CN110286456A - A kind of subaqueous lightguide cable link paving system - Google Patents
A kind of subaqueous lightguide cable link paving system Download PDFInfo
- Publication number
- CN110286456A CN110286456A CN201910590799.7A CN201910590799A CN110286456A CN 110286456 A CN110286456 A CN 110286456A CN 201910590799 A CN201910590799 A CN 201910590799A CN 110286456 A CN110286456 A CN 110286456A
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- laying
- wall
- bevel gear
- shaft
- cavity
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- G—PHYSICS
- G02—OPTICS
- G02B—OPTICAL ELEMENTS, SYSTEMS OR APPARATUS
- G02B6/00—Light guides; Structural details of arrangements comprising light guides and other optical elements, e.g. couplings
- G02B6/46—Processes or apparatus adapted for installing or repairing optical fibres or optical cables
- G02B6/50—Underground or underwater installation; Installation through tubing, conduits or ducts
- G02B6/506—Underwater installation
-
- G—PHYSICS
- G02—OPTICS
- G02B—OPTICAL ELEMENTS, SYSTEMS OR APPARATUS
- G02B6/00—Light guides; Structural details of arrangements comprising light guides and other optical elements, e.g. couplings
- G02B6/46—Processes or apparatus adapted for installing or repairing optical fibres or optical cables
- G02B6/50—Underground or underwater installation; Installation through tubing, conduits or ducts
- G02B6/54—Underground or underwater installation; Installation through tubing, conduits or ducts using mechanical means, e.g. pulling or pushing devices
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- Physics & Mathematics (AREA)
- General Physics & Mathematics (AREA)
- Optics & Photonics (AREA)
- Gear Transmission (AREA)
- Road Paving Machines (AREA)
Abstract
The invention discloses a kind of subaqueous lightguide cable link paving systems, including laying device, containing cavities are equipped in the laying device, declutcher control lever is rotatably equipped in the containing cavities, the declutcher control lever right end, which is equipped with, to dig the soil distributing apparatus opened for seabed soil, the storage device that soil distributing apparatus can be accommodated in the containing cavities is equipped in the containing cavities, the configuration of the present invention is simple, it is easy to operate, maintenance convenience, optical cable can be laid with by the equipment automatically, and it can will be under optical cable covers with subaqueous soil, seawater is reduced to the extent of corrosion of optical cable, extend the service life of optical cable, and the probability that optical cable is destroyed can be reduced, improve optical cable safety in utilization, and the equipment can improve staff's working environment, guarantee the health of human body of staff, therefore equipment value for applications with higher.
Description
Technical field
The present invention relates to communication construction field, specially a kind of subaqueous lightguide cable link paving system.
Background technique
With the development of society, information interchange is constantly reinforced, wherein important hand of the underwater optical cable as contemporary international communication
Section, assumes responsibility for 90% international telecommunication service, is the main carriers of global information communication, but the laying ship of underwater optical cable
It is pelagic large size hull, the optical cable of greater coasting area can not be laid with, therefore the lightguide cable link under offshore sea waters needs frogman to carry out
It is laid with operation, which operating efficiency is low, and the work situation of staff is very poor, and personal safety not can guarantee, and is laid with
Optical cable is exposed in seawater afterwards, vulnerable to seawater corrosion, reduces optical cable service life, and vulnerable to extremist or biological broken through the country
It is bad, tremendous influence is caused to international communication, therefore, this development is intended to design one kind and can cover optical cable in the subaqueous of the bottom
Lightguide cable link paving system.
Summary of the invention
Technical problem:
The laying apparatus of traditional underwater optical cable can not cover offshore sea waters, and optical cable is exposed in seawater after laying, vulnerable to seawater corruption
Erosion reduces optical cable service life, and biological damage vulnerable to extremist or through the country.
