JP2010235220A - Transporting long objects - Google Patents

Abstract

Provided is a safe and efficient transportation method in which a plurality of long objects, in particular, heavy steel pipes, steel bars, or shaped steels, can be transported simultaneously by a crane.
When a plurality of long objects 5 are bundled and the long objects 5 are lifted and transported by a crane 1 via at least two ropes 4, a place 6 for placing the long objects 5 is provided. The rope is placed in at least two grooves 8 provided in a direction crossing the length direction of the long object 5 placed on the placement place 6 and the step of placing the plurality of long objects 5 on 4, and a step of hanging the rope 4 on the hook 3 of the crane 1 through a path surrounding the plurality of long objects 5.
[Selection] Figure 4

Description

  The present invention relates to a method of transporting a plurality of long objects at the same time using a crane, and more particularly, to a method of safely and efficiently transporting a long object such as a heavy steel pipe, steel bar or section steel. .

  Conventionally, two or more wire ropes hung on a crane hook are used as a method of bundling a plurality of heavy heavy objects such as steel pipes, steel bars, or shaped steels using a crane. It is common to hang on a long object and lift it almost horizontally with the ground. In FIG. 1, according to the conventional method, an example of the aspect which conveys the elongate object 5 using the crane 1 is shown.

  That is, the long object 5 is bundled into a plurality of pieces (seven in the illustrated example) and is placed on the conveyor 7 provided at the place 6 for placing the long object 5 in a state of being bound by the binding tool 10. Is done. On the other hand, the crane 1 has a crane main body 11 and a beam 2, and has two hooks 3, one at each end in the longitudinal direction of the beam 2, and is disposed above the long object 5. Is done. At that time, the length direction of the beam 2 and the length direction of the long object 5 are matched, and the center line 0 of the crane 1 connecting the hooks 3 and the center of gravity G of the bundle of the long objects 5 And almost overlap. Further, in the illustrated example, the rope 4 is a linear member having a small ring for slacking at both ends, and the ring at one end is hung on the hook 3, and the periphery of the rope 4 passes through the lower part of the long object 5. The other end of the ring is hung on the hook 3. At this time, the rope 4 is in contact with the placement place 6, and is in a state where the rope 4 spreads outward in the length direction of the long object 5.

FIG. 2 is a diagram showing a state when the crane 1 is lifted from the above-described state and the long object 5 is lifted according to a conventional method. As can be seen from the illustrated example, in this state, the wire rope 4 does not support an appropriate position of the long object 5, so that the center line 0 of the crane 1 and the center of gravity G of the long object 5 are inconsistent. . This is because the rope 4 is bent before being lifted, resulting in variations in the position of the rope 4 that hits the long object 5 during lifting. When the position of the center of gravity G of the long object 5 is shifted, the forces F ₁ and F ₂ acting on the long object 5 from the ropes 4 against the gravity F applied to the bundle of the long objects 5 are not uniform (illustrated example). Then, F ₁ > F / 2> F ₂ ). Further, since the forces F ₁ and F ₂ do not face in the vertical direction but include a force component that faces the inside of the long object 5 in the length direction, the rope 4 slides on the surface of the long object 5 and becomes further unstable. There is also a possibility that the rope 4 may come off the end of the long object 5 and the long object 5 may fall.

  For this reason, the above method requires personnel to manually hold both ends of the long object 5 in the lengthwise direction when lifting, but this holding operation is an operation in which a person approaches an unstablely bundled heavy object. Because it is very dangerous, it becomes a cause of disaster.

  Therefore, in order to carry safely, another process for adjusting the position of the wire rope 4 is required before the lifting time. For example, this is performed manually or, as shown in FIG. 3, a guide 9 for guiding the wire rope 4 to an appropriate position is arranged under a long object. It is not efficient because it creates a need to do it every time it is lifted. In addition, FIG. 3 is a figure which shows the other example of the conventional conveyance method.

  In addition, as a method of transporting a long object, for example, Patent Document 1 describes a method of suspending both ends of a steel pipe by providing a claw that engages the pipe at one end of the wire. Thereby, it can respond to the length of a pipe to some extent, and stable conveyance is possible. However, the above method has a drawback that the shape of the long object to be transported is limited and only one by one can be transported, which is not efficient.

JP-A-61-37683

  Therefore, in view of the above-described problems, the present invention is a method capable of simultaneously transporting a plurality of long objects, particularly heavy steel pipes, steel bars, or shaped steels, using a crane, and is safe and efficient. The purpose is to provide a transportation method.

The gist of the present invention that satisfies the above-mentioned problems is as follows.
(1) When a plurality of long objects are bundled and the long objects are lifted and transported by a crane via at least two ropes, the plurality of long objects are placed at the place where the long objects are placed. A step of placing an object, a step of placing the rope in at least two grooves provided in a direction transverse to the length direction of the long object to be placed on the placement place, and the plurality of ropes And hanging the hook of the crane through a path surrounding a long object of the book.

