CN112635135A - Automatic multi-process recovery device for submarine cable - Google Patents

Abstract

The invention discloses an automatic multi-process recovery device for submarine cables, which comprises a main body, wherein a cutting cavity with an opening at the left end is arranged in the middle of a machine shell, a cutting and stripping mechanism for cutting and stripping the submarine cable in multiple processes is arranged in the cutting cavity, a lead-in transmission cavity is arranged behind the machine shell, the leading-in transmission cavity is internally provided with a leading-in stripping mechanism which provides power for the cutting-off stripping mechanism, the device has simple structure and convenient operation, the device comprises a primary stripping mechanism for automatically cutting off the cable and stripping the outer layer of the soft casing glass, a conveying stripping mechanism for guiding the cable in and stripping the cable finally to ensure that the cable enters in order and is cut off, and the effective further stripping, the whole mechanism achieves multi-process linkage, and the device has the advantages of convenience, rapidness, safety and effectiveness.

Description

Automatic multi-process recovery device for submarine cable

Technical Field

The invention relates to the field of cables, in particular to an automatic multi-process recovery device for submarine cables.

Background

In the case of cables which are already power transmission tools distributed all over the world, the cables are now visible everywhere, and are often protected for better power transmission, and cables on land are usually erected at high altitude for the safety protection of people and cables, while cables on the sea bottom are firstly wrapped by a particularly thick protective layer.

At this time, the recovery of the cable after the abandonment is a very difficult problem, the submarine cable is very long and thick, the recovery of the submarine cable needs to be firstly cut short under the condition, the process of moving needs workers to use electric hand tools to cut the cable in a hinging way, the process needs strong arm force to drive the machine, then the cut short cable is put into a special peeler to be peeled off firstly, the cut soft shell needs to be detached by hands, then the cable is put into the next hard shell again to be peeled off, and then the iron core can be obtained.

Disclosure of Invention

The invention aims to solve the technical problem of providing an automatic multi-process recovery device for submarine cables, and overcomes the problems.

The invention is realized by the following technical scheme.

The invention relates to an automatic multi-process recovery device for submarine cables, which comprises a machine shell, wherein the middle part of the machine shell is provided with a cutting cavity with an opening at the left end, a cutting and stripping mechanism for performing multi-process cutting and stripping on the submarine cables is arranged in the cutting cavity, a guide-in transmission cavity is arranged at the rear part of the machine shell, a guide-in stripping mechanism for providing power for the cutting and stripping mechanism is arranged in the guide-in transmission cavity, the cutting and stripping mechanism comprises an outer cutting cavity arranged in the upper cavity wall and the lower cavity wall of the cutting cavity, an outer cutting moving block cavity communicated with the outer cutting cavity is arranged at the rear part of the outer cutting cavity, an outer cutting transmission cavity communicated with the outer cutting moving block cavity is arranged at the rear part of the outer cutting moving block cavity, a motor chute communicated with the outer cutting motor is arranged in the rear cavity above the outer cutting transmission cavity, an, the rear end face of the outer cutting shaft is in power connection with the front end face of the outer cutting motor, the front end of the outer cutting shaft is fixedly connected with an outer cutting blade, the rear end of the outer cutting shaft is fixedly connected with belt pulleys, the two belt pulleys are in friction connection with a transmission belt for mutual transmission, the rear end of the outer cutting shaft is also fixedly connected with a rope winding wheel, the upper end of the outer cutting shaft is fixedly connected with a moving block pull rope, the lower end of the outer cutting shaft is fixedly connected with a stripping pull rope, the middle part of the outer cutting shaft is rotatably connected with an outer cutting moving block in sliding connection with the front wall of the outer cutting moving block cavity, the left end face of the outer cutting moving block is fixedly connected with a moving block spring, the other end of the moving block spring is fixed on the left cavity wall.

Furthermore, a shifting pull rope is fixedly connected to the right end face of the externally-tangent moving block, stripping cavities communicated with the stripping pull rope are arranged in the front and rear front walls of the inner cutting blade, a stripping block with the rear end extending into the inner cutting blade is arranged in each stripping cavity, a stripping spring is fixedly connected to the front end face of each stripping block, the other end of each stripping spring is fixedly connected to the front cavity wall of each stripping cavity, a stripping pull rope is fixedly connected to the front end face of each stripping block, a stripping sucker is arranged at the rear end of each stripping block, stripping blanking cavities communicated with the stripping cavities and communicated with the inner cutting blade and the outside are arranged at the cavity mouths of the stripping cavities, a secondary stripping cavity communicated with the left cavity wall and the outside is arranged in each cutting cavity, a shifting block cavity communicated with the secondary stripping cavity is arranged in the lower cavity wall of each stripping cavity, a shifting block slidably connected with the cavity wall of the upper shifting block is arranged in the cavity, and a shifting block spring is, the other end of the shifting block spring is fixed on the left cavity wall of the shifting block cavity.