To solve the above problems, this example devises a kind of subaqueous lightguide cable link paving system, one kind of this example is underwater
Lightguide cable link paving system, including laying device, the laying device is interior to be equipped with containing cavities, rotatably sets in the containing cavities
There is declutcher control lever, the declutcher control lever right end, which is equipped with, can dig seabed soil the soil distributing apparatus opened, and being equipped in the containing cavities can be by a point soil
Device is accommodated in the storage device in the containing cavities, is equipped with the laying groove being in communication with the outside, the paving in the containing cavities right wall
If being equipped with three groups of help rolls for avoiding optical cable impaired in slot, bar, the laying bar are laid with equipped with rotatable in the laying groove
Left end is equipped with the lay down roller for disposing optical cable, and sliding cavity is equipped in the laying groove right wall, is equipped with and is used in the sliding cavity
The laying apparatus for driving the laying bar to rotate, the sliding cavity right wall is interior to be equipped with transmitting chamber, is equipped in the transmitting chamber right wall
Chamber is covered, intracavitary be equipped with of the cover can will be laid with the covering device that cover to the optical cable in seabed, on the transmitting chamber
It is symmetrically equipped with walking trough in the inner wall of lower two sides, the walking mechanism for driving the equipment to advance is equipped in the walking trough, into
And the working range of the equipment can be expanded, the power dress that the equipment can be driven to continue sex work is equipped in the sliding cavity bottom wall
It sets, the transmission device that the power that the power device generates can be transferred in each device is equipped in the power cavity.
Wherein, the power device includes the engine in the power cavity left wall, is equipped in the power cavity dynamic
Power axis, the line shaft left end are connected by power with the engine, and then the line shaft can be driven to rotate, and the line shaft is right
End is equipped with the power bevel gear that can drive the transmission device rotation.
Wherein, the transmission device includes the transmission shaft in the power cavity, and the transmission shaft outer wall is equipped with position
In the first drive bevel gear engaged in the power cavity and with the power bevel gear, and then the power bevel gear can pass through
First drive bevel gear drives the transmission shaft rotation, and the transmission shaft outer wall is equipped with that be located at the transmitting intracavitary and can
The second drive bevel gear of covering device rotation is driven, equipped with drive cavity in the transmitting chamber roof, outside the transmission shaft
Wall is equipped with the third drive bevel gear being located in the drive cavity, and being equipped in the drive cavity can drive the storage device to turn
Dynamic driving shaft, the driving shaft right end are equipped with the 4th drive bevel gear engaged with the third drive bevel gear, Jin Ersuo
Stating third drive bevel gear can drive the driving shaft to rotate by the 4th drive bevel gear.
Wherein, the walking mechanism includes the symmetrical traveling wheel in the walking trough, in the walking trough
Array is equipped with eight groups of bogie wheels, and what is be driven between the bogie wheel and the traveling wheel is equipped with crawler belt, and then the crawler belt turns
It is dynamic that the laying device can be driven to slide, wherein the traveling wheel and the transmission shaft on right side are connected, and then the transmission shaft can
The crawler belt rotation is driven by the traveling wheel.
Wherein, the storage device includes the screw rod in the containing cavities, is slidably set on the screw rod outer wall
There is sliding block, by being threadedly engaged connection between the sliding block and the screw rod, passes through company between the sliding block and the declutcher control lever
Bar is hinged, and then the screw rod can drive the declutcher control lever to rotate by the sliding block, the connecting rod, in the drive cavity left wall
It is equipped with, it is described interior equipped with driven shaft, pass through synchronous belt between the driven shaft and the screw rod and carries out power transmitting, Jin Ersuo
Stating driven shaft can drive the screw rod to rotate by the synchronous belt, be slidably equipped on the driving shaft outer wall and be located at institute
Interior connecting shaft is stated, the connecting shaft is connect with the driving shaft by spline fitted, and the connecting shaft can be with the driven shaft
It is connected by spline fitted, and then the driving shaft can drive driven shaft rotation by the connecting shaft, it is described interior slidable
Equipped with storage switch block, the storage switch block is rotatably equipped on the connecting shaft outer wall, and then can drive the connection
Axis horizontally slips, and storage electromagnetism slot is equipped in the right wall, is slidably equipped in the storage electromagnetism slot and turns with the storage
The connected storage permanent magnet of block, and then the storage permanent magnet can be driven to slide, being equipped in the storage electromagnetism slot right wall can drive
The storage electromagnet for moving the storage permanent magnet sliding, elasticity, which is equipped with, between the storage electromagnet and the storage permanent magnet receives
Receive spring.