  Here, the “groove” has an opening width larger than the diameter of the rope, a length larger than a width of the bundled long object, and a depth larger than the diameter of the rope, preferably the rope The diameter is 3 times or more, and the shape is not limited. In addition, let the same direction as the length direction of the mounted elongate object be the opening width direction of the said groove | channel, and let the direction which crosses the length direction of this elongate object be the length direction of the said groove | channel. In the above description, “arranging the rope in the groove” means that at least a part of the rope is in the groove. Furthermore, the “long object” includes a rod, a tube, a beam, or the like, and the material and the shape of the cross section are not limited. In addition, the “rope” refers to a linear one having a certain level of durability against a load, and includes a nylon wire, a polyester rope, a vinylon rope, etc. in addition to a metal wire rope.

(2) The method according to (1), wherein the groove can be opened and closed.
Here, the “openable / closable” means that it can be opened and closed arbitrarily by the operator's intention, as well as automatically, for example, a device that senses the position of the crane and controls it to open and close accordingly. Including.

(3) The method according to (1) or (2), wherein the depth of the groove is 200 mm or more.

(4) The method according to any one of (1) to (3), wherein the groove has a length of 1000 mm or more.

(5) The method according to any one of (1) to (4), wherein a plurality of two pairs of grooves are provided.

(6) The method according to any one of (1) to (5), wherein the groove is provided at a position directly below the crane hook when the crane is lifted.

  According to the method of the present invention, it is possible to safely and efficiently carry a long object having a large weight. Moreover, this method can carry steel pipes, steel bars, shaped steels, square bars, etc., regardless of the cross-sectional shape and material of the long object, and can carry multiple pieces at the same time. As a result, work efficiency and safety can be realized.

It is a figure which shows an example of the conventional conveyance method. It is a figure which shows a state when a long thing is lifted with the conventional conveyance method. It is a figure which shows the other example of the conventional conveyance method. It is a figure which shows an example of the conveyance method of this invention. It is a figure which shows a state when a long thing is lifted with the conveyance method of this invention. It is a top view which shows an example of the shape and arrangement | positioning of the groove | channel by this invention.

Hereinafter, the present invention will be described in detail with reference to the drawings.
FIG. 4 shows an example of a mode in which the long object 5 is transported using the crane 1 according to the method of the present invention. The long object 5 is bundled into a plurality (seven in the illustrated example), and is placed on the placement place 6 by the same method as the example shown in FIG. In the illustrated example, components having the same reference numerals as those in FIG. 1 have the same structure.

  Here, the method of the present invention includes a step of placing a plurality of elongate objects 5 on the place 6 for placing the elongate object 5 and a length direction of the elongate object 5 placed on the place 6. A step of disposing the rope 4 in at least two grooves 8 provided so as to cross the rope, and a hook 3 of the crane 1 via a route surrounding the rope 4 around the plurality of long objects 5. It is important to include the process of applying to. In the illustrated example, the groove 8 is provided at a position directly below the hook 3 of the crane 1.

  By passing through the above steps, the bending of each rope 4 before lifting can be eliminated, and the position of each rope 4 can be limited to the range of the width b of the groove 8. FIG. 5 is a diagram illustrating a state when the long object 5 is lifted by lifting the crane 1 from the state illustrated in FIG. 4. At this time, the rope 4 supports an optimal position for lifting the long object 5, and the center of gravity G of the bundle of the long objects 5 overlaps the center line 0 of the crane 1. A force (F / 2 in the illustrated example) is applied evenly. For this reason, the long object 5 is stable.

  That is, in the conventional conveyance method, since the position of the rope 4 at the time of lifting was uneven, there was a problem that the long object 5 that was lifted was in an unstable state. In response to this problem, in the method of the present invention, by providing the groove 8 on the placement place 6 and disposing the rope 4 in the groove 8, variation in the position of the rope 4 can be suppressed, and the stability is always stable. It is possible to lift in the state. Further, as in the example of the conventional method shown in FIG. 3, for example, an extra step such as arranging the guide 9 every time it is lifted is not required, so that safety can be improved without impairing work efficiency. it can.

  In the present invention, the order of the steps described above can be changed. For example, after the rope 4 is hung on the hook 3 and placed in the groove 8, the long object 5 is placed on the placement place 6. Alternatively, after placing the long object 5 on the placement place 6 and hanging the rope 4 on the hook 3, the rope 4 can be placed in the groove 8.

In addition to the above, in the present invention, the groove 8 is preferably openable and closable.
By making the groove 8 openable and closable, for example, it is possible to open and close arbitrarily according to the operator's intention or automatically open and close corresponding to the position of the crane 1, the safety of work can be further improved. That is, if the groove 8 is closed when no carrying work is performed, for example, the risk of dropping the tool into the groove 8 or tripping the operator can be eliminated.

In the present invention, the depth d of the groove 8 is preferably 200 mm or more.
By setting the depth d of the groove 8 to 200 mm or more, the possibility that the rope 4 contacts the bottom of the groove 8 can be sufficiently suppressed, and the effects of the present invention can be maximized. It is. That is, when the groove 8 is shallow and the rope 4 is extremely long, the rope 4 may contact the bottom of the groove 8 and may not be straight.