Further, still fixedly connected with on the shifting block right-hand member face dial fast stay cord, cut off the chamber middle part and be equipped with the chamber that cuts off of intercommunication with it, cut off the intracavity and be equipped with the chamber wall rotation with it and be connected cut off the axle, cut off epaxial fixedly connected with and cut off the wheel, cut off and take turns to and be equipped with the hole that cuts off of controlling the lining up, leading-in peeling means is including establishing leading-in transmission chamber the place ahead and with two leading-in wheel chambeies of interior cutter piece intercommunication, leading-in transmission intracavity is equipped with two front ends and stretches into the leading-in axle of leading-in wheel intracavity, the equal fixedly connected with in leading-in axle front end stretches into leading-in wheel in the interior cutter.

Furthermore, two mutually meshed leading-in rotating gears are fixed at the rear ends of the leading-in shafts, a leading-in motor is fixed in a cavity wall below the leading-in transmission cavity, the rear end of the leading-in rotating gear below the leading-in motor is in power connection with the front end face of the leading-in motor, a cutting power shaft with the front end extending into the cutting cavity is arranged at the right end of the leading-in transmission cavity, a cutting power gear meshed with the leading-in rotating gear below the cutting power shaft is fixedly connected at the rear end of the cutting power shaft, a cutting transmission bevel gear meshed with the cutting wheel is fixedly connected at the front end of the cutting power shaft, the leading-in stripping mechanism further comprises inner cutter blade cavities which are arranged in the upper cavity wall and the lower cavity wall of the secondary stripping cavity and communicated with the secondary stripping cavity, an inner cutting transmission cavity communicated with the two inner cutter blade cavities is arranged below the two.

Furthermore, two inner cutting shafts with front ends extending into the inner cutting blade cavity are arranged in the inner cutting transmission cavity, inner cutting blades are fixedly connected to the front ends of the inner cutting shafts, inner cutting gears meshed with each other are fixedly connected to the rear ends of the inner cutting shafts, and the rear ends of the inner cutting shafts are dynamically connected to the front end face of the inner cutting motor.

The invention has the beneficial effects that: the device simple structure, the simple operation, including carrying out cable automatic cutout and with outer soft shell glass's preliminary peeling means, this mechanism is automatic to cut off the cable and peel off outer automatic centre gripping again after cutting open, still is equipped with the transport peeling means who peels off the cable leading-in and at last, makes the orderly entering of cable cut off, and effectual further peels off, whole mechanism reachs the multiple operation linkage, and convenient and fast, safe effectual beneficial effect.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

FIG. 1 is a schematic front view of an embodiment of the present invention;

FIG. 2 is an enlarged schematic view of the structure A-A in FIG. 1 according to an embodiment of the present invention;

FIG. 3 is an enlarged schematic view of the structure B-B in FIG. 2 according to an embodiment of the present invention;

FIG. 4 is an enlarged schematic view of the structure C-C shown in FIG. 1 according to an embodiment of the present invention;

FIG. 5 is an enlarged schematic view of the D-D structure of FIG. 1 according to an embodiment of the present invention;

FIG. 6 is an enlarged schematic view of the structure E-E in FIG. 4 according to an embodiment of the present invention;

FIG. 7 is an enlarged view of the structure F-F shown in FIG. 1 according to an embodiment of the present invention.

