CN214960136U - Submarine cable monitoring base station - Google Patents

Abstract

The utility model provides a submarine cable monitoring base station. Submarine cable monitoring base station includes: a base station body; the protective pipeline is fixedly arranged on the base station body; a detection device disposed on one end of the protection pipe; the signal transmission column is fixedly arranged on the detection device, and the top end of the signal transmission column extends into the protection pipeline; the data transmission line is fixedly arranged on the base station body, one end of the data transmission line is connected with the signal transmission column, and the data transmission line is positioned in the protection pipeline; the operation platform is fixedly arranged on the base station body; the first wire take-up assembly is fixedly mounted on the operating platform. The utility model provides a submarine cable monitoring base station has simple operation, labour saving and time saving, can carry out thorough maintenance, the advantage that improves the efficiency of overhauing to detection device.

Description

Submarine cable monitoring base station

Technical Field

The utility model relates to a submarine cable technical field especially relates to a submarine cable monitoring base station.

Background

Most of the submarine cables used at present are made of insulating materials, are laid on the seabed and are used for transmission of telecommunication signals, and the submarine cables are divided into submarine communication cables and submarine power cables.

After the submarine cable is laid, the submarine cable needs to be built, the fault place can be rapidly mastered after the submarine cable has a fault, so that subsequent maintenance is convenient, the submarine cable laid on the seabed generally has gentle flow, and can be directly detected by a fixed-point signal transmission means, two ends of the submarine cable extend to one end of the land, the crossing sea level is large, the amplitude of the flow is obvious when the submarine cable is near the sea, and some fishes exist, so that the probability of the fault of the submarine cable detection device is relatively high, and therefore workers need to frequently check and maintain the detection device, but the workers need to dive into the seabed when the detection device is checked at present, most of the detection devices are reinforced by bolts at present, and the workers need to disassemble and maintain the detection device at the seabed, the whole process is relatively complicated, the whole process is located on the seabed, the working efficiency of workers can be influenced to a certain extent, parts needing to work in a sealed environment can not be opened and maintained in water, the maintenance effect is influenced, and the inside and the outside of the detection device need to be maintained thoroughly at regular intervals.

Therefore, there is a need to provide a submarine cable monitoring base station to solve the above technical problems.

SUMMERY OF THE UTILITY MODEL

The utility model provides a technical problem provide a simple operation, labour saving and time saving, can carry out thorough maintenance, improve the submarine cable monitoring base station of the efficiency of overhauing to detection device.

In order to solve the technical problem, the utility model provides a submarine cable monitoring base station, include: a base station body; the protective pipeline is fixedly arranged on the base station body; a detection device disposed on one end of the protection pipe; the signal transmission column is fixedly arranged on the detection device, and the top end of the signal transmission column extends into the protection pipeline; the data transmission line is fixedly arranged on the base station body, one end of the data transmission line is connected with the signal transmission column, and the data transmission line is positioned in the protection pipeline; the operation platform is fixedly arranged on the base station body; the first wire take-up assembly is fixedly arranged on the operating platform; the extension plate is fixedly arranged on one side of the operating platform; the sling is arranged on the first wire take-up assembly, and one end of the sling is fixedly connected with the detection device.

Preferably, two fixed cylinders are fixedly installed on the outer wall of the signal transmission column, two sliding columns are slidably installed on the outer wall of the protection pipeline, one ends of the two sliding columns extend into the protection pipeline, clamping blocks are fixedly installed at the ends, close to each other, of the two sliding columns, one sides of the two clamping blocks extend into the two fixed cylinders respectively, two concave blocks are slidably mounted on the outer wall of the protection pipeline, inclined grooves are formed in the outer wall of one side, close to each other, of each concave block, one ends, far away from each other, of the two sliding columns extend into the two inclined grooves respectively and are connected with the inner wall of one side of each inclined groove in a sliding mode, two balance blocks are slidably mounted on the outer wall of the protection pipeline, two hinged rods are rotatably mounted at the tops of the balance blocks and at the bottoms of the two concave blocks, and adjusting rods are rotatably mounted at the ends, close to each other, of the hinged rods.