Wherein, the laying apparatus includes the laying axis in the sliding cavity, the laying axis and the laying bar
It is connected, and then the lay down roller can be driven to rotate by being laid with bar, the laying axis bottom end, which is equipped with, to be located in the sliding cavity
It is laid with gear, the laying rack gear engaged with the laying gear is slidably equipped in the sliding cavity, is set in the sliding cavity
There is camshaft, the camshaft bottom end is equipped with the cam that can be engaged with the laying rack gear, and then can pass through the laying
Laying gear rotation described in rack drives, the camshaft top is equipped with the laying bevel gear being located in the drive cavity, described
It is slidably equipped with the splined shaft being located in the drive cavity on driving shaft outer wall, leads between the splined shaft and the driving shaft
Spline fitted connection is crossed, the splined shaft outer wall is equipped with the 5th drive bevel gear that can be engaged with the laying bevel gear, into
And the 5th drive bevel gear can drive the cam axle by the laying bevel gear, it can on the splined shaft outer wall
Rotation is equipped with control switch block, and then the 5th drive bevel gear can be driven to slide by the splined shaft, the drive cavity
It is equipped with control electromagnetism slot in left wall, the control permanent magnetism connected with the control switch block is slidably equipped in the control electromagnetism slot
Iron, and then the control switch block can be driven to horizontally slip, the control permanent magnetism can be driven by being equipped in the control electromagnetism slot left side
The control electromagnet of iron sliding, elasticity is equipped with control spring between the control electromagnet and the control permanent magnet.
Wherein, the covering device includes covering intracavitary cover axis set on described, and the cover axis bottom end, which is equipped with, to be located at
Cover roller outside the cover cavity outer wall, and then optical cable can be covered, the cover axis top, which is equipped with, is located at the cover
Intracavitary cover bevel gear, it is described cover it is intracavitary be equipped with transmission axle, the transmission axle right end be equipped be located at it is described cover it is intracavitary and
With the driven wheel of differential that engages of cover bevel gear, and then the driven wheel of differential can be by the cover bevel gear, described
It covers axis and drives the cover roller rotation, the transmission axle left end is equipped with intracavitary positioned at the transmitting and bores with second transmission
The drive bevel gear of gear engagement, and then second drive bevel gear can drive the transmission axle by the drive bevel gear
Rotation.
The beneficial effects of the present invention are: the configuration of the present invention is simple, easy to operate, maintenance convenience, which can be automatically by light
Cable is laid with, and can be covered optical cable and under subaqueous soil, be reduced seawater to the extent of corrosion of optical cable, and the use of optical cable is extended
Service life, and the probability that optical cable is destroyed can be reduced, optical cable safety in utilization is improved, and the equipment can improve staff's work
Environment guarantees the health of human body of staff, therefore equipment value for applications with higher.
Detailed description of the invention
It in order to more clearly explain the embodiment of the invention or the technical proposal in the existing technology, below will be to institute in embodiment
Attached drawing to be used is needed to be briefly described, it should be apparent that, the accompanying drawings in the following description is only some implementations of the invention
Example, for those of ordinary skill in the art, without creative efforts, can also obtain according to these attached drawings
Obtain other attached drawings.
Fig. 1 is a kind of overall structure diagram of subaqueous lightguide cable link paving system of the invention;
Fig. 2 is the structure enlargement diagram in Fig. 1 at A;
Fig. 3 is the structural schematic diagram in the direction B-B in Fig. 1;
Fig. 4 is the structural schematic diagram in the direction C-C in Fig. 1.
