CN117310092A

CN117310092A - Composite submarine cable detection device

Info

Publication number: CN117310092A
Application number: CN202311257817.2A
Authority: CN
Inventors: 李训祥; 吴万超; 胡云昌; 崇平; 卢金鑫; 吉冬梅; 徐彬; 高强冬
Original assignee: Anhui Kangliya Co ltd
Current assignee: Anhui Kangliya Co ltd
Priority date: 2023-09-26
Filing date: 2023-09-26
Publication date: 2023-12-29

Abstract

The invention belongs to the technical field of cable detection and relates to a composite submarine cable detection device, which comprises a mounting base and a traction device, wherein the traction device for pulling a cable to move is arranged on the mounting base, a detection marking device for detecting whether the surface of the cable is complete or not is arranged on the mounting base, two lifting devices are arranged on the mounting base, the two lifting devices are arranged on two sides of the detection marking device, the two lifting devices drive the detection marking device to be tightly attached to the cable through a pressurizing device, the cable passes through the traction device, the two lifting devices and the detection marking device, the traction device adjusts according to the diameter of the cable to adapt to the pushing of the cable, the lifting devices drive the detection marking device to be tightly attached to the cable through the pressurizing device in order to prevent the cable from extruding the detection marking device to avoid influencing the detection, and the traction device drives the detection marking device to be tightly attached to the cable, and the traction device pulls the cable out through the detection marking device to detect the cable and mark the damaged surface.

Description

Composite submarine cable detection device

Technical Field

The invention belongs to the technical field of cable detection, and particularly relates to a composite submarine cable detection device.

Background

Submarine cables are cables wrapped with insulating material and laid on the sea floor for telecommunication transmission, and are classified into submarine communication cables and submarine power cables. Modern submarine cables all use optical fibers as materials for transmitting telephone and internet signals, and in order to ensure the tightness of the cable outside, the cable outside needs to be detected to avoid subsequent faults.

The existing detection method is to detect whether the damage exists or not by manually visually inspecting the appearance of the spot cable, and the crack cannot be detected by the detection method.

Disclosure of Invention

The invention aims to provide a composite submarine cable detection device which is used for solving the problem of detecting the damage of the surface of a cable and marking the damage position.

In order to achieve the above purpose, the specific technical scheme of the composite submarine cable detection device provided by the invention is as follows:

the utility model provides a compound submarine cable detection device, includes installation base and draw gear, draw gear setting that is used for pulling the cable to remove is on the installation base, its characterized in that, be equipped with on the installation base and be used for detecting whether complete detection mark device in cable surface, be equipped with two on the installation base and hold up the device, two hold up the device setting in detection mark device both sides, hold up the device and order about detecting mark device and the inseparable laminating of cable through supercharging device.

Further, draw gear includes collar, servo motor, transmission ring gear, drive gear train, adjusting device, draw gear and drive belt, the collar sets up on the installation base, and servo motor drive sets up the inside transmission ring gear rotation at the collar, and the transmission ring gear passes through drive gear train and drive belt and drives draw gear and promote the cable removal, and adjusting device guarantees the tensioning of drive belt.

Further, the number of the transmission gear sets, the adjusting device, the traction device and the transmission belt is three.

Further, adjusting device is including installation fixed cylinder, slip mounting groove, movable block, first spring and drive wheel, installation fixed cylinder sets up inside the collar, and the movable block is through the inside slip of slip mounting groove at installation fixed cylinder, and first spring setting is between slip mounting groove and movable block, and the drive wheel setting is on the movable block.

Further, the traction device comprises a communication cavity, a hydraulic cylinder, a movable mounting cylinder, a second spring, a sliding bolt, a mounting seat, a pushing wheel and a communication wheel, wherein the communication cavity is arranged inside the mounting ring, the communication cavity is connected with the pressure supply device, the hydraulic cylinder is arranged on the mounting ring and communicated with the hydraulic cylinder, the movable mounting cylinder is arranged on the hydraulic cylinder, the sliding bolt is arranged inside the movable mounting cylinder in a sliding manner, the second spring is arranged between the sliding bolt and the movable mounting cylinder, the mounting seat is arranged on the sliding bolt, the pushing wheel is arranged on the mounting seat, the communication wheel is arranged on the pushing wheel, and the transmission belt is arranged on the communication wheel, the transmission wheel and the transmission gear set.