Preferably, two inclined plane spouts have all been seted up on the one side inner wall that the chute was kept away from each other, two equal rotation of installing in the one end that the sliding column was kept away from each other is served and is rotated the slider, two one side that the slider was kept away from each other rotates respectively with two inclined plane spout sliding connection.

Preferably, the two adjusting rods are all rotatably provided with bearing sleeves, and the outer walls of the two bearing sleeves are respectively connected with the four ends of the hinged rods respectively and rotatably connected with the outer walls of the two bearing sleeves.

Preferably, two circular slots have been seted up on the outer wall of protection pipeline, two the one end of adjusting the pole extends to two respectively in the circular slot, two equal fixed mounting has two baffles on the inner wall of circular slot, two it has the shelves pole, two to adjust the pole and serve equal fixed mounting on the one end that is close to each other the shelves pole respectively with four one side outer wall of baffle contacts.

Preferably, be provided with on the operation panel and receive line subassembly two, fixed mounting has the slide bar on the inner wall of protection pipeline, slidable mounting has a plurality of sliding blocks on the slide bar, and is a plurality of the sliding block all with data transmission line fixed connection, it has the stay cord to receive the winding on the line subassembly two, the one end of stay cord extends to in the protection pipeline, the one end and the corresponding of stay cord one side outer wall fixed connection of sliding block, the one end of stay cord runs through all the other the sliding block and with the rest sliding block sliding connection.

Preferably, a fixed pulley is fixedly mounted on the inner wall of the protection pipeline, and one end of the pull rope extends into the protection pipeline and is wound on the fixed pulley.

Advantageous effects

The utility model provides a sea cable monitoring base station, when maintaining the maintenance to detection device, make two fixture blocks shift out in by two solid fixed cylinders respectively through adjusting two regulation poles, thereby can be quick take out in signal transmission post and detection device have the protection pipeline, and lift detection device to the sea through receiving line subassembly one, thereby make things convenient for the staff to carry out thorough maintenance to detection device, time saving and labor saving has improved maintenance efficiency, and can place detection device and overhaul its inside sealed original paper on the air cushion ship, the effect of maintenance is improved.

Drawings

Fig. 1 is a schematic structural diagram of a submarine cable monitoring base station according to a first embodiment of the present invention;

FIG. 2 is an enlarged schematic view of portion A shown in FIG. 1;

FIG. 3 is an enlarged schematic view of portion B shown in FIG. 2;

FIG. 4 is a side cross-sectional structural view of the console shown in FIG. 1;

FIG. 5 is a side view of the circular groove of FIG. 1;

fig. 6 is a schematic diagram of a second embodiment of the submarine cable monitoring base station according to the present invention;

FIG. 7 is an enlarged schematic view of portion C shown in FIG. 6;

fig. 8 is a side view of the console shown in fig. 6.

Reference numbers in the figures: 1. a base station body; 2. protecting the pipeline; 3. a detection device; 4. a signal transmission column; 5. a data transmission line; 6. an operation table; 7. a first wire take-up assembly; 8. an extension plate; 9. a sling; 10. a fixed cylinder; 11. a sliding post; 12. a concave block; 13. a chute; 14. a clamping block; 15. a counterbalance; 16. adjusting a rod; 17. a hinged lever; 18. a circular groove; 19. a baffle plate; 20. a gear lever; 21. a second wire take-up assembly; 22. a slide bar; 23. a slider; 24. a fixed pulley; 25. and pulling a rope.

