CN115610493A

CN115610493A - Universal pipe cable transfer device

Info

Publication number: CN115610493A
Application number: CN202211395542.4A
Authority: CN
Inventors: 步宇峰; 阎军; 尹原超; 杜洪泽; 英玺蓬; 殷旭; 曹慧鑫; 张凯仑; 芦兆宽; 杨志勋; 胡帅瑞; 郭思雨; 宁永庆; 付瀚源
Original assignee: Dalian University of Technology; Harbin Engineering University; Ningbo Research Institute of Dalian University of Technology
Current assignee: Dalian University of Technology; Harbin Engineering University; Ningbo Research Institute of Dalian University of Technology
Priority date: 2022-11-09
Filing date: 2022-11-09
Publication date: 2023-01-17
Anticipated expiration: 2042-11-09
Also published as: CN115610493B

Abstract

A universal pipe cable transfer device comprises a bracket device, a rotatable connecting device, a supporting bearing device and a moving device. The bracket device and the support bearing device are connected together through the rotatable connecting device to form the same axis, and the bracket device and the support bearing device are relatively rotated through the rotatable connecting device. The edge of the bracket device disclosed by the invention can reduce potential safety hazards by adopting a chamfer design, wherein the rectangular baffle plate is arranged to improve the transportation stability, the circular through hole is arranged to be matched with the semi-submersible circular hole in the supporting and bearing device, and the plane rotation between the bracket device and the supporting and bearing device is realized or limited by the rotatable connecting device; can prevent to remove the in-process cut operating personnel, for transporting provide very big facility, and can use single or a plurality of device to transport together according to umbilical length, solve umbilical length to the difficult problem of transporting.

Description

Universal pipe cable transfer device

Technical Field

The invention belongs to the technical field of pipe cables, and particularly relates to a universal pipe cable transfer device which is suitable for occasions needing to transfer pipe cables with various sizes and different weights in factories, laboratories and the like.

Background

The pipe cable is an integrated part with a complex structure, the completely filled solid structure is a cable, and the incompletely filled hollow structure is a pipe. Umbilicals are generally classified into the following categories: marine umbilical cables, floating wind power dynamic cables, land high-power transmission cables, steel pipes, oil pipelines, gas pipelines and the like. They are made by spirally winding a plurality of wires or filling members, cable products are generally used for transmitting signals, providing hydraulic power or connecting circuits, etc., and pipe products are generally used for transmitting media, etc. The environment and production techniques of the umbilical type are different from those of the general household wire and pipe.

The size of equipment for transferring during manufacturing of the pipe cable products is usually large, such as a gantry tower crane or a crane, and the like, and the equipment needs special technicians to operate firstly, so that the production cost is increased; secondly, the requirement on the operation space of the equipment is high, and a field with large area and height is required; the final product has a limited transfer range and is limited by the length of the gantry track and the working radius of the crane; when the hoisting position is not good, the pipe cable can fall off from the air, and potential safety hazards are caused; the above aspects undoubtedly increase the workload of the operator. Therefore, there is an urgent need for a universal pipe cable transfer device with simple structure and convenient operation

Disclosure of Invention

The invention aims to provide a universal pipe cable transfer device aiming at the problems of heavy weight, long size, limited field and the like of pipe cable products, and solves the problems of incomplete transfer equipment and large potential safety hazard in the transfer process of the pipe cable products in factories, laboratories and the like.

In order to achieve the purpose, the invention adopts the technical scheme that:

a universal type pipe cable transfer device comprises a bracket device 1, a rotatable connecting device 2, a support bearing device 3 and a moving device 17. The bracket device 1 is fixedly connected with the top of the rotatable connecting device 2, the bottom of the rotatable connecting device is fixedly connected with the supporting bearing device 3, and the rotatable connecting device 2 can rotate around the circular bearing 9. After connection, the axes of the bracket device, the rotatable connecting device and the supporting and bearing device are the same, and the supporting and bearing device and the moving device are fixed in a spiral way through a bearing; the tray device 1 is used for placing the umbilical to be transferred.