Further, the detection marking device comprises a fixed cylinder, a feeding pipe, a passing cavity and a sealing device, wherein the passing cavity for a cable to pass through is formed in the fixed cylinder, the feeding pipe communicated with the passing cavity is arranged on the fixed cylinder, the feeding pipe is connected with the feeding device, the sealing device for sealing the passing cavity with the cable in a matched mode is arranged in the fixed cylinder, and the supporting device controls the sealing device through the pressurizing device according to the diameter of the cable.

Further, sealing device includes mounting groove, rubber sleeve and intercommunication pore, two the mounting groove sets up the both ends at the fixed section of thick bamboo, and the fixed inside intercommunication pore that is equipped with the mounting groove intercommunication of section of thick bamboo, the rubber sleeve setting is inside the mounting groove, intercommunication pore and supercharging device intercommunication.

Further, hold up the device and include mounting bracket, sliding rack, installation axle, sleeve and gear, the installation axle is through two sliding rack inside slip at the mounting bracket, is equipped with the sleeve on the installation axle, and the inside gear that is equipped with sliding rack meshing of mounting bracket, installation axle and telescopic quantity are equipped with two, and gear and two sliding rack meshing, sliding rack and telescoping device are connected, sliding rack drive supercharging device.

Further, supercharging device is including fixed supercharging box, pressure boost sliding plate, connecting plate and connecting pipe, fixed supercharging box passes through connecting pipe and intercommunication pore intercommunication, and the pressure boost sliding plate slides in fixed supercharging box inside, and the pressure boost sliding plate passes through connecting plate and sliding rack and connects.

The invention has the advantages that:

the cable passes through the traction device, the two lifting devices and the detection marking device, then the traction device adjusts according to the diameter of the cable to adapt to the pushing of the cable, the lifting devices can adjust in order to prevent the cable from extruding the detection marking device to avoid influencing the detection, the adjusted lifting devices drive the detection marking device to be tightly attached to the cable through the pressurizing device, and then the traction device pulls out the cable through the detection marking device to detect the cable and mark the damaged surface.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a cross-sectional view of the overall structure of the present invention;

FIG. 3 is a schematic diagram of a traction device according to the present invention;

FIG. 4 is a cross-sectional view of the traction device of the present invention;

FIG. 5 is an enlarged partial schematic view A of FIG. 4;

fig. 6 is a schematic structural view of a pulling device according to the present invention;

FIG. 7 is a schematic view of the structure of the adjusting device of the present invention;

FIG. 8 is a schematic diagram of a detection marking device according to the present invention;

FIG. 9 is a cross-sectional view of a detection marking device of the present invention;

FIG. 10 is a schematic view of a lifting device according to the present invention;

FIG. 11 is a schematic view of a supercharging device according to the present invention;

FIG. 12 is a schematic view of a partial structure of a lifting device according to the present invention;

the figure indicates:

a mounting base 1; a traction device 2; a mounting ring 2-1; a servo motor 2-2; 2-3 parts of a transmission toothed ring; 2-4 of a transmission gear set; 2-5 of a regulating device; mounting a fixed cylinder 2-5-1; 2-5-2 of a sliding mounting groove; 2-5-3 of a moving block; the first springs 2-5-4; 2-5-5 parts of driving wheels; 2-6 of a traction device; a communication cavity 2-6-1; 2-6-2 of hydraulic cylinders; 2-6-3 of a movable mounting cylinder; a second spring 2-6-4; 2-6-5 parts of sliding bolt; 2-6-6 parts of mounting seats; 2-6-7 of a pushing wheel; 2-6-8 of communicating wheels; 2-7 parts of a transmission belt; a detection marking device 3; a fixed cylinder 3-1; a feed pipe 3-2; through the cavity 3-3; sealing means 3-4; mounting grooves 3-4-1; 3-4-2 of rubber sleeve; 3-4-3 of communicating pore canals; a lifting device 4; a mounting frame 4-1; sliding rack 4-2; mounting a shaft 4-3; 4-4 parts of sleeves; 4-5 of gears; a supercharging device 5; a fixed pressurizing box 5-1; a pressurizing sliding plate 5-2; 5-3 parts of connecting plates; and a connecting pipe 5-4.