Detailed Description

The present invention is described in terms of specific embodiments, and other advantages and benefits of the present invention will become apparent to those skilled in the art from the following disclosure. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

It should be noted that in the description of the present invention, the terms "in", "up", "down", "horizontal", "inner", etc. indicate directions or positional relationships based on those shown in the drawings, which are merely for convenience of description, and do not indicate or imply that the device or element must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Furthermore, it should be noted that, in the description of the present invention, unless otherwise explicitly specified or limited, the terms "disposed," "mounted," "connected," and "connected" are to be construed broadly and may include, for example, a fixed connection, a detachable connection, or an integral connection; may be a mechanical connection; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

First embodiment

Referring to fig. 1-5, in a first embodiment of the present invention, a submarine cable monitoring base station includes: a base station body 1; the protective pipeline 2 is fixedly arranged on the base station body 1, the protective pipeline 2 mainly plays a role in protection, and one end of the protective pipeline extends to the sea surface in the actual laying process, so that the damage of fishes in water to the data transmission line 5 is prevented; a detection device 3, the detection device 3 being arranged on one end of the protection pipe 2; the signal transmission column 4 is fixedly arranged on the detection device 3, the top end of the signal transmission column 4 extends into the protection pipeline 2, and the signal transmission column 4 mainly transmits submarine cable data detected by the detection device 3 to the base station body 1 through a data transmission line 5; the data transmission line 5 is fixedly installed on the base station body 1, one end of the data transmission line 5 is connected with the signal transmission column 4, the data transmission line 5 is located in the protection pipeline 2, the data transmission line 5 is reserved in the protection pipeline 2 with enough length, and meanwhile, an insulating layer is arranged outside the data transmission line 5; an operation table 6, wherein the operation table 6 is fixedly arranged on the base station body 1; the wire take-up assembly I7 is fixedly arranged on the operating platform 6, the wire take-up assembly I7 is formed by adopting the prior art, and the motor drives the wire bundling cylinder to rotate so as to realize the recovery of the wound wire; an extension plate 8, wherein the extension plate 8 is fixedly arranged on one side of the operation table 6; the sling 9 is arranged on the first wire take-up assembly 7, one end of the sling 9 is fixedly connected with the detection device 3, the sling 9 mainly plays a role in traction, the detection device 3 is dragged to the sea surface in the sea, and workers in the aspect of maintenance can carry out maintenance.

In order to fix the detection device 3 conveniently and enable a worker to quickly detach and wash the detection device 3 from the protection pipeline 2 on the sea surface, in this embodiment, preferably, two fixed cylinders 10 are fixedly installed on the outer wall of the signal transmission column 4, two sliding columns 11 are slidably installed on the outer wall of the protection pipeline 2, one ends of the two sliding columns 11 extend into the protection pipeline 2, the two sliding columns 11 are mainly used for force transmission, the two sliding columns 11 are correspondingly adjusted through the interference and pulling of two concave blocks 12, clamping blocks 14 are fixedly installed at the ends, close to each other, of the two sliding columns 11, one sides of the two clamping blocks 14 extend into the two fixed cylinders 10 respectively, the two clamping blocks 14 enter the two fixed cylinders 10 respectively, and the positioning of the two fixed cylinders 10 is realized, meanwhile, the positioning effect on the signal transmission column 4 is realized, two concave blocks 12 are slidably mounted on the outer wall of the protection pipeline 2, two inclined grooves 13 are respectively formed in the outer wall of one side, close to each other, of each concave block 12, one ends, far away from each other, of the two sliding columns 11 respectively extend into the two inclined grooves 13 and are in sliding connection with the inner walls of one sides of the two inclined grooves 13, the two inclined grooves 13 can exert a contact resisting effect on the two sliding columns 11 when moving, so that the two sliding columns 11 can move oppositely to exert a limiting effect, two balance blocks 15 are slidably mounted on the outer wall of the protection pipeline 2, the two balance blocks 15 mainly play a supporting effect on two adjusting rods 16, hinged rods 17 are rotatably mounted at the tops of the two balance blocks 15 and at the bottoms of the two concave blocks 12, and the four hinged rods 17 mainly play a transmission effect, the two concave blocks 12 and the two balance blocks 15 can make corresponding changes according to the adjustment of the two adjusting rods 16, the adjusting rods 16 are rotatably arranged at the ends, close to each other, of the two corresponding hinged rods 17, the two adjusting rods 16 play a direct adjusting effect, and limiting and releasing limiting are achieved.