The bracket device 1 comprises a first rectangular baffle plate 4, a second rectangular baffle plate 5 and a semi-oval shell thick plate 6. The thick plate 6 of the semi-elliptical shell is arranged above the rotatable connecting device 2, and four circular through holes 7 are prefabricated at the edge of the thick plate; the two long edge ends of the semi-elliptical shell thick plate 6 are respectively provided with a first rectangular baffle 4 and a second rectangular baffle 5. The long sides of the rectangular baffles 4 and 5 are the same as the long sides of the semi-elliptical shell thick plates 6 in size, and the widths of the rectangular baffles 4 and 5 are consistent with the thickness of the semi-elliptical shell thick plates 6 and are connected together through welding.

The rotatable connection means 2 comprises upper and lower steel discs 8, 10 and a circular bearing 9. The steel cakes 8 and 10 and the circular bearing 9 are consistent in circumferential length, the lower surface of the steel cake 8 is welded with the upper surface of the circular bearing 9, the upper surface of the steel cake 10 is welded with the lower surface of the circular bearing 9, and the steel cake 8, the steel cake 10 and the circular bearing are coaxial and can rotate per se. The upper surface of the upper steel cake 8 is designed in an oval inward-concave mode, is completely attached to the lower surface of the semi-elliptical shell thick plate 6, and the lower surface of the semi-elliptical shell thick plate 6 is connected with the upper surface of the steel cake 8 through welding; the lower surface of the lower steel cake 10 is welded with an upper round steel plate 11 in the supporting and bearing device 3, so that the bracket transposition 1 and the supporting and bearing device 3 are connected together through the rotatable connecting device 2 to form the same axis, and the bracket transposition 1 and the supporting and bearing device 3 are relatively rotated by the rotatable connecting device 2.

The supporting and bearing device 3 comprises upper and lower

circular steel plates

11 and 12, a tire-like steel ring 13 and a plurality of supporting steel bars 14. The upper and lower

circular steel plates

11 and 12 are fixedly connected through a supporting steel bar 14, and the two

circular steel plates

11 and 12 are coaxial. The thickness of the tire-like steel ring 13 is consistent with the thickness of the

circular steel plates

11 and 12, the inner diameter of the tire-like steel ring 13 is consistent with the outer diameter of the circular steel plates, and the tire-like steel ring is connected with the circular steel plates in a welding mode to form a round cake structure with a steel bar support inside, and the welding edge is smooth and has no protrusion or concave display.

The moving device 17 is arranged below the support bearing device 3 and comprises a tire 18, a lock catch 19, a U-shaped steel plate 20 and a high-strength bolt 21. The lock catch 19 is welded on the U-shaped steel plate 20, and the tire 18 is fixed on the U-shaped steel plate 20 through a high-strength screw 21. The U-shaped steel plate 20 is fixed on the bottom surface of the lower round steel plate 12.

Further, the bracket device 1 can also be of an integrated structure; the edges of the bracket device are designed by adopting chamfers.

Furthermore, one supporting steel bar 14 in the supporting and bearing device 3 is arranged at the center of the circle of the circular steel plate 12, the other four supporting steel bars 14 are arranged in four points in a square shape by taking the center of the circle of the circular steel plate 12 as the center, and the

circular steel plates

11 and 12 are connected by welding through the 5 supporting steel bars 14, so that the

circular steel plates

11 and 12 are on the same axis.

Furthermore, four semi-submersible circular holes 15 are prefabricated on the upper surface of the upper round steel plate 11 in the support bearing device 3, the positions of the four semi-submersible circular holes correspond to the round through holes 7 in the semi-elliptical shell thick plate 6, steel bars are placed into the round through holes 7 and the semi-submersible circular holes 15, plane rotation of the bracket device 1 and the support bearing device 3 can be released or limited, and operation flexibility of the device is further improved.

Furthermore, four semi-submersible circular holes 16 are prefabricated on the lower surface of the circular steel plate 12 below the support bearing device 3 and correspond to the locking devices in the moving device (namely, the semi-submersible circular holes 16 can be matched with the locking devices 19 according to the principle of selecting the positions), and the transfer device can move in a single direction or in multiple directions.

Further, the moving device 17 is fixed on the lower surface of the circular steel plate 12 through a bearing bolt 22, and the welding positions are below the supporting steel bars 14 at four points of the square, so that a certain supporting effect is achieved.

Furthermore, the latch 19 of the moving device is fixed outside the U-shaped steel plate 20 by welding, and the upper edge of the latch 19 is flush with the upper edge of the outside of the U-shaped steel plate 20 and is located in the middle of the U-shaped steel plate 20.