Furthermore, the length W of the groove 8 is preferably 1000 mm or more.
If the length W of the groove 8 is set to 1000 mm or more, the width of the bundle of the long objects 5 to be placed is extremely large, or a plurality of the bundles of the long objects 5 are placed, so that the width is greatly expanded. In such a case, it is possible to maximize the effects of the present invention. That is, since the length W of the groove 8 is sufficiently long, even in the vicinity of the outermost side in the width direction of the long object 5, the rope 4 can be always supported at the time of lifting without being varied.

In addition, in the present invention, it is preferable to provide a plurality of two pairs of the grooves 8.
FIG. 6 is a plan view showing an example in which a plurality of pairs of the grooves 8 are provided in the method of the present invention. In the illustrated example, grooves 8a, 8b, and 8c are provided at equal intervals in order from the center of the long object 5 toward both outer sides in the length direction. Thus, by providing the groove 8, an appropriate groove 8 can be selected and used according to the length L of the long object 5. Therefore, it is possible to always perform a stable transport operation regardless of the length L of the long object 5. In this case, it is more effective to change the beam 2 of the crane 1 to a length corresponding to the length of the long object 5.

Furthermore, it is preferable to provide the groove 8 at a position directly below the hook 3 of the crane 1 when it is lifted.
As shown in the examples shown in FIGS. 4 and 5, by providing the groove 8 at a position directly below the hook 3 during lifting, the rope 4 before lifting is in a state of hanging straight downward according to gravity. From this state, a state as shown in FIG. 5 is obtained by lifting the long object 5. That is, the direction of the force F / 2 acting on the long object 5 from each rope 4 with respect to the gravity F applied to the long object 5 is the vertical direction. At this time, since each force F / 2 does not include a component in the length direction of the long object 5, the rope 4 does not slide on the surface of the long object 5 due to friction. Is possible.

In addition, in the present invention, the rope 4 is preferably a wire rope.
Rope 4 that can be used for lifting is generally nylon rope, vinylon rope, etc., but its specific gravity is small compared to metal wire rope and may not be straightened conveniently when placed in groove 8 Because there is. On the other hand, by using a wire rope having a large specific gravity in the present invention, it becomes sufficiently straight, so that the effect of the method of the present invention can be maximized. In other words, it can be said that the present invention requires a certain amount of weight because it uses its own weight on the rope 4 and extends it straight in the vertical direction.

Furthermore, the application of the present invention is effective when the elongated object 5 has a circular tube shape.
For example, steel pipes and resin pipes collapse and fall apart simply by loading them. Therefore, in order to simultaneously transport a plurality of pipes, it is possible to transport them using the rope 4 as in the method of the present invention. Is suitable. However, the conventional method has a problem in that the balance is lost. Therefore, when the method of the present invention is used for transporting such a long tube-shaped long object 5, the stability can be greatly improved, and in particular, a remarkable effect can be obtained as compared with the conventional method. This is because it can.

  According to the present invention shown in FIG. 4, two carbon steel pipes (SGP) for piping having a nominal diameter of 100A and a length of 5500 mm defined in JIS standards are bundled as 12 bundles and placed on a conveyor provided in a work place. According to the example of the method, a crane was used, and the rope 4 was lifted and transported using a wire rope having a diameter of 18 mm and a length of 4200 mm. At that time, two grooves having an opening width of 100 mm, a length of 2000 mm, and a depth of 200 mm are arranged in a direction crossing the length direction of the carbon steel pipe for piping (SGP) to be placed, and an interval between the grooves is 4500 mm. It was.

  When the transportation by the above-described method was repeated a plurality of times, the benefits compared to the conventional transportation method could be found with respect to the lifting stability and the work efficiency.

  By using the method of the present invention at a work site handling particularly heavy heavy objects such as steel pipes, steel bars, shaped steel, square bars, etc., it is possible to shorten the time required for transportation and improve safety. It is.

0 Crane center line 1 Crane 2 Beam 3 Hook 4 Rope 5 Long object 6 Work table 7 Conveyor 8 Groove 8a First groove 8b Second groove 8c Third groove 9 Guide 10 Bundling tool 11 Crane body G Bundle of long objects force acting from gravity F ₁ rope acting on the bundle of the center of gravity F long was the long object from the force F ₂ rope acting on the elongated article

Claims (6)

  When a plurality of long objects are bundled and the long objects are lifted and transported by a crane via at least two ropes, the plurality of long objects are placed on the place where the long objects are placed. A step of placing the rope in at least two grooves provided in a direction crossing a length direction of the long object placed on the placement place, and the plurality of long ropes. And hanging the hook of the crane through a path surrounding the circumference of the scale.   The method of claim 1, wherein the groove is openable and closable.   The method according to claim 1, wherein a depth of the groove is 200 mm or more.   The method according to claim 1, wherein the groove has a length of 1000 mm or more.   The method according to claim 1, wherein a plurality of two pairs of the grooves are provided.   The method according to any one of claims 1 to 5, wherein the groove is provided at a position directly below the hook of the crane when the crane is lifted.

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