In order to enable the two concave blocks 12 to pull the two sliding columns 11 to move back to back, so as to remove the limiting effect, in this embodiment, preferably, two inclined plane chutes are formed in the inner wall of one side, away from each other, of the two inclined planes 13, the end, away from each other, of the two sliding columns 11 is rotatably provided with a rotating slider, one side, away from each other, of the two rotating sliders is slidably connected with the two inclined plane chutes respectively, and the two rotating sliders can enable the two sliding columns 11 to make corresponding adjustment according to the movement of the two inclined plane chutes.

In order to facilitate adjustment of the two adjusting rods 16 and fixation of the two adjusting rods 16, in this embodiment, preferably, bearing sleeves are rotatably mounted on the two adjusting rods 16, and outer walls of the two bearing sleeves are rotatably connected with one ends of the four hinge rods 17 respectively and with outer walls of the two bearing sleeves.

In order to limit the two adjusting rods 16 and keep the two adjusting rods 16 in an adjusting state without external force, in this embodiment, preferably, two circular grooves 18 are formed in the outer wall of the protection pipeline 2, one ends of the two adjusting rods 16 extend into the two circular grooves 18 respectively, two baffles 19 are fixedly mounted on the inner wall of the circular grooves 18, two blocking rods 20 are fixedly mounted on the end, close to each other, of the two adjusting rods 16, and the two blocking rods 20 are in contact with the outer wall of one side of the four baffles 19 respectively.

In this embodiment:

when a worker submerges into the seabed to maintain and repair the detection device 3, firstly, the worker can respectively rotate the two adjusting rods 16, when the two adjusting rods 16 rotate, the two bearing sleeves are respectively limited by the two corresponding hinged rods 17, so that the bearing sleeves cannot rotate, the two adjusting rods 16 respectively drive the two stop rods 20 to rotate, when the two stop rods 20 respectively rotate to be out of contact with the two corresponding baffles 19, the four baffles 19 can not exert limiting effects on the two stop rods 20, the worker can respectively pull the two adjusting rods 16, the two adjusting rods 16 are forced to move back and forth, so that the two concave blocks 12 and the corresponding balance blocks 15 move oppositely through the transmission effect of the four hinged rods 17, the two concave blocks 12 are gradually close to the corresponding balance blocks 15, and the two concave blocks 12 move along the inclined chute and the two rotating sliding blocks, the two sliding columns 11 move back to drive the two clamping blocks 14 to move back to back, finally the two clamping blocks 14 are gradually moved out of the two fixing cylinders 10, the two clamping blocks 14 lose the limiting effect on the signal transmission column 4, a worker can take the signal transmission column 4 and the detection device 3 out of the protection pipeline 2 together, and the data transmission line 5 with enough length is reserved in the protection pipeline 2, so that the worker can start the first wire take-up assembly 7 after putting the detection device 3 in place, the sling 9 is recovered through the first wire take-up assembly 7, the signal transmission column 4 and the detection device 3 can be pulled out from the sea floor together, and the worker can maintain, repair and repair the sea surface

After the maintenance and overhaul are finished, only the redundant data transmission line 5 needs to be placed again to be placed in the protection pipeline 2, then the signal transmission column 4 can be placed into the protection pipeline 2 from the beginning, through the above-mentioned reverse operation, firstly, the two adjusting rods 16 are pressed, so that the two adjusting rods 16 imagine to move and respectively enter the two circular grooves 18, at this time, the two four hinge rods 17 respectively abut against the two concave blocks 12 and the corresponding balance blocks 15 to move back to back, so that the two inclined plane sliding blocks abut against the two inclined plane sliding blocks through the two inclined plane sliding grooves, further, the two sliding columns 11 move towards each other, finally, the two fixture blocks 14 respectively enter the two fixed cylinders 10, so that the signal transmission column 4 and the detection device 3 are positioned and fixed through the two fixture blocks 14, then, the two adjusting rods 16 are respectively rotated, so that the two stop rods 20 respectively abut against the outer walls of one side of the four baffle plates 19, because the two corresponding hinge rods 17 are not in a vertical angle, the two concave blocks 12 always exert a downward pressure, so that the two adjusting rods 16 always have a tendency to move back to back, so that the two stop rods 20 always abut against the four baffles 19 and cannot easily rotate and deflect.