Specific embodiment
The present invention is described in detail with reference to the accompanying drawing, for sake of convenience, now such as to hereafter described orientation regulation
Under: hereafter described front-rear direction up and down is consistent with the front-rear direction up and down of Fig. 1 projection relation itself.
The present invention relates to a kind of subaqueous lightguide cable link paving systems, are mainly used in the paving of offshore sea waters lightguide cable link
It is provided as industry, the present invention will be further described below in conjunction with attached drawing of the present invention.
A kind of subaqueous lightguide cable link paving system of the invention, including laying device 21 are equipped in the laying device 21
Containing cavities 20 are rotatably equipped with declutcher control lever 18 in the containing cavities 20, and 18 right end of declutcher control lever is equipped with can be by seabed soil
The soil distributing apparatus 19 opened is dug, is equipped with the storage device that soil distributing apparatus 19 can be accommodated in the containing cavities 20 in the containing cavities 20
104,20 right wall of containing cavities is interior to be equipped with the laying groove 47 being in communication with the outside, and is equipped in the laying groove 47 and avoids optical cable impaired
Three groups of help rolls 73, be equipped in the laying groove 47 it is rotatable be laid with bar 46,46 left end of layings bar is equipped with for pacifying
The lay down roller 45 of optical cable is set, sliding cavity 36 is equipped in 47 right wall of laying groove, is equipped in the sliding cavity 36 for driving
It states and is laid with the laying apparatus 105 that bar 46 rotates, be equipped in 36 right wall of sliding cavity and transmit chamber 35, in 35 right wall of transmitting chamber
Equipped with chamber 29 is covered, the covering device 106 that cover to the optical cable in seabed, institute can will be laid with by being equipped in the cover chamber 29
It states and is symmetrically equipped with walking trough 24 in transmitting about 35 two sides inner wall of chamber, be equipped in the walking trough 24 for driving the equipment row
Into walking mechanism 103, and then the working range of the equipment can be expanded, the equipment can be driven by being equipped in 36 bottom wall of sliding cavity
Continue the power device 101 of sex work, the power that the power device 101 generates can be transferred to by being equipped in the power cavity 37
Transmission device 102 in each device.
According to embodiment, the power device 101 is described in detail below, the power device 101 includes being set to
Engine 38 in 37 left wall of power cavity, the power cavity 37 is interior to be equipped with line shaft 53,53 left end of line shaft and institute
It states engine 38 to be connected by power, and then the line shaft 53 can be driven to rotate, 53 right end of line shaft is described equipped with that can drive
The power bevel gear 52 that transmission device 102 rotates.
According to embodiment, the transmission device 102 is described in detail below, the transmission device 102 includes being set to
Transmission shaft 23 in the power cavity 37,23 outer wall of transmission shaft be equipped be located in the power cavity 37 and with the power
The first drive bevel gear 51 that bevel gear 52 engages, and then the power bevel gear 52 can pass through first drive bevel gear 51
The transmission shaft 23 is driven to rotate, 23 outer wall of transmission shaft, which is equipped with, to be located in the transmitting chamber 35 and can drive the cover
The second drive bevel gear 56 that device 106 rotates, 35 roof of transmitting chamber is interior to be equipped with drive cavity 27,23 outer wall of transmission shaft
It is equipped with the third drive bevel gear 28 being located in the drive cavity 27, being equipped in the drive cavity 27 can drive the storage to fill
The driving shaft 60 of 104 rotations is set, 60 right end of driving shaft is equipped with the 4th transmission engaged with the third drive bevel gear 28
Bevel gear 59, and then the third drive bevel gear 28 can drive 60 turns of the driving shaft by the 4th drive bevel gear 59
It is dynamic.