Detailed Description

The following description of the embodiments of the present invention will be made apparent and fully in view of the accompanying drawings, in which some, but not all embodiments of the invention are shown. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

In the description of the present invention, it should be noted that the directions or positional relationships indicated by the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present invention and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

As shown in fig. 1-12, a composite submarine cable detection device comprises a mounting base 1 and a traction device 2, wherein the traction device 2 for pulling a cable to move is arranged on the mounting base 1, and the composite submarine cable detection device is characterized in that a detection marking device 3 for detecting whether the surface of the cable is complete is arranged on the mounting base 1, two lifting devices 4 are arranged on the mounting base 1, the two lifting devices 4 are arranged on two sides of the detection marking device 3, and the lifting devices 4 drive the detection marking device 3 to be tightly attached to the cable through a supercharging device 5.

The cable passes through the traction device 2, the two supporting devices 4 and the detection marking device 3, then the traction device 2 adjusts according to the diameter of the cable to adapt to the pushing of the cable, the supporting devices 4 are used for preventing the cable from extruding the detection marking device 3 to avoid influencing detection, the supporting devices 4 can adjust, the adjusted supporting devices 4 drive the detection marking device 3 to be tightly attached to the cable through the pressurizing device 5, and then the traction device 2 pulls out the cable through the detection marking device 3 to detect the cable and mark the damaged surface.

1-12, the traction device 2 comprises a mounting ring 2-1, a servo motor 2-2, a transmission toothed ring 2-3, a transmission gear set 2-4, an adjusting device 2-5, a traction device 2-6 and a transmission belt 2-7, wherein the mounting ring 2-1 is arranged on the mounting base 1, the servo motor 2-2 drives the transmission toothed ring 2-3 arranged in the mounting ring 2-1 to rotate, and the transmission toothed ring 2-3 drives the traction device 2-6 to push a cable to move through the transmission gear set 2-4 and the transmission belt 2-7, and the adjusting device 2-5 ensures the tensioning of the transmission belt 2-7.

The servo motor 2-2 drives the transmission gear set 2-4 to rotate through the transmission gear ring 2-3, the transmission gear set 2-4 drives the traction device 2-6 to rotate through the transmission belt 2-7 to push the cable, and the adjustment device 2-5 enables the transmission belt 2-7 to maintain tension and maintain transmission stability.

Wherein, as shown in fig. 1-12, the number of the transmission gear sets 2-4, the adjusting device 2-5, the traction device 2-6 and the transmission belt 2-7 is three.

As shown in fig. 1-12, the adjusting device 2-5 comprises a mounting fixed cylinder 2-5-1, a sliding mounting groove 2-5-2, a moving block 2-5-3, a first spring 2-5-4 and a driving wheel 2-5-5, wherein the mounting fixed cylinder 2-5-1 is arranged in the mounting ring 2-1, the moving block 2-5-3 slides in the mounting fixed cylinder 2-5-1 through the sliding mounting groove 2-5-2, the first spring 2-5-4 is arranged between the sliding mounting groove 2-5-2 and the moving block 2-5-3, and the driving wheel 2-5-5 is arranged on the moving block 2-5-3.

The moving block 2-5-3 slides inside the sliding mounting groove 2-5-2 to adjust the position of the driving wheel 2-5-5.

