JP5396818B2 - Coil lifting method and lifter - Google Patents

Description

  The present invention relates to a coil lifting method and a lifter.

  A coil obtained by winding a thin steel plate into a roll is stored in a coil warehouse before being transferred to the next process, and when transferred to the next process, the coil is lifted and moved by operating a lifter.

  In the coil warehouse, the coils are usually stored in two layers, but if the coil support position of the lifter is off the center of the coil when lifting the coil stacked on the upper level, the coil will not rotate vertically and rotate. There was a problem of causing oysters at the contact portion with the lower coil.

Regarding the automatic operation of the lifter, for example, Patent Document 1 discloses a technique for detecting a coil position by scanning a laser beam from the overhead position of a workpiece and automatically adjusting the handling width of the lifter appropriately according to fluctuations in the size of the coil. Although described, there are disadvantages such as requiring a lot of funds for capital investment. Therefore, when the operator who operates the lifter from the cab of the coil warehouse more easily and efficiently operates the lifter by himself / herself to lift and move the coil, the distance between the coil and the operator and the operator's There has been a demand for solving the above-mentioned problem of oysters by a technique that reliably lifts the center of the coil in a short time regardless of skill or the like.
Japanese Patent Laid-Open No. 3-162395

  The object of the present invention is to solve the above problems, and when a worker who operates a crane in the operator's cab operates the lifter by himself / herself to lift and move the coil, the distance between the coil and the worker, It is to provide a technique for reliably lifting a coil in a vertical upward direction in a short time regardless of skill or the like.

The coil lifting method of the present invention made in order to solve the above problems uses a lifter provided with a coil supporting arm portion to which an optical head is fixed, and uses a laser beam emitted from the optical head as guidance to visually check the operator. The coil lifting method for lifting the coil by adjusting the position of the coil supporting arm portion with respect to the coil, wherein the optical head irradiates the lifter on the vertical line including the center point of the inner diameter of the coil In the state of being moved to the position, the coil support arm is fixed in advance to a position where it is arranged on a vertical plane including the central axis of the coil inner diameter, and the adjustment is applied from the light source head fixed at the position. This is performed by aligning the laser beam to be aligned with the vertical line .

According to a second aspect of the present invention, a lifter having a coil support arm portion to which an optical head is fixed is used, and a laser beam irradiated from the optical head is used as guidance to visually confirm the coil support arm portion with respect to the coil. The optical head moves the lifter to a position where the laser beam is irradiated onto a vertical line including any one of the left and right end surfaces of the inner diameter of the coil. In the state, a laser beam irradiated from a light source head fixed in advance to the position where the coil supporting arm portion is arranged on a vertical plane including the central axis of the coil inner diameter, and the adjustment is fixed, It is characterized by being performed on the vertical line .

According to a third aspect of the present invention, a lifter having a coil support arm portion to which an optical head is fixed is used, and a laser beam irradiated from the optical head is used as guidance to visually confirm the coil support arm portion with respect to the coil. The optical head is configured to lift the coil by adjusting the position of the lifter, and the laser beam is placed on the vertical line including the left end face of the coil inner diameter and on the vertical line including the right end face of the coil inner diameter. In the state where each is irradiated, the coil support arm is fixed in advance to a position where it is arranged on a vertical plane including the central axis of the coil inner diameter, and the adjustment is fixed to the position. the laser beam emitted from the light source head, is characterized in that performed by aligning on the vertical line

A fourth aspect of the present invention is a lifter used in the method of the first aspect, comprising a coil support arm, an arm support, and one or more laser beam generating means, wherein the laser beam generating means is a laser beam generating means. The laser beam generating unit main body is disposed on the upper portion of the arm support unit, the optical head unit includes the lifter, and the laser beam includes a center point of the inner diameter of the coil. In a state where the coil supporting arm is moved to a position irradiated on the wire, the coil supporting arm portion is disposed on a vertical plane including the central axis of the coil inner diameter, and is fixedly disposed at a position facing the coil. It is characterized by being.