According to embodiment, the walking mechanism 103 is described in detail below, the walking mechanism 103 includes left and right
The traveling wheel 22 being symmetrically set in the walking trough 24, array is equipped with eight groups of bogie wheels 12 in the walking trough 24, described
What is be driven between bogie wheel 12 and the traveling wheel 22 is equipped with crawler belt 11, and then the rotation of the crawler belt 11 can drive the laying device
21 slidings, wherein the traveling wheel 22 on right side and the transmission shaft 23 are connected, and then the transmission shaft 23 can pass through the row
Walking wheel 22 drives the crawler belt 11 to rotate.
According to embodiment, the storage device 104 is described in detail below, the storage device 104 includes being set to
Screw rod 70 in the containing cavities 20 is slidably equipped with sliding block 71, the sliding block 71 and the spiral shell on 70 outer wall of screw rod
It is hinged by connecting rod 72 between the sliding block 71 and the declutcher control lever 18 and then described by being threadedly engaged connection between bar 70
Screw rod 70 can drive the declutcher control lever 18 to rotate by the sliding block 71, the connecting rod 72, be equipped in 27 left wall of drive cavity
It is equipped with driven shaft 17 in 25, described 25, power biography is carried out by synchronous belt 15 between the driven shaft 17 and the screw rod 70
It passs, and then the driven shaft 17 can drive the screw rod 70 to rotate by the synchronous belt 15, on 60 outer wall of driving shaft
Slidable to be equipped with the connecting shaft 43 being located in described 25, the connecting shaft 43 is connected with the driving shaft 60 by spline fitted
It connects, the connecting shaft 43 can be connect with the driven shaft 17 by spline fitted, and then the driving shaft 60 can pass through the company
Spindle 43 drives driven shaft 17 to rotate, and storage switch block 44 is slidably equipped in described 25, and the storage switch block 44 is rotatable
Equipped with being located on 43 outer wall of connecting shaft, and then the connecting shaft 43 can be driven to horizontally slip, be equipped with and receive in 25 right wall
It receives electromagnetism slot 42, the storage permanent magnet 40 connected with the storage switch block 44 is slidably equipped in the storage electromagnetism slot 42,
And then the storage permanent magnet 40 can be driven to slide, the storage permanent magnet can be driven by being equipped in 42 right wall of storage electromagnetism slot
The storage electromagnet 68 of 40 slidings, elasticity is equipped with storage spring between the storage electromagnet 68 and the storage permanent magnet 40
41。
According to embodiment, the laying apparatus 105 is described in detail below, the laying apparatus 105 includes being set to
Laying axis 48 in the sliding cavity 36, the laying axis 48 are connected with the laying bar 46, and then can be by being laid with 46 band of bar
It moves the lay down roller 45 to rotate, 48 bottom end of axis that is laid with is equipped with the laying gear 49 being located in the sliding cavity 36, the cunning
It is slidably equipped with the laying rack gear 50 engaged with the laying gear 49 in dynamic chamber 36, is equipped with camshaft in the sliding cavity 36
57,57 bottom end of camshaft is equipped with the cam 54 that can be engaged with the laying rack gear 50, and then can pass through the laying
Rack gear 50 drives the laying gear 49 to rotate, and 57 top of camshaft is equipped with the laying being located in the drive cavity 27 and bores tooth
58 are taken turns, is slidably equipped with the splined shaft 62 being located in the drive cavity 27, the splined shaft 62 on 60 outer wall of driving shaft
It is connect between the driving shaft 60 by spline fitted, 62 outer wall of splined shaft is equipped with can be with the laying bevel gear 58
5th drive bevel gear 61 of engagement, and then described in the 5th drive bevel gear 61 can be driven by the layings bevel gear 58
Camshaft 57 rotates, and control switch block 63 is rotatably equipped on 62 outer wall of splined shaft, and then can pass through the splined shaft 62
It drives the 5th drive bevel gear 61 to slide, control electromagnetism slot 65, the control electromagnetism is equipped in 27 left wall of drive cavity
It is slidably equipped with the control permanent magnet 64 connected with the control switch block 63 in slot 65, and then the control switch block 63 can be driven
It horizontally slips, the control electromagnet 67 that the control permanent magnet 64 can be driven to slide is equipped in control 65 left side of electromagnetism slot,
Elasticity is equipped with control spring 66 between the control electromagnet 67 and the control permanent magnet 64.