Compared with the prior art, the utility model provides a submarine cable monitoring base station has following beneficial effect:

when maintaining detection device 3 and overhauing, it makes two fixture blocks 14 shift out in by two fixed cylinders 10 respectively to adjust two regulation poles 16, thereby can be quick take out in signal transmission post 4 and detection device 3 have protection pipeline 2, and it lifts detection device 3 to the sea to hang through receiving line subassembly 7, thereby make things convenient for the staff to carry out thorough maintenance to detection device 3, time saving and labor saving, maintenance efficiency is improved, and can place detection device 3 and overhaul its inside sealed original paper on the hovercraft, the effect of overhauing is improved.

Second embodiment:

based on the submarine cable monitoring base station provided by the first embodiment of the present application, a second embodiment of the present application proposes another submarine cable monitoring base station. The second embodiment is merely a preferred way of the first embodiment, and the implementation of the second embodiment does not affect the implementation of the first embodiment alone.

The second embodiment of the present invention will be further explained with reference to the drawings and the embodiments.

Referring to fig. 6 to 8 in combination, the submarine cable monitoring base station further includes a second wire rewinding assembly 21, the second wire rewinding assembly 21 is disposed on the operating platform 6, the second wire rewinding assembly 21 is formed by adopting the prior art, the wire bundling barrel is driven by a rotating wheel to rotate to wind and unwind the wound wire, a sliding rod 22 is fixedly mounted on the inner wall of the protection pipeline 2, a plurality of sliding blocks 23 are slidably mounted on the sliding rod 22, the plurality of sliding blocks 23 are all fixedly connected with the data transmission line 5, a pulling rope 25 is wound on the second wire rewinding assembly 21, one end of the pulling rope 25 extends into the protection pipeline 2, one end of the pulling rope 25 is fixedly connected with the outer wall of one side of the corresponding sliding block 23, one end of the pulling rope 25 penetrates through the rest of the sliding blocks 23 and is slidably connected with the rest of the sliding blocks 23, and the plurality of sliding blocks 23 are all fixedly connected with the data transmission line 5, and through the spacing of slide bar 22 to sliding block 23, make sliding block 23 move according to established orbit to make data transmission line 5 can not twine each other when retrieving together, the phenomenon of knoing appears in the data transmission line 5 of effectual prevention reservation.

In order to prevent the pulling rope 25 from rubbing the protection pipe 2 when the pulling rope 25 is retracted and extended, and causing abrasion of the pulling rope 25, in this embodiment, it is preferable that a fixed pulley 24 is fixedly installed on an inner wall of the protection pipe 2, and one end of the pulling rope 25 extends into the protection pipe 2 and is wound on the fixed pulley 24.

In this embodiment:

in-process at the installation of detection device 3, in order to prevent that the phenomenon that the disorder was knotted from appearing in data transmission line 5 in protection pipeline 2, the staff is when installation detection device 3, can wave receipts line subassembly two 21, receipts line subassembly two 21 wave can retrieve stay cord 25, thereby make stay cord 25 tighten up, and then drive corresponding sliding block 23 at slide bar 22 spacing horizontal lateral shifting down, finally drive a plurality of sliding blocks 23 and slide, a plurality of sliding blocks 23 can carry out orderly recovery with data transmission line 5 this moment, thereby can effectually avoid the phenomenon that data transmission line 5 was knotted in disorder.

