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CN-122009428-A - Hanging bracket for connecting linear area of ship outer plate

CN122009428ACN 122009428 ACN122009428 ACN 122009428ACN-122009428-A

Abstract

The application discloses a hanging bracket for connecting a linear region of a ship outer plate, which comprises a stress main plate, a panel and toggle plates, wherein the stress main plate is provided with a hanging hole for connecting hanging equipment, the stress main plate is provided with a first side edge and a second side edge which are intersected at an acute angle, the panel is connected to the first side edge and is perpendicular to the stress main plate, the toggle plates are symmetrically arranged on two sides of the stress main plate, the toggle plates are arranged at the acute angle with the panel, and one side edge of each toggle plate extends to the second side edge and forms a supporting plane together with the second side edge. The panel is used for being contacted with an external supporting structure in the general assembly and carrying stage of the ship outer plate after the ship outer plate is turned over in a segmented mode so as to realize the supporting function. The method can effectively reduce the number of the ship outer plate stacking feet, reduce the labor investment and the resource consumption, improve the construction efficiency and ensure the safe reliability of hoisting and supporting.

Inventors

  • SHI JIANYU
  • CHEN LIZHEN
  • QIU LIFEI
  • Huang Xupan
  • Zeng Nuo

Assignees

  • 广船国际有限公司

Dates

Publication Date
20260512
Application Date
20260330

Claims (10)

  1. 1. A lifting code for connecting linear regions of ship outer panels, comprising: the lifting device comprises a stress main board (100), a lifting device and a lifting device, wherein a lifting hole (110) for connecting the lifting device is formed in the stress main board (100), and the stress main board (100) is provided with a first side (111) and a second side (112) which are intersected at an acute angle; A panel (200) connected to the first side (111) and perpendicular to the main board (100), and having one side edge of the panel (200) extending to the second side (112), and The toggle plates (300) are symmetrically arranged on two sides of the stressed main board (100), the toggle plates (300) and the panel (200) are arranged at an acute angle, one side edge of each toggle plate (300) extends to the second side edge (112) and forms a supporting plane (400) together with the second side edge (112), and the supporting plane (400) also comprises edges where the panel (200) and the second side edge (112) intersect; wherein the support plane (400) is intended to be welded to the outer panel of the vessel, and The panel (200) is used for being contacted with an external supporting structure in the general assembly and carrying stages of the ship outer plate after the ship outer plate is turned over in a segmented mode so as to realize the supporting function.
  2. 2. The crane for connecting a linear region of a ship outer panel according to claim 1, wherein the stress main plate (100), the panel (200) and the toggle plate (300) are of an integrated welded structure or an integrated molded structure.
  3. 3. The lifting code for connecting a linear region of a marine outer panel according to claim 1, wherein the angle between the first side (111) and the second side (112) and the angle between the toggle plate (300) and the panel (200) are both acute angles.
  4. 4. The crane for connecting a linear region of a ship outer plate according to claim 1, wherein a side surface of the panel (200) away from the stressed main plate (100) is a supporting working surface (210), and the supporting working surface (210) is provided with an anti-skid grain or a wear-resistant coating.
  5. 5. The crane for connecting a linear region of a ship outer panel according to claim 1, wherein the stress main plate (100) is provided with a reinforcing ring (1101) at the periphery of the hanging hole (110), and the reinforcing ring (1101) is welded or integrally formed with the stress main plate (100).
  6. 6. The lifting code for connecting a linear region of a ship outer panel according to claim 1, characterized in that at least one reinforcing rib (310) is provided between the toggle plate (300) and the panel (200), the reinforcing rib (310) is arranged along the extending direction of the toggle plate (300), and adjacent edges of the reinforcing rib (310) are connected to the toggle plate (300) and the panel (200), respectively.
  7. 7. The lifting code for connecting a linear region of a ship outer panel according to claim 1, characterized in that an arc-shaped transition (320) for dispersing stress during supporting and lifting is provided between the panel (200) and the toggle plate (300).
  8. 8. The crane for connecting a linear region of a ship outer plate according to claim 1, wherein the support plane (400) is provided with a welding groove (410) extending along a length direction thereof, and a cross section of the welding groove (410) is V-shaped or U-shaped.
  9. 9. The crane for connecting a linear region of a ship outer panel according to claim 1, wherein the outer contour of the stressed main panel (100) is polygonal, and has a plurality of sets of sides arranged at different angles, each set of sides being respectively connected with a corresponding toggle plate (300) to form a plurality of support planes (400) and support working surfaces (210) with different orientations.
  10. 10. The crane for connecting a linear region of a ship outer panel according to claim 1, wherein a detachable connection structure (500) is provided between the panel (200) and the stressed main board (100), the detachable connection structure (500) comprising a slot (510) provided on the stressed main board (100), a tongue (520) provided on the panel (200), and a locking pin (530) for locking the tongue (520) and the slot (510).