According to embodiment, the covering device 106 is described in detail below, the covering device 106 includes being set to
The cover axis 31 covered in chamber 29,31 bottom end of axis of covering are equipped with the cover roller being located at outside cover 29 outer wall of chamber
33, and then optical cable can be covered, 31 top of axis of covering is equipped with the cover bevel gear 32 being located in the cover chamber 29,
Be equipped with transmission axle 34 in the cover chamber 29,34 right end of transmission axle be equipped be located at the covers chamber 29 it is interior and with the cover
The driven wheel of differential 30 that bevel gear 32 engages, so the driven wheel of differential 30 can by the cover bevel gear 32, described cover
Lid axis 31 drives the cover roller 33 to rotate, and 34 left end of transmission axle is equipped with that be located at the transmitting chamber 35 interior and with described second
The drive bevel gear 55 that drive bevel gear 56 engages, and then second drive bevel gear 56 can pass through the drive bevel gear 55
The transmission axle 34 is driven to rotate.
It is carried out below in conjunction with use step of the attached drawing to the subaqueous lightguide cable link paving system of one of this paper detailed
Illustrate:
When the device is in use, optical cable is passed through equipment by user of service out of laying groove 47, and engine 38 is started to work and passed through
Line shaft 53, power bevel gear 52, the first drive bevel gear 51 drive the second drive bevel gear 56,28 turns of third drive bevel gear
Dynamic, storage electromagnet 68 is powered and drives connecting shaft 43 to slide to the right by storage permanent magnet 40, storage switch block 44, and then connect
Axis 43 is engaged with driven shaft 17, and then third drive bevel gear 28 passes through the 4th drive bevel gear 59, driving shaft 60, connection
Axis 43, driven shaft 17, synchronous belt 15 drive screw rod 70 to rotate, and then screw rod 70 slides to the right with movable slider 71, and then sliding block
71 drive soil distributing apparatus 19 to rotate by connecting rod 72, declutcher control lever 18, and then the soil in seabed is separated, at this point, storage electromagnet 68
Power-off, meanwhile, the control electromagnet 67 is powered and drives the 5th by control permanent magnet 64, control switch block 63, splined shaft 62
Drive bevel gear 61 is slided, and then the 5th drive bevel gear 61 is engaged with laying bevel gear 58, and then driving shaft 60, passes through spline
Axis 62, the 5th drive bevel gear 61 are laid with bevel gear 58, camshaft 57 with the rotation of moving cam 54, and then cam 54 drives and is laid with
50 upward sliding of rack gear, and then be laid with rack gear 50 and drive lay down roller 45 along paving by being laid with gear 49, laying axis 48, being laid with bar 46
If 48 axis of axis rotates, and then is placed in soil distributing apparatus 19 for optical cable and separates in the groove of ocean bottom soil, electromagnet 67 is controlled at this time
Power-off, at the same time, the second drive bevel gear 56 pass through drive bevel gear 55, transmission axle 34, driven wheel of differential 30, cover cone tooth
Wheel 32 covers the drive cover rotation of roller 33 of axis 31, and then the optical cable of placement is covered, and at the same time, transmission shaft 23 passes through
Traveling wheel 22 drives crawler belt 11 to rotate, and then the equipment is driven constantly to advance.
The beneficial effects of the present invention are: the configuration of the present invention is simple, easy to operate, maintenance convenience, which can be automatically by light
Cable is laid with, and can be covered optical cable and under subaqueous soil, be reduced seawater to the extent of corrosion of optical cable, and the use of optical cable is extended
Service life, and the probability that optical cable is destroyed can be reduced, optical cable safety in utilization is improved, and the equipment can improve staff's work
Environment guarantees the health of human body of staff, therefore equipment value for applications with higher.