As shown in fig. 1-12, the traction device 2-6 comprises a communication cavity 2-6-1, a hydraulic cylinder 2-6-2, a movable mounting cylinder 2-6-3, a second spring 2-6-4, a sliding bolt 2-6-5, a mounting seat 2-6-6, a pushing wheel 2-6-7 and a communication wheel 2-6-8, wherein the communication cavity 2-6-1 is arranged in the mounting ring 2-1, the communication cavity 2-6-1 is connected with a pressure supply device, the hydraulic cylinder 2-6-2 is arranged on the mounting ring 2-1 and is communicated with the hydraulic cylinder 2-6-2, the hydraulic cylinder 2-6-2 is provided with the movable mounting cylinder 2-6-3, the sliding bolt 2-6-5 is arranged in the movable mounting cylinder 2-6-3 in a sliding manner, the second spring 2-6-4 is arranged between the sliding bolt 2-6-5 and the movable mounting cylinder 2-6-3, the mounting seat 2-6-6 is arranged on the sliding bolt 2-6-5, the mounting seat 2-6-6 is provided with the pushing wheel 2-6-7, the driving wheel 2-7 is arranged on the driving wheel 2-6-8, and the driving wheel 2-7 is arranged on the driving wheel 2-6-8.

The communicating cavity 2-6-1 transmits hydraulic oil to the inside of the hydraulic cylinder 2-6-2 so as to adjust the front end of the hydraulic cylinder 2-6-2 to move the position of the mounting cylinder 2-6-3, the moving mounting cylinder 2-6-3 drives the second spring 2-6-4, the sliding bolt 2-6-5 and the mounting seat 2-6-6, the second spring 2-6-4, the sliding bolt 2-6-5 and the mounting seat 2-6 to move, and the mounting seat 2-6-6 drives the pushing wheel 2-6-7 and the communicating wheel 2-6-8 to move so that the pushing wheel 2-6-7 is clung to the surface of the cable.

The detection marking device 3 comprises a fixed cylinder 3-1, a feeding pipe 3-2, a passing cavity 3-3 and a sealing device 3-4, wherein the passing cavity 3-3 used for a cable to pass through is arranged inside the fixed cylinder 3-1, the feeding pipe 3-2 communicated with the passing cavity 3-3 is arranged on the fixed cylinder 3-1, the feeding pipe 3-2 is connected with the feeding device, the sealing device 3-4 used for sealing the passing cavity 3-3 in a matched mode with the cable is arranged inside the fixed cylinder 3-1, and the supporting device 4 controls the sealing device 3-4 through a pressurizing device 5 according to the diameter of the cable.

The cable passes through the cavity 3-3 and material passing through the interior of the cavity 3-3 will enter into and exit from the cavity when there is a break in the surface of the cable and the sealing means 3-4 scrapes off the marking material on the unbroken surface when the cable is pulled through the cavity 3-3.

The sealing device 3-4 comprises mounting grooves 3-4-1, rubber sleeves 3-4-2 and communicating pore passages 3-4-3, wherein the two mounting grooves 3-4-1 are arranged at two ends of a fixed cylinder 3-1, the communicating pore passages 3-4-3 communicated with the mounting grooves 3-4-1 are arranged in the fixed cylinder 3-1, the rubber sleeves 3-4-2 are arranged in the mounting grooves 3-4-1, and the communicating pore passages 3-4-3 are communicated with a supercharging device 5.

The supporting device 4 supplements air to the inside of the rubber sleeve 3-4-2 through the fixed pressurizing box 5-1 so as to ensure the tight fitting between the rubber sleeve 3-4-2 and the surface of the cable.