A fifth aspect of the present invention is a lifter used in the method of the second aspect , comprising a coil support arm, an arm support, and one or more laser beam generation means, wherein the laser beam generation means is a laser beam generation means. The laser beam generating unit main body is disposed on the upper portion of the arm support unit, and the optical head unit is provided with the lifter, and the laser beam is provided on either of the left and right end surfaces of the coil inner diameter. In a state in which the coil supporting arm is moved to a position irradiated on a vertical line including one point, the coil supporting arm portion is disposed on a vertical plane including the central axis of the coil inner diameter and can be opposed to the coil. It is characterized by being fixedly arranged.

A sixth aspect of the present invention is a lifter used in the method of the third aspect , comprising a coil support arm, an arm support, and one or more laser beam generating means, the laser beam generating means being a laser beam generating means. The laser beam generating unit main body is disposed on the upper portion of the arm support unit, the optical head unit includes the lifter, and the laser beam includes a left end surface of the coil inner diameter. In a state where the coil supporting arm portion is arranged on a vertical plane including the central axis of the coil inner diameter in a state where the coil supporting arm is moved to a position irradiated on each of the vertical line and the vertical line including the right end surface of the coil inner diameter. And it is fixedly arranged at a position that can be opposed to the coil.

  According to the present invention, the lifter itself is provided with laser beam generating means for indicating a predetermined position of the lifter, and the laser beam is irradiated on the coil from the laser beam generating means, so that the operator can only apply the laser beam irradiated on the coil. The viewpoint can be concentrated and the position of the lifter relative to the coil can be adjusted reliably in a short time. Various methods for adjusting the position of the lifter can be adopted depending on the arrangement of the laser beam generating means fixed to the lifter. For example, when the lifter is moved to a position where the laser beam irradiated from the lifter side is irradiated on a vertical line including the center point of the inner diameter of the coil as in the invention described in claim 2, the lifter coil support arm portion The method of fixing the light source head of the laser beam so that the laser beam is arranged on a vertical plane including the central axis of the coil, or the laser beam irradiated from the lifter side as in the invention of claim 3, In the state where the lifter is moved to the position irradiated on the vertical line including at least one point, the laser beam source head is arranged so that the coil supporting arm portion of the lifter is disposed on the vertical plane including the central axis of the coil. A fixing method can be adopted. Thus, according to the present invention, the position of the lifter can be easily and reliably adjusted to the coil center lifting position, and the problem of oysters that occurred during coil lifting can be solved.

  Further, according to the lifter of the present invention, the lifter in which the laser beam generating unit main body is disposed above the arm support unit and the optical head unit is fixedly disposed at a position where the optical head unit can face the coil is the coil lifting method according to any one of claims 1 to 3. It is a very effective lifter. If the optical head part and the connecting part are heat-resistant, and the laser beam generator main body is arranged above the arm support part, the laser beam generator main body is protected from radiant heat even when the coil is a hot coil. The optical head unit can be installed at a desired location.

  FIG. 1 shows an embodiment of a lifter used in the method of the present invention. The lifter is operated by an operator from the operator's cab provided in a section of the coil warehouse, moving the position of the device visually and moving it vertically above the coil, and then sandwiching the inner diameter of the coil from both sides. It is used when the coil is lifted and moved.

  The lifter 1 includes a coil support arm portion 2, an arm support portion 3, and a laser beam generation means. The laser beam generation means includes a laser beam generation portion main body 4, a heat resistant optical head portion 5, and a heat resistance. The laser beam generator main body 4 is arranged on the upper part of the arm support part 3, and the heat-resistant optical head part 5 is fixedly arranged on the arm 2 at a position facing the coil 7. Yes. The optical head unit 5 is arranged on the coil support arm 2 so that a laser beam is irradiated to the central axis of the coil and a predetermined position even in various coils with different widths. It is desirable to install a protective protector if it is built in or cannot be built in.