Detailed Description

The invention will now be described in detail with reference to fig. 1-7, wherein for ease of description the orientations described below are now defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The automatic multi-process recovery device for submarine cables described in connection with fig. 1-7 comprises a casing 10, a cutting cavity 11 with an opening at the left end is arranged in the middle of the casing 10, a cutting and stripping mechanism 59 for performing multi-process cutting and stripping on submarine cables is arranged in the cutting cavity 11, a guiding transmission cavity 56 is arranged behind the casing 10, a guiding stripping mechanism 60 for providing power for the cutting and stripping mechanism 59 is arranged in the guiding transmission cavity 56, the cutting and stripping mechanism 59 comprises an outer cutting cavity 15 arranged in the upper and lower cavity walls of the cutting cavity 11, an outer cutting moving block cavity 41 communicated with the outer cutting cavity 15 is arranged behind the outer cutting moving block cavity 15, an outer cutting transmission cavity 58 communicated with the outer cutting moving block cavity 41 is arranged behind the outer cutting moving block cavity 41, a motor chute 29 communicated with the outer cutting transmission cavity 58 is arranged in the rear cavity wall above the outer cutting transmission cavity 58, and an outer cutting motor 30 is, the external cutting transmission cavity 58 is internally provided with an external cutting shaft 16, the front end of the external cutting transmission cavity penetrates through the external cutting moving block cavity 41 and is arranged in the external cutting cavity 15, the rear end face of the external cutting shaft 16 above the external cutting shaft is in power connection with the front end face of the external cutting motor 30, the front end of the external cutting shaft 16 is fixedly connected with an external cutting blade 17, the rear end of the external cutting shaft 16 is fixedly connected with belt pulleys 44, the two belt pulleys 44 are in friction connection with a transmission belt 31 for mutual transmission, the rear end of the external cutting shaft 16 is also fixedly connected with a rope winding wheel 43, the upper rope winding wheel 43 is fixedly connected with a moving block pull rope 42, the lower rope winding wheel 43 is fixedly connected with a stripping pull rope 35, the middle part of the external cutting shaft 16 is rotatably connected with an external cutting moving block 40 which is in sliding connection with the front wall of the moving block external cutting cavity 41, the left end face of the external cutting moving block, the left end face of the externally tangent moving block 40 is also fixedly connected with a moving block pull rope 42.

Advantageously, a quick pulling rope 22 is fixedly connected to the right end face of the externally cutting moving block 40, stripping cavities 36 communicated with the stripping cavities are respectively arranged in the front and rear front walls of the internal cutting blade 20, a stripping block 61 with the rear end extending into the internal cutting blade 20 is arranged in the stripping cavity 36, a stripping spring 34 is fixedly connected to the front end face of the stripping block 61, the other end of the stripping spring 34 is fixedly connected to the front cavity wall of the stripping cavity 36, a stripping pulling rope 35 is also fixedly connected to the front end face of the stripping block 61, a stripping suction cup 33 is also arranged at the rear end of the stripping block 61, stripping blanking cavities 32 communicated with the stripping cavities 36 and communicated with the internal cutting blade 20 and the outside are respectively arranged at the cavity mouth, a secondary stripping cavity 19 with the left cavity wall communicated with the outside is communicated with the cavity wall in the cutting cavity 11, a shifting block cavity 62 communicated with the secondary stripping cavity 19 is arranged in the lower cavity wall, a shifting block 23 slidably connected with the upper shifting cavity 62 is arranged in the upper, the left end face of the shifting block 23 is fixedly connected with a shifting block spring 24, and the other end of the shifting block spring 24 is fixed on the left cavity wall of the shifting block cavity 62.

Beneficially, the quick pulling rope 22 is further fixedly connected to the right end face of the shifting block 23, the cutting cavity 27 communicated with the cutting cavity 11 is arranged in the middle of the cutting cavity 11, the cutting shaft 25 rotatably connected with the cavity wall is arranged in the cutting cavity 27, the cutting wheel 26 is fixedly connected to the cutting shaft 25, the cutting wheel 26 is provided with a cutting hole 28 penetrating left and right, the leading-in peeling mechanism 60 comprises two leading-in wheel cavities 48 arranged in front of the leading-in transmission cavity 56 and communicated with the inner cutting blade 20, the leading-in transmission cavity 56 is internally provided with a leading-in shaft 13 with two front ends extending into the leading-in wheel cavities 48, and the leading-in wheel 12 extending into the inner cutting blade 20 is fixedly connected to the front end of the leading-in shaft 13.

Advantageously, two lead-in rotation gears 46 which are meshed with each other are fixed at the rear end of the lead-in shaft 13, a leading-in motor 47 is fixed in the cavity wall below the leading-in transmission cavity 56, the rear end of the leading-in rotating gear 46 below is in power connection with the front end surface of the leading-in motor 47, the right end of the leading-in transmission cavity 56 is provided with a cutting power shaft 50 with the front end extending into the cutting cavity 27, a cutting power gear 51 meshed with the lower guiding rotary gear 46 is fixedly connected with the rear end of the cutting power shaft 50, a cutting transmission bevel gear 52 meshed with the cutting wheel 26 is fixedly connected with the front end of the cutting power shaft 50, the leading-in stripping mechanism 60 further comprises inner cutting blade cavities 55 which are arranged in the upper cavity wall and the lower cavity wall of the cavity opening of the secondary stripping cavity 19 and communicated with the upper cavity wall and the lower cavity wall, inner cutting transmission cavities 57 which are communicated with the inner cutting blade cavities 55 are arranged above the two inner cutting blade cavities 55, and inner cutting motors 54 are fixed on the inner rear cavity walls of the inner cutting transmission cavities 57.