As shown in fig. 1-12, the lifting device 4 comprises a mounting frame 4-1, sliding racks 4-2, a mounting shaft 4-3, sleeves 4-4 and gears 4-5, wherein the mounting shaft 4-3 slides in the mounting frame 4-1 through the two sliding racks 4-2, the sleeves 4-4 are arranged on the mounting shaft 4-3, the gears 4-5 meshed with the sliding racks 4-2 are arranged in the mounting frame 4-1, the number of the mounting shaft 4-3 and the sleeves 4-4 is two, the gears 4-5 are meshed with the two sliding racks 4-2, the sliding racks 4-2 are connected with the telescopic device, and the sliding racks 4-2 drive the pressurizing device 5.

The sliding rack 4-2 moves to drive the mounting shaft 4-3 to move, the mounting shaft 4-3 drives the sleeve 4-4 to move, and the gear 4-5 drives the opposite sliding rack 4-2 to move so that the sleeve 4-4 moves oppositely to adapt to the diameter of the cable.

The supercharging device 5 comprises a fixed supercharging box 5-1, a supercharging sliding plate 5-2, a connecting plate 5-3 and a connecting pipe 5-4, wherein the fixed supercharging box 5-1 is communicated with the communicating pore canal 3-4-3 through the connecting pipe 5-4, the supercharging sliding plate 5-2 slides in the fixed supercharging box 5-1, and the supercharging sliding plate 5-2 is connected with the sliding rack 4-2 through the connecting plate 5-3.

The movable sliding rack 4-2 drives the connecting plate 5-3 to move, and the connecting plate 5-3 drives the pressurizing sliding plate 5-2 to slide in the fixed pressurizing box 5-1, so that gas in the fixed pressurizing box 5-1 is exchanged into the rubber sleeve 3-4-2, and the rubber sleeve 3-4-2 is tightly attached to the surface of the cable.

It will be understood that the invention has been described in terms of several embodiments, and that various changes and equivalents may be made to these features and embodiments by those skilled in the art without departing from the spirit and scope of the invention. In addition, many modifications may be made to adapt a particular situation or material to the teachings of the invention without departing from the essential scope thereof. Therefore, it is intended that the invention not be limited to the particular embodiment disclosed, but that the invention will include all embodiments falling within the scope of the appended claims.

Claims

1. The utility model provides a compound submarine cable detection device, includes installation base (1) and draw gear (2), draw gear (2) setting that are used for pulling the cable to remove are on installation base (1), a serial communication port, be equipped with on installation base (1) and be used for detecting whether complete detection mark device (3) in cable surface, be equipped with two on installation base (1) and hold up device (4), two hold up device (4) set up in detection mark device (3) both sides, hold up device (4) are passed through supercharging device (5) and are driven detection mark device (3) and the inseparable laminating of cable.

2. The composite submarine cable detection device according to claim 1, wherein the traction device (2) comprises a mounting ring (2-1), a servo motor (2-2), a transmission gear ring (2-3), a transmission gear set (2-4), an adjusting device (2-5), a traction device (2-6) and a transmission belt (2-7), the mounting ring (2-1) is arranged on the mounting base (1), the servo motor (2-2) drives the transmission gear ring (2-3) arranged inside the mounting ring (2-1) to rotate, the transmission gear ring (2-3) drives the traction device (2-6) to push a cable to move through the transmission gear set (2-4) and the transmission belt (2-7), and the adjusting device (2-5) ensures tensioning of the transmission belt (2-7).

3. A composite submarine cable detection device according to claim 2, wherein the number of drive gear sets (2-4), adjusting devices (2-5), pulling devices (2-6) and drive belts (2-7) is three.

4. A composite submarine cable detection device according to claim 3, wherein the adjusting device (2-5) comprises a mounting fixed cylinder (2-5-1), a sliding mounting groove (2-5-2), a moving block (2-5-3), a first spring (2-5-4) and a driving wheel (2-5-5), the mounting fixed cylinder (2-5-1) is arranged inside the mounting ring (2-1), the moving block (2-5-3) slides inside the mounting fixed cylinder (2-5-1) through the sliding mounting groove (2-5-2), the first spring (2-5-4) is arranged between the sliding mounting groove (2-5-2) and the moving block (2-5-3), and the driving wheel (2-5-5) is arranged on the moving block (2-5-3).