The invention has the beneficial effects that:

(1) All materials in the invention can be subjected to waste utilization from processing residues, so that the use cost is reduced.

(2) The edge of the bracket device adopts a chamfer design, so that the pipe cable and operators are prevented from being cut in the transferring process, and the potential safety hazard is reduced.

(3) According to the invention, the rectangular baffle is arranged in the bracket device, so that the height of the enclosure can be increased, the transportation stability is improved, and the pipe cable is not easy to slip.

(4) The circular through hole arranged in the bracket device can be matched with the semi-submersible circular hole in the support bearing device, so that the plane rotation between the bracket device and the support bearing device can be realized or limited through the rotatable connecting device.

(5) The upper half surface of the steel cake in the rotatable connecting device is processed into a design of being completely attached to the lower surface of the thick plate of the semi-elliptical shell, so that the stability of the rotatable connecting device is further improved.

(6) The size of the outermost ring of the tire-like steel ring in the supporting and bearing device can cover the bracket device, and the tire-like design is adopted, so that the supporting and bearing device is superior to the bracket device in contacting with a collision object, and operators are prevented from being cut in the moving process.

(7) According to the invention, 5 steel bars are arranged in the supporting and bearing device, so that higher bearing capacity can be provided for the device.

(8) The bracket device is designed by adopting a thick semi-elliptical shell plate, can provide transportation for pipe cables with various sizes (0-20 inches), and has higher compatibility.

(9) According to the invention, the moving device and the supporting and bearing device are connected by adopting the bearing bolt, and the lock catch is added, so that the device can move in a single direction or multiple directions as required, and great convenience is provided for transportation.

(10) The invention can use single or multiple devices to transport together according to the length of the pipe cable, thus solving the difficult problem of the pipe cable length to transport.

Drawings

Fig. 1 is a front view of a universal umbilical transfer device.

Fig. 2 is a left side view of a structure of a universal type pipe cable transfer device.

Fig. 3 is a top view of a universal umbilical transfer device.

Fig. 4 is a three-dimensional schematic diagram of a structure of a universal type pipe cable transfer device.

Fig. 5 is a three-dimensional schematic diagram of a structure of a universal umbilical transfer device.

Fig. 6 is a three-dimensional schematic diagram of a structure of a universal type umbilical transfer device.

FIG. 7 is a schematic view of the device transport.

Fig. 8 is a schematic diagram of the device transfer umbilical dimensions.

In the figure: 1 a bracket device; 2 a rotatable connection means; 3 supporting the load bearing device; 4 a first rectangular baffle; 5 a second rectangular baffle; 6, semi-elliptical shell thick plate; 7 circular through holes; a steel cake above 8; 9 a circular bearing; a steel cake below 10; 11, a circular steel plate above the steel plate; 12 lower round steel plate; a class 13 tire steel ring; 14 supporting the steel bar; 15 semi-submersible circular holes; 16 semi-submersible circular holes; 17 moving means; 18 tires; 19 locking and buckling; 20U-shaped steel plates; 21 a high strength bolt; 22 bearing bolts.

Detailed Description

The present invention is further illustrated by the following examples.

According to the universal pipe cable transfer device, when a solid pipe cable consisting of a plurality of parts is produced in a factory and needs to be transferred to another workshop for test work, a gantry crane in the workshop cannot transfer across the space, a crane cannot transfer across the space due to the limited length of a swing arm, and the pipe cable falls off when the crane or the gantry crane lifts due to the weight and the length of the pipe cable, so that certain potential safety hazards exist. The present invention may thus be used to effect medium and short haul trans-regional transfer of umbilicals through the cooperation of multiple devices. The method comprises the following specific steps:

at first when the umbilical production is made, can take on bracket device 1 with the umbilical one end that produces, transfer device receives umbilical production line and 17 locking effects of mobile device and can directly move forward, at this in-process, can place a plurality of transfer devices in the pipeline below according to umbilical self rigidity and length, guarantee that pipeline self can not contact ground can, and then realize transporting. When a corner appears in the transferring process, the locking device 19 of the moving device 17 can be released, so that the transferring device can move in multiple directions, the supporting bearing device 3 is designed to be larger, and the tire-like design can be adopted, so that the supporting bearing device can collide with objects in the closed transferring process, and the manpower and material resources and the subsequent maintenance cost are saved as shown in fig. 7 and fig. 8.