Beneficially, two inner cutting shafts 21 with front ends extending into the inner cutting blade cavity 55 are arranged in the inner cutting transmission cavity 57, the front ends of the inner cutting shafts 21 are fixedly connected with inner cutting blades 20, the rear ends of the inner cutting shafts 21 are fixedly connected with inner cutting gears 53 engaged with each other, and the rear ends of the upper inner cutting shafts 21 are dynamically connected to the front end face of the inner cutting motor 54.

Sequence of mechanical actions of the whole device:

1: in the initial state, the outer cutting blade 17 is positioned at the right side of the externally cutting cavity 15, so that the upper rope winding wheel 43 loosens the moving block pulling rope 42, the lower rope winding wheel 43 tightens the stripping pulling rope 35, the stripping block 61 is pulled into the stripping cavity 36, the externally cutting moving block 40 is also positioned at the right end of the externally cutting moving block cavity 41, the pulling block 22 is loosened, the shifting block 23 is positioned at the left side of the shifting block cavity 62, and the cutting hole 28 on the cutting wheel 26 is not positioned in the cutting cavity 11 at this time.

2: the operation is required to put the recovered long cable into the cutting cavity 11 from the left opening, at this time, the leading-in motor 47 is operated to drive the two leading-in shafts 13, the two leading-in rotating gears 46 and the two leading-in wheels 12 to rotate, at the same time, the leading-in rotating gear 46 drives the cutting power gear 51, the cutting power shaft 50, the cutting transmission bevel gear 52, the cutting wheel 26 and the cutting shaft 25 to rotate, at this time, the two leading-in wheels 12 lead in the cable, then the cable is contacted with the cutting wheel 26, after the cutting hole 28 rotates upwards, the cable moves rightwards through the cutting hole 28, when the right end of the cutting cavity 11 moves, the cutting hole 28 cuts the cable, at this time, the cable at the left end is blocked by the cutting wheel 26, at the same time, the outer cutting motor 30 rotates forwards, the outer cutting motor 30 drives the two outer cutting shafts 16 to rotate, thereby the two belt pulleys 44 are rotated through the transmission belt, the upper rope winding wheel 43 winds the moving block pulling rope 42 tightly, the lower rope winding wheel 43 loosens the stripping pulling rope 35, at the moment, the moving block pulling rope 42 pulls the two outer cutting shafts 16, the two rope winding wheels 43, the two belt pulleys 44 and the outer cutting motor 30 to move leftwards, so that the outer cutting blade 17 carries out initial soft shell cutting from left to right, meanwhile, the stripping block 61 extends out of the cavity, so that the stripping sucker 33 sucks the cut soft shell, when the outer cutting blade 17 moves to the left side of the outer cutting cavity 15, the cutting hole 28 rotates again at the cutting cavity 11, so that the left end cable continues to move rightwards, meanwhile, the outer cutting motor 30 rotates reversely, so that the moving block pulling rope 42 is loosened, the outer cutting moving block 40, the outer cutting shaft 16, the rope winding wheel 43, the belt pulley 44 and the outer cutting motor 30 are reset under the action of the moving block spring 45, in the process, the stripping block 61 is pulled into the stripping cavity 36, so that the, the left cable pushes the right stripped cable to the right in the secondary stripping cavity 19, the left cable moves to the right end of the cutting cavity 11, after the outer cutting blade 17 is reset, the cutting hole 28 cuts another section of the cable again, the outer cutting motor 30 rotates forwards again to cut another section of the cable, and when the outer cutting blade 17 moves leftwards in the process, the outer cutting moving block 40 is tensioned, so that the shifting block 23 pushes the stripped cable rightwards, and meanwhile, the inner cutting motor 54 works to drive the two inner cutting shafts 21, the two inner cutting gears 53 and the two inner cutting blades 20 to rotate, so that the cable is subjected to secondary cutting at the right opening of the secondary stripping cavity 19, the final iron core is stripped, and the work is finished.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims (5)