Description

Hanging bracket for connecting linear area of ship outer plate Technical Field The application relates to the technical field of hanging yards for ship production, in particular to a hanging yard for connecting a linear region of a ship outer plate. Background During the ship segment construction, the area where the ship outer panel exists in a line type needs to go through a plurality of construction stages. In the stage of segment construction, a hanging bracket is required to be installed for turning over operation after segment completion, and after segment turning over, a supporting seat is required to be installed for horizontally placing the segment on a portal frame for transportation, and high-level support is provided in the stage of total group carrying. Because the hanging bracket and the supporting seat are functionally separated and independently installed, two independent welding connection structures (bracket pins) are required to be arranged on the outer plate. The method has the following problems that firstly, the processing procedures of cutting, polishing, repair welding and the like of two code pins increase the construction amount and influence the appearance of the outer plate, secondly, the manual investment and the resource consumption of the procedures of assembly, welding, inspection and the like are increased for two times of installation and removal, the construction period is prolonged, thirdly, the code pins are required to be classified and recycled after being used, and the management cost is increased. Therefore, how to reduce the number of ship outer plate stacking feet, reduce the labor investment and the resource consumption, improve the construction efficiency, and ensure the safe reliability of hoisting and supporting at the same time is a technical problem to be solved in the field. Disclosure of Invention The embodiment of the invention aims to provide a hanging bracket for connecting a linear region of a ship outer plate, which can solve the problems in the prior art. In order to achieve the above purpose, the application adopts the following technical scheme: there is provided a lifting code for connecting a linear region of a ship outer panel, comprising: the stress main board is provided with a hanging hole for connecting the hanging device, and is provided with a first side and a second side which are intersected at an acute angle; a panel connected to the first side and perpendicular to the main board, and having one side extending to the second side, and The toggle plates are symmetrically arranged on two sides of the stressed main board, the toggle plates are arranged at an acute angle with the panel, one side edge of each toggle plate extends to the second side edge and forms a supporting plane together with the second side edge, and the supporting plane also comprises edges where the panel and the second side edge intersect; wherein the supporting plane is used for being welded and fixed on the ship outer plate, and After the panel is used for the ship outer plate to turn over in a segmented mode, the panel is contacted with an external supporting structure at the stage of assembling and carrying the ship outer plate so as to realize the supporting function. Preferably, the stress main board, the panel and the toggle plate are of an integrated welding structure or an integrated forming structure. Preferably, the included angle between the first side edge and the second side edge, and the included angle between the toggle plate and the panel are acute angles. Preferably, a side surface of the panel, which is far away from the stressed main board, is a supporting working surface, and an anti-skid grain or a wear-resistant coating is arranged on the supporting working surface. Preferably, the stress main board is provided with a reinforcing ring at the periphery of the hanging hole, and the reinforcing ring and the stress main board are welded and fixed or integrally formed. Preferably, at least one reinforcing rib is arranged between the toggle plate and the panel, the reinforcing ribs are arranged along the extending direction of the toggle plate, and adjacent edges of the reinforcing ribs are respectively connected with the toggle plate and the panel. Preferably, an arc-shaped transition part for dispersing stress during supporting and hoisting is arranged between the panel and the toggle plate. Preferably, the support plane is provided with a welding groove extending along the length direction of the support plane, and the section of the welding groove is V-shaped or U-shaped. Preferably, the outer contour of the stressed main board is polygonal, and is provided with a plurality of groups of side edges which are arranged at different angles, and each group of side edges is respectively connected with a corresponding toggle plate so as to form a plurality of support planes and support working surfaces with different orientations. Preferably, a detachable c