The above, the specific embodiment only invented, but invent protection scope be not limited thereto, it is any without
The change or replacement that creative work is expected are crossed, should all be covered within the protection scope of invention.Therefore, the protection scope of invention
It should be determined by the scope of protection defined in the claims.
Claims (7)
1. a kind of subaqueous lightguide cable link paving system of the invention, including laying device;
It is equipped with containing cavities in the laying device, is rotatably equipped with declutcher control lever in the containing cavities, the declutcher control lever right end is equipped with
Seabed soil can be dug to the soil distributing apparatus opened, the storage dress that soil distributing apparatus can be accommodated in the containing cavities is equipped in the containing cavities
It sets;
It is equipped with the laying groove being in communication with the outside in the containing cavities right wall, is equipped with three groups for avoiding optical cable impaired in the laying groove
Help roll, be equipped in the laying groove it is rotatable be laid with bar, the bar left end that is laid with is equipped with lay down roller for disposing optical cable,
It is equipped with sliding cavity in the laying groove right wall, the laying apparatus institute for driving the laying bar to rotate is equipped in the sliding cavity
It states equipped with transmitting chamber in sliding cavity right wall, interior be equipped with of the transmitting chamber right wall covers chamber, and intracavitary be equipped with of the cover can will be laid with
The covering device that optical cable in seabed is covered;
Walking trough is symmetrically equipped with above and below the transmitting chamber in the inner wall of two sides, is equipped in the walking trough for driving the equipment row
Into walking mechanism;
The power device that the equipment can be driven to continue sex work is equipped in the sliding cavity bottom wall, being equipped in the power cavity can be by
The power that the power device generates is transferred to the transmission device in each device.
2. a kind of subaqueous lightguide cable link paving system according to claim 1, it is characterised in that: the power device
Including the engine being set in the power cavity left wall, be equipped with line shaft in the power cavity, the line shaft left end with it is described
Engine is connected by power, and the line shaft right end is equipped with the power bevel gear that can drive the transmission device rotation.
3. a kind of subaqueous lightguide cable link paving system according to claim 1, it is characterised in that: the transmission device
Including be set to the power cavity in transmission shaft, the transmission shaft outer wall be equipped be located at the power cavity in and with the power
First drive bevel gear of bevel gear engagement;
The transmission shaft outer wall, which is equipped with, is located at the second intracavitary drive bevel gear of the transmitting, is equipped in the transmitting chamber roof
Drive cavity, the transmission shaft outer wall are equipped with the third drive bevel gear being located in the drive cavity, are equipped in the drive cavity
Driving shaft, the driving shaft right end are equipped with the 4th drive bevel gear engaged with the third drive bevel gear.
4. a kind of subaqueous lightguide cable link paving system according to claim 1, it is characterised in that: the walking mechanism
Including the symmetrical traveling wheel in the walking trough, array is equipped with eight groups of bogie wheels in the walking trough, described
What is be driven between bogie wheel and the traveling wheel is equipped with crawler belt, wherein the traveling wheel and the transmission shaft on right side are connected.
5. a kind of subaqueous lightguide cable link paving system according to claim 1, it is characterised in that: the storage device
Including the screw rod being set in the containing cavities, sliding block, the sliding block and the screw rod are slidably equipped on the screw rod outer wall
Between to pass through connecting rod by being threadedly engaged connection, between the sliding block and the declutcher control lever hinged, set in the drive cavity left wall
Have, it is described interior equipped with driven shaft, pass through synchronous belt between the driven shaft and the screw rod and carries out power transmitting, the active
The connecting shaft being located in described, the connecting shaft and the driving shaft is slidably equipped on axis outer wall to connect by spline fitted
It connects, the connecting shaft can connect interior slidable be equipped with by spline fitted with the driven shaft and store switch block, the receipts
Switch block of receiving rotatably is equipped on the connecting shaft outer wall;
The right wall is interior to be equipped with storage electromagnetism slot, is slidably equipped in the storage electromagnetism slot and stores what switch block was connected with described
Permanent magnet is stored, the storage electromagnet that the storage permanent magnet can be driven to slide is equipped in the storage electromagnetism slot right wall, it is described
It stores elasticity between electromagnet and the storage permanent magnet and is equipped with storage spring.