  In the coil lifting method of the present invention, the laser beam 8 is irradiated onto the coil 7 from the optical head portion 5 of the laser beam generating means, and the operator uses the laser beam 8 irradiated on the coil 7 as guidance for position adjustment of the lifter 1. The position of the lifter 1 relative to the coil 7 can be adjusted. As described above, the laser beam 8 having a fixed relation to the lifter 1 is irradiated on the coil 7 to provide guidance for position adjustment of the lifter 1, so that the operator's line of sight is the laser beam 8 on the coil 7. As compared with the conventional method in which fine adjustment is performed while following the positional relationship between the coil supporting arm portion 2 and the coil inner diameter 9 with a line of sight, the coil can be moved vertically upward. It became possible to lift in the direction. Further, in the conventional method, when the fine adjustment fails, the coil support position of the arm 2 deviates from the central axis of the coil inner diameter 9, and the coil 7 is not lifted up vertically, causing rotation, and the coils are stacked in multiple stages. In such a case, there has been a problem that oysters occur at the contact portion with the lower coil. However, according to the method of the present invention, the coil can be lifted in the vertical upward direction more reliably and easily. The problem can be solved.

As a guidance method for position adjustment of the lifter 1 using the laser beam 8, for example, there are the following embodiments.
(Embodiment 1 of guidance method)
As shown in FIG. 1, in the state where the lifter 1 is moved to a position where the laser beam 8 irradiated from the apparatus side is irradiated on a vertical line including the center point a of the coil inner diameter 9, the coil lifting lifter 1 is used for supporting the coil. The position of the light source head 5 is fixed in advance so that the arm portion 2 is disposed on a vertical plane including the central axis of the coil inner diameter 9. When the lifter 1 is used, the laser beam 8 emitted from the light source head 5 fixed at the above position is used as guidance, and is aligned with a vertical line including the center point a of the coil inner diameter 9 by visual observation of the operator. When the laser beam 8 is irradiated linearly as shown in FIG. 1, it is easier to align with the vertical line including the center point a.
(Embodiment 2 of the guidance method)
As shown in FIG. 2, the coil is lifted in a state in which the lifter 1 is moved to a position where the laser beam 8 irradiated from the apparatus side is irradiated on a vertical line including any one of the left and right end faces b and c of the coil inner diameter. The position of the light source head 5 is fixed in advance so that the coil supporting arm portion 2 of the lifter 1 is disposed on a vertical plane including the central axis of the coil inner diameter. When the lifter 1 is used, the laser beam 8 emitted from the light source head 5 fixed at the above position is used as a guidance on a vertical line including any one of the left and right end faces b and c of the coil inner diameter (on the vertical line used when the light source head is fixed). ).
(Embodiment 3 of the guidance method)
As shown in FIG. 3, when the apparatus is moved to a position where two laser beams irradiated from the apparatus side are irradiated on a vertical line including two points b and c on the left and right end surfaces of the coil inner diameter, the coil is lifted. The positions of the light source heads 5 are fixed in advance so that the coil supporting arm portion of the apparatus is arranged on a vertical plane including the central axis of the coil. When the lifter 1 is used, the laser beam 8 emitted from the light source head 5 fixed at the position is aligned with a vertical line including the two points b and c on the left and right end faces of the coil inner diameter. These Embodiments 2 and 3 are effective when the coil inner diameter 9 is constant.

  When the coil 7 is a hot coil, a large amount of radiant heat is generated. In the present invention, the optical head portion 5 and the connecting portion 6 are heat-resistant, and the laser beam generator main body 4 that is weak against heat is an arm. By arranging it on the upper part of the support part 3, it is possible to install the optical head part 5 at a desired location while protecting the laser beam generation part body 4 from radiant heat even when the coil 7 is a hot coil.

