill coil calibration apparatus

Figure 2 is a schematic perspective view showing a calibration device of the duckbill coil according to the present invention

Figure 3 is a cross-sectional structural view of the calibration device of the duckbill coil according to the present invention

Figure 4 is a state of use of the corrective device of the duckbill coil according to the present invention

* Description of the symbols for the main parts of the drawings *

1: mandrel 2: hydraulic pump

3: hydraulic motor 4: handle

5 frame 6: driving wheel

7: transfer hole 8: hydraulic cylinder

10,22: female, male thread 11: lifter

13 coil 16 transfer part

21: upper cover

The present invention relates to a corrective device for a duckbill coil that occurs when a winding failure or winding is loose in a coil produced in a rolled door in a hot state. In detail, a base protruding to be inserted into both sides of the bottom of the coil is formed. Drive wheels are installed at the end, the frame is installed on one side of the base and the hydraulic motor and the hydraulic pump is installed on one side, respectively, the lifter is installed inside the frame is integrally connected to the transfer unit of the upper end, An elliptical mandrel is connected to one side of the transfer part, and hydraulic cylinders are installed on both sides of the mandrel, respectively, so that the inner diameter of the coil can be easily corrected by the mandrel. It relates to a calibration device for a coil.

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

Figure 2 is a schematic perspective view showing the corrective device of the duckbill coil according to the present invention, Figure 3 is a cross-sectional structural view of the corrective device of the duckbill coil according to the present invention, Figure 4 is the use of the corrective device of the duckbill coil according to the present invention As a state diagram, the present invention is provided with a base 14 which is located at both sides of the bottom of the coil 13 so that the circumference of both sides of the bottom of the coil 13 is grounded, and a driving wheel 6 is installed at each end thereof. The frame 5 is installed on one side of 14, and the hydraulic motor 3 and the hydraulic pump 2 are respectively installed on one side thereof, and an X-shaped lifter 11 is installed inside the frame 5. Is integrally connected to the transport portion 16 is installed at the upper end, an elliptical mandrel (1) is connected to one side of the transport portion 16, the mandrel (1) is the upper cover (1 ') It is separated and connected to the hydraulic cylinder (8), which is installed on both sides of the inside, and is fed up and down, The female thread 10 is formed at the upper end of the lifter 11 so that the handle 9 having the male thread 22 formed on the periphery is interpolated.

Referring to the operation and effects of the present invention made of such a structure as follows.

As shown in Fig. 2 to 4, the cradle coil 13 is placed so that the long radius of the duckbill coil 13 is positioned laterally, and the mandrel 1 is inserted into the inner diameter of the duckbill coil 13 so that the straightening device can be inserted. When pushing the manipulator (1) is inserted into the inner diameter of the duckbill coil 13, the calibration device is advanced by the drive wheel (6).

At this time, both sides of the base 14 of the calibration device are located at the bottom peripheral edge of the duckbill coil 13 so that the bottom edge of the duckbill coil 13 is grounded, and the lifter 11 is armed by rotating the handle 4. Combination of the male threads 10 and 22 raises when both shafts of the lifter 11 are retracted inward, and the conveying portion 16 which is brought into contact with the upper end of the lifter 11 is raised.

In addition, the mandrel 1 which is integrally coupled to the transfer part 16 is raised so that the duckbill coil 13 is located above the ground, and when the switch located in the frame 5 is operated, one side of the frame 5 is operated. The hydraulic motor 3 and the hydraulic pump 2 are operated, and the hydraulic pressure generated by the hydraulic pump 2 is operated to operate the hydraulic cylinder 8 connected to the hydraulic pump 2.

In addition, the hydraulic cylinder (8) is raised to raise the upper cover (1 '), the upper cover (1') to push the long radius of the duckbill coil (1) to form a coil having an inner diameter of the garden.

In addition, the rollers 12 are respectively installed at the lower ends of both ends of the lifter 11 so that the lifter 11 which is integrally coupled when the handle 4 is rotated is easily transported when the lifter 11 is narrowed inward, thereby lifting the lifter 11. Ascending of the transfer unit 16 coupled to the top of the) is easily made, and when the calibration of the duckbill coil 13 is completed, the upper cover 1 'is returned to its original position by the operation of a switch, and the lifter 11 When descending and the duckbill coil 13 is located on the ground, the base 14 conveyed by the driving wheel 6 is retracted so that the mandrel 1 is discharged from the inner diameter of the coil, thereby correcting the duckbill coil 13. Will be completed.

The inner diameter correction of the coil is easily made by the hydraulic cylinder installed inside the mandrel, and the inner diameter correction work is performed by the hydraulic pressure, thereby improving workability and preventing the risk of equipment and safety accidents. The working time is greatly reduced, and accurate correction work is possible by the formation of accurate centrifugal when the mandrel rises, which prevents the development of duckbill coils due to eccentricity in the post process, and improves the quality. There is an excellent effect such that the insertion of the mandrel for rolling work can be made easily.

The present invention, the inner diameter of the coil is easily made by the hydraulic cylinder installed on the inside of the mandrel, the inner diameter correction work is made by the hydraulic pressure is improved workability, the risk of equipment and safety accidents accordingly It is prevented, and the calibration work time is significantly reduced, and accurate calibration work is possible by the formation of accurate centrifugal when the mandrel is raised, which can improve the quality by preventing the creation of duckbill coils due to eccentricity in the post process. In order to easily insert the mandrel for temper rolling work in the rolling operation to provide a corrective device of the duckbill coil.

Claims (1)

A base 14 is formed on both sides of the bottom of the coil 13 to ground the bottom of the coil 13, and a driving wheel 6 is installed at the bottom of each end, and one side of the base 14 is located. The frame 5 is installed in the hydraulic motor 3 and the hydraulic pump 2 is installed on one side thereof, the X-shaped lifter 11 is installed on the inside of the frame 5 is installed on the top Is connected to the transfer unit 16, an elliptical mandrel (mandril) (1) is connected to one side of the transfer unit 16, the mandrel (1) is the upper cover (1 ') is separated each installed on both sides of the inside Duckbill, which is integrally connected to the hydraulic cylinder (8), the female thread (10) is formed at the upper end of the lifter 11, respectively, the handle (4) is formed to insert the male thread (22) on the periphery Coil calibration device.