So far, the technical solution of the present invention has been described with reference to the preferred embodiments shown in the drawings, but it is easily understood by those skilled in the art that the scope of the present invention is obviously not limited to these specific embodiments. Without departing from the principle of the present invention, a person skilled in the art can make equivalent changes or substitutions to the related technical features, and the technical solutions after these changes or substitutions will fall within the protection scope of the present invention.

Claims (7)

1. A submarine cable monitoring base station, comprising:

a base station body;

the protective pipeline is fixedly arranged on the base station body;

a detection device disposed on one end of the protection pipe;

the signal transmission column is fixedly arranged on the detection device, and the top end of the signal transmission column extends into the protection pipeline;

the data transmission line is fixedly arranged on the base station body, one end of the data transmission line is connected with the signal transmission column, and the data transmission line is positioned in the protection pipeline;

the operation platform is fixedly arranged on the base station body;

the first wire take-up assembly is fixedly arranged on the operating platform;

the extension plate is fixedly arranged on one side of the operating platform;

the sling is arranged on the first wire take-up assembly, and one end of the sling is fixedly connected with the detection device.

2. The submarine cable monitoring base station according to claim 1, wherein two fixed cylinders are fixedly mounted on the outer wall of the signal transmission column, two sliding columns are slidably mounted on the outer wall of the protection pipeline, one ends of the two sliding columns extend into the protection pipeline, one ends of the two sliding columns close to each other are fixedly mounted with clamping blocks, one sides of the two clamping blocks extend into the two fixed cylinders respectively, two concave blocks are slidably mounted on the outer wall of the protection pipeline, inclined grooves are formed on the outer wall of one side of the two concave blocks close to each other, one ends of the two sliding columns far away from each other extend into the two inclined grooves respectively and are slidably connected with the inner wall of one side of the two inclined grooves, two balance blocks are slidably mounted on the outer wall of the protection pipeline, and hinged rods are rotatably mounted on the tops of the two balance blocks and the bottoms of the two concave blocks, and one ends of the two corresponding hinged rods, which are close to each other, are rotatably provided with adjusting rods.

3. The submarine cable monitoring base station according to claim 2, wherein inclined chutes are formed in inner walls of the two chutes on the sides away from each other, rotating sliders are rotatably mounted on ends of the two sliding columns away from each other, and the sides of the two rotating sliders away from each other are respectively connected with the two inclined chutes in a sliding manner.

4. The submarine cable monitoring base station according to claim 2, wherein bearing sleeves are rotatably mounted on both of the two adjusting rods, and the outer walls of the two bearing sleeves are rotatably connected to the outer walls of the two bearing sleeves respectively at one ends of the four hinged rods.

5. The submarine cable monitoring base station according to claim 2, wherein two circular grooves are formed in the outer wall of the protection pipeline, one ends of the two adjusting rods extend into the two circular grooves respectively, two baffles are fixedly mounted on the inner walls of the two circular grooves, blocking rods are fixedly mounted on the ends, close to each other, of the two adjusting rods, and the two blocking rods are in contact with the outer wall of one side of each of the four baffles respectively.

6. The submarine cable monitoring base station according to claim 1, wherein a second take-up assembly is arranged on the operating platform, a sliding rod is fixedly mounted on the inner wall of the protection pipeline, a plurality of sliding blocks are slidably mounted on the sliding rod, the sliding blocks are fixedly connected with the data transmission line, a pull rope is wound on the second take-up assembly, one end of the pull rope extends into the protection pipeline, one end of the pull rope is fixedly connected with the outer wall of one side of the corresponding sliding block, and one end of the pull rope penetrates through the rest of the sliding blocks and is slidably connected with the rest of the sliding blocks.

7. The submarine cable monitoring base station according to claim 6, wherein a fixed pulley is fixedly mounted on the inner wall of the protection pipeline, and one end of the pulling rope extends into the protection pipeline and is wound on the fixed pulley.

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