1. The utility model provides an automatic multiple operation recovery unit of submarine cable, includes the main part, its characterized in that: a cutting cavity with an opening at the left end is arranged in the middle of the shell, a cutting and stripping mechanism for cutting and stripping the submarine cable in multiple processes is arranged in the cutting cavity, a leading-in transmission cavity is arranged at the rear of the shell, a leading-in stripping mechanism for providing power for the cutting and stripping mechanism is arranged in the leading-in transmission cavity, the cutting and stripping mechanism comprises outer cutting cavities arranged in the upper cavity wall and the lower cavity wall of the cutting cavity, outer cutting moving block cavities communicated with the outer cutting cavities are arranged at the rear of the outer cutting cavities, outer cutting transmission cavities communicated with the outer cutting moving block cavities are arranged at the rear of the outer cutting moving block cavities, motor chutes communicated with the outer cutting moving block cavities are arranged in the rear cavity wall above the outer cutting transmission cavities, outer cutting motors are connected in the motor chutes in a sliding mode, outer cutting shafts with the front ends of the outer cutting moving block cavities penetrating through the outer, the cutting mechanism comprises an outer cutting shaft, a cutting blade, a belt pulley, a driving belt, a rope winding wheel, a moving block pull rope, a stripping pull rope, an outer cutting block, a moving block spring, a moving block pull rope and a moving block pull rope, wherein the outer cutting blade is fixedly connected to the front end of the outer cutting shaft, the belt pulley is fixedly connected to the rear end of the outer cutting shaft, the belt pulley is in friction connection with the driving belt for mutual driving, the rope winding wheel is fixedly connected to the rear end of the outer cutting shaft, the moving block pull rope is fixedly connected to the rope winding wheel above the rope winding wheel, the stripping pull rope is fixedly connected to the rope winding wheel below the rope winding wheel, the outer cutting shaft is rotatably connected to an outer cutting moving block.

2. An automatic multi-process recovery device for submarine cables according to claim 1, wherein: a shifting block pull rope is fixedly connected on the right end face of the externally-tangent moving block, stripping cavities communicated with the stripping block are respectively arranged in the front wall and the rear wall of the internal cutting blade, the stripping block with the rear end extending into the internal cutting blade is arranged in each stripping cavity, a stripping spring is fixedly connected on the front end face of each stripping block, the other end of each stripping spring is fixedly connected on the front cavity wall of each stripping cavity, a stripping pull rope is fixedly connected on the front end face of each stripping block, a stripping sucker is arranged at the rear end of each stripping block, stripping blanking cavities communicated with the stripping cavities are respectively arranged at the cavity openings of the stripping cavities and communicated with the internal cutting blade and the outside, a secondary stripping cavity with a left cavity wall communicated with the outside is arranged in each cutting cavity, a shifting block cavity communicated with the secondary stripping cavity is arranged in the lower cavity wall of each stripping cavity, a shifting block slidably connected with the upper shifting block is arranged in the upper cavity of each, the other end of the shifting block spring is fixed on the left cavity wall of the shifting block cavity.

3. An automatic multi-process recovery device for submarine cables according to claim 1, wherein: still fixedly connected with on the shifting block right-hand member face dial fast stay cord, cut off the chamber middle part and be equipped with the chamber that cuts off of intercommunication with it, cut off the intracavity and be equipped with the chamber wall rotation with it and be connected cut off the axle, cut off epaxial fixedly connected with and cut off the wheel, cut off the hole that cuts off that link up about taking turns to, leading-in peeling means is including establishing leading-in transmission chamber the place ahead and with two leading-in wheel chambeies of interior cutter piece intercommunication, leading-in transmission intracavity is equipped with two front ends and stretches into the leading-in axle of leading-in wheel intracavity, the equal fixedly connected with in leading-in axle front end stretches into leading-in wheel in the interior cutter piece.

4. An automatic multi-process recovery device for submarine cables according to claim 1, wherein: the rear end of the leading-in shaft is fixed with two mutually meshed leading-in rotating gears, a leading-in motor is fixed in a cavity wall below the leading-in transmission cavity, the rear end of the leading-in rotating gear below the leading-in motor is in power connection with the front end surface of the leading-in motor, the right end of the leading-in transmission cavity is provided with a cutting power shaft of which the front end extends into the cutting cavity, the rear end of the cutting power shaft is fixedly connected with a cutting power gear meshed with the leading-in rotating gear below the cutting power shaft, the front end of the cutting power shaft is fixedly connected with a cutting transmission bevel gear meshed with the cutting wheel, the leading-in stripping mechanism further comprises an inner cutter blade cavity which is arranged in the upper cavity wall and the lower cavity wall of the secondary stripping cavity and is communicated with the upper cavity opening and the lower cavity wall of the secondary stripping cavity, an inner cutting.

5. An automatic multi-process recovery device for submarine cables according to claim 1, wherein: two inner cutting shafts with front ends extending into the inner cutting blade cavities are arranged in the inner cutting transmission cavity, inner cutting blades are fixedly connected to the front ends of the inner cutting shafts, inner cutting gears meshed with each other are fixedly connected to the rear ends of the inner cutting shafts, and the rear ends of the inner cutting shafts are dynamically connected to the front end face of the inner cutting motor.

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