First embodiment of lifter used in the method of the present invention Second embodiment of lifter used in the method of the present invention Third embodiment of lifter used in the method of the present invention

DESCRIPTION OF SYMBOLS 1 Lifter 2 Arm part for coil support 3 Arm support part 4 Laser beam generation part main body 5 Optical head part 6 Connection part 7 Coil 8 Laser beam 9 Coil inner diameter

Claims (6)

Using a lifter equipped with a coil support arm portion to which an optical head is fixed, the position of the coil support arm portion relative to the coil is adjusted by visual observation by an operator using the laser beam emitted from the optical head as a guidance. A coil lifting method for lifting,
In the optical head, when the lifter is moved to a position where the laser beam is irradiated onto a vertical line including the central point of the coil inner diameter, the arm portion for coil support is on a vertical plane including the central axis of the coil inner diameter. Fixed in advance at the position where
The coil lifting method , wherein the adjustment is performed by aligning a laser beam irradiated from a light source head fixed at the position on the vertical line . Using a lifter equipped with a coil support arm portion to which an optical head is fixed, the position of the coil support arm portion relative to the coil is adjusted by visual observation by an operator using the laser beam emitted from the optical head as a guidance. A coil lifting method for lifting,
In the optical head, in the state where the lifter is moved to a position where the laser beam is irradiated onto a vertical line including any one of the left and right end faces of the coil inner diameter, the coil support arm portion has a central axis of the coil inner diameter. It is fixed in advance at a position arranged on a vertical plane including
The coil lifting method , wherein the adjustment is performed by aligning a laser beam irradiated from a light source head fixed at the position on the vertical line . Using a lifter equipped with a coil support arm portion to which an optical head is fixed, the position of the coil support arm portion relative to the coil is adjusted by visual observation by an operator using the laser beam emitted from the optical head as a guidance. A coil lifting method for lifting,
The optical head supports the coil in a state in which the lifter is moved to a position where the laser beam is irradiated onto a vertical line including the left end surface of the coil inner diameter and a vertical line including the right end surface of the coil inner diameter. Is fixed in advance at a position where the arm portion is disposed on a vertical plane including the central axis of the coil inner diameter,
The coil lifting method , wherein the adjustment is performed by aligning a laser beam irradiated from a light source head fixed at the position on the vertical line . A lifter for use in the method according to claim 1, comprising a coil support arm, an arm support, and one or more laser beam generating means,
The laser beam generating means comprises a laser beam generating unit main body, an optical head unit, and a connecting unit,
The laser beam generation unit main body is disposed on the upper part of the arm support unit, and the optical head unit moves the lifter to a position where the laser beam is moved to a vertical line including a center point of the coil inner diameter. A lifter characterized in that the supporting arm portion is disposed on a vertical plane including the central axis of the coil inner diameter, and is fixedly disposed at a position facing the coil. A lifter used in the method according to claim 2 , comprising a coil support arm, an arm support, and one or more laser beam generating means,
The laser beam generating means comprises a laser beam generating unit main body, an optical head unit, and a connecting unit,
The laser beam generation unit main body is disposed on the upper part of the arm support unit, and the optical head unit moves the lifter to a position where the laser beam is irradiated onto a vertical line including any one of the left and right end surfaces of the coil inner diameter. The lifter according to claim 1, wherein the coil supporting arm portion is fixedly disposed at a position where the coil supporting arm portion is disposed on a vertical plane including the central axis of the coil inner diameter and can be opposed to the coil. A lifter used in the method according to claim 3 , comprising a coil support arm, an arm support, and one or more laser beam generating means,
The laser beam generating means comprises a laser beam generating unit main body, an optical head unit, and a connecting unit,
The laser beam generation unit main body is disposed on an upper portion of the arm support unit, and the optical head unit includes the lifter on the vertical line including the left end surface of the coil inner diameter and on the vertical line including the right end surface of the coil inner diameter. In the state where the coil support arm is moved to the position irradiated to the coil, the coil support arm portion is disposed on a vertical plane including the central axis of the coil inner diameter, and is fixedly disposed at a position facing the coil. Lifter characterized by that.

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