The above-mentioned embodiments only represent the embodiments of the present invention, but they should not be understood as the limitation of the scope of the present invention, and it should be noted that those skilled in the art can make several variations and modifications without departing from the spirit of the present invention, and these all fall into the protection scope of the present invention.

Claims

1. The universal type pipe cable transfer device is characterized by comprising a bracket device (1), a rotatable connecting device (2), a supporting and bearing device (3) and a moving device (17); the bracket device (1) and the support bearing device (3) are connected together through the rotatable connecting device (2) to form the same axis, and the bracket device (1) and the support bearing device (3) are relatively rotated through the rotatable connecting device (2); the bracket device (1) is used for placing the pipe cable to be transported.

2. A universal umbilical transfer device as claimed in claim 1 wherein the carriage means (1) comprises first and second rectangular baffles (4), (5) and a semi-oval shell slab (6); the semi-elliptical shell thick plate (6) is arranged above the rotatable connecting device (2), and four circular through holes (7) are prefabricated at the edge of the semi-elliptical shell thick plate; the two long edge ends of the semi-elliptic shell thick plate (6) are respectively provided with a first rectangular baffle (4) and a second rectangular baffle (5).

3. A universal umbilical transfer device as claimed in claim 1 wherein the rotatable connection means (2) comprises upper and lower steel discs (8), (10) and circular bearings (9); the steel cakes (8) and (10) are consistent with the circular bearing (9) in circumferential length, the lower surface of the steel cake (8) is fixedly connected with the upper surface of the circular bearing (9), the upper surface of the steel cake (10) is fixedly connected with the lower surface of the circular bearing (9), and the steel cake, the steel cake and the circular bearing are coaxial and can rotate per se; the upper surface of the upper steel cake (8) is designed in an oval invagination mode, and is completely attached and fixedly connected with the lower surface of the semi-oval shell thick plate (6); the lower surface of the lower steel cake (10) is fixedly connected with an upper round steel plate (11) of the support bearing device (3).

4. A universal pipe and cable transfer device as claimed in claim 1, wherein the support load bearing device (3) comprises upper and lower circular steel plates (11), (12), a tire-like steel ring (13) and a plurality of support steel bars (14); the upper and lower circular steel plates (11) and (12) are fixedly connected through a supporting steel bar (14), and the two circular steel plates (11) and (12) are coaxial; the inner diameter of the tire-like steel ring (13) is consistent with the outer diameter of the circular steel plate, and the tire-like steel ring is connected with the circular steel plate in a welding mode to form a round cake structure with a steel bar support inside, and the welding edge is smooth and has no protrusion or concave display.

5. A universal umbilical transfer device as claimed in claim 1 wherein the moving means (17) is provided below the support load bearing means (3) and comprises a tire (18), a lock (19), a U-shaped steel plate (20); the lock catch (19) is welded on the U-shaped steel plate (20), and the tire (18) is fixed on the U-shaped steel plate (20) through a high-strength spiral (21); the U-shaped steel plate (20) is fixed on the bottom surface of the lower round steel plate.

6. The universal type pipe cable transfer device according to claim 5, wherein one supporting steel bar (14) in the supporting and bearing device (3) is arranged at the center of a circle of the circular steel plate (12), the other four supporting steel bars (14) are arranged in a square shape at four points by taking the center of the circle of the circular steel plate (12) as the center, and the circular steel plates (11) and (12) are connected by welding through 5 supporting steel bars (14) so that the circular steel plates (11) and (12) are on the same axis.

7. The universal type pipe cable transfer device according to claim 5, wherein four semi-submerged circular holes (15) are prefabricated on the upper surface of the upper round steel plate (11) in the supporting and bearing device (3) and correspond to the round through holes (7) in the semi-elliptical shell thick plate (6), and steel rods are placed in the round through holes (7) and the semi-submerged circular holes (15) to release or limit the plane rotation of the bracket device (1) and the supporting and bearing device (3); the lower surface of the round steel plate (12) below the middle part of the supporting and bearing device (3) is prefabricated with four semi-submersible round holes (16) which correspond to the locking devices in the moving device, so that the transfer device can move in a single direction or in multiple directions.