5. The composite submarine cable detection device according to claim 3, wherein the pulling device (2-6) comprises a communication cavity (2-6-1), a hydraulic cylinder (2-6-2), a movable mounting cylinder (2-6-3), a second spring (2-6-4), a sliding bolt (2-6-5), a mounting seat (2-6-6), a pushing wheel (2-6-7) and a communication wheel (2-6-8), the communication cavity (2-6-1) is arranged inside the mounting ring (2-1), the communication cavity (2-6-1) is connected with the pressure feeding device, the hydraulic cylinder (2-6-2) is arranged on the mounting ring (2-1) and is communicated with the hydraulic cylinder (2-6-2), the movable mounting cylinder (2-6-3) is arranged on the hydraulic cylinder (2-6-2), the sliding bolt (2-6-5) is arranged inside the movable mounting cylinder (2-6-3), the sliding bolt (2-6-5) is arranged in the sliding mounting cylinder and the second spring (2-6-5) is arranged between the sliding bolt (2-6-5) and the movable mounting cylinder (2-6-3), the installation seat (2-6-6) is provided with a pushing wheel (2-6-7), the pushing wheel (2-6-7) is provided with a communicating wheel (2-6-8), and the driving belt (2-7) is arranged on the communicating wheel (2-6-8), the driving wheel (2-5-5) and the driving gear set (2-4).

6. The composite submarine cable detection device according to claim 1, wherein the detection marking device (3) comprises a fixed cylinder (3-1), a feeding pipe (3-2), a passing cavity (3-3) and a sealing device (3-4), the passing cavity (3-3) for a cable to pass through is arranged inside the fixed cylinder (3-1), the feeding pipe (3-2) communicated with the passing cavity (3-3) is arranged on the fixed cylinder (3-1), the feeding pipe (3-2) is connected with the feeding device, the sealing device (3-4) for sealing the passing cavity (3-3) in cooperation with the cable is arranged inside the fixed cylinder (3-1), and the sealing device (3-4) is controlled by a pressurizing device (5) according to the diameter of the cable by the supporting device (4).

7. The composite submarine cable detection device according to claim 6, wherein the sealing device (3-4) comprises a mounting groove (3-4-1), a rubber sleeve (3-4-2) and a communicating pore canal (3-4-3), the two mounting grooves (3-4-1) are arranged at two ends of the fixing barrel (3-1), the communicating pore canal (3-4-3) communicated with the mounting groove (3-4-1) is arranged inside the fixing barrel (3-1), the rubber sleeve (3-4-2) is arranged inside the mounting groove (3-4-1), and the communicating pore canal (3-4-3) is communicated with the pressurizing device (5).

8. The composite submarine cable detection device according to claim 6, wherein the supporting device (4) comprises a mounting frame (4-1), sliding racks (4-2), a mounting shaft (4-3), sleeves (4-4) and gears (4-5), the mounting shaft (4-3) slides in the mounting frame (4-1) through the two sliding racks (4-2), the sleeves (4-4) are arranged on the mounting shaft (4-3), the gears (4-5) meshed with the sliding racks (4-2) are arranged in the mounting frame (4-1), the number of the mounting shaft (4-3) and the sleeves (4-4) is two, the gears (4-5) are meshed with the two sliding racks (4-2), the sliding racks (4-2) are connected with the telescopic device, and the sliding racks (4-2) drive the supercharging device (5).

9. The composite submarine cable detection device according to claim 8, wherein the supercharging device (5) comprises a fixed supercharging box (5-1), a supercharging sliding plate (5-2), a connecting plate (5-3) and a connecting pipe (5-4), the fixed supercharging box (5-1) is communicated with the communicating hole (3-4-3) through the connecting pipe (5-4), the supercharging sliding plate (5-2) slides in the fixed supercharging box (5-1), and the supercharging sliding plate (5-2) is connected with the sliding rack (4-2) through the connecting plate (5-3).