6. a kind of subaqueous lightguide cable link paving system according to claim 1, it is characterised in that: the laying apparatus
Including the laying axis being set in the sliding cavity, the laying axis and the laying bar are connected, and the laying axis bottom end is equipped with position
In being slidably equipped in the laying gear in the sliding cavity, the sliding cavity and described be laid with the laying tooth that engages of gear
Item, the sliding cavity is interior to be equipped with camshaft, and the camshaft bottom end is equipped with the cam that can be engaged with the laying rack gear, institute
It states camshaft top and is equipped with the laying bevel gear being located in the drive cavity, be slidably equipped with and be located on the driving shaft outer wall
Splined shaft in the drive cavity is connected between the splined shaft and the driving shaft by spline fitted, outside the splined shaft
Wall is equipped with the 5th drive bevel gear that can be engaged with the laying bevel gear, is rotatably equipped with control on the splined shaft outer wall
Switch block processed;
It is equipped with control electromagnetism slot in the drive cavity left wall, is slidably equipped with and the control switch block in the control electromagnetism slot
Connected control permanent magnet, it is described to control the control electromagnetism for being equipped in the electromagnetism slot left side and the control permanent magnet being driven to slide
Iron, elasticity is equipped with control spring between the control electromagnet and the control permanent magnet.
7. a kind of subaqueous lightguide cable link paving system according to claim 1, it is characterised in that: the covering device
Including being set to the intracavitary cover axis of the cover, the axis bottom end of covering is equipped with the cover roller being located at outside the cover cavity outer wall,
The axis top of covering is equipped with the cover bevel gear intracavitary positioned at the cover, and the cover is intracavitary to be equipped with transmission axle, the biography
It passs axis right end and is equipped with the driven wheel of differential for being located at that the cover is intracavitary and engages with the cover bevel gear, the transmission axle left end
Equipped with drive bevel gear that is intracavitary positioned at the transmitting and being engaged with second drive bevel gear.
Priority Applications (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201910590799.7A CN110286456B (en) | 2019-07-02 | 2019-07-02 | Underwater optical cable line laying system |
GBGB1916419.3A GB201916419D0 (en) | 2019-07-02 | 2019-11-12 | An underwater optical cable line laying system |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201910590799.7A CN110286456B (en) | 2019-07-02 | 2019-07-02 | Underwater optical cable line laying system |
Publications (2)
Publication Number | Publication Date |
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CN110286456A true CN110286456A (en) | 2019-09-27 |
CN110286456B CN110286456B (en) | 2020-04-07 |
Family
ID=68020304
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201910590799.7A Active CN110286456B (en) | 2019-07-02 | 2019-07-02 | Underwater optical cable line laying system |
Country Status (2)
Country | Link |
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CN (1) | CN110286456B (en) |
GB (1) | GB201916419D0 (en) |
Cited By (2)
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CN110908057A (en) * | 2019-12-13 | 2020-03-24 | 宁波奉化英线数字科技有限公司 | Underwater optical cable laying vehicle |
CN111308630A (en) * | 2020-04-22 | 2020-06-19 | 温州市凯纹电子科技有限公司 | Auxiliary steering device of sea plough |
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CN201733013U (en) * | 2010-06-03 | 2011-02-02 | 陆士峰 | Underground pipeline cable and optical cable threading device |
CN203242968U (en) * | 2013-04-25 | 2013-10-16 | 天津市海王星海上工程技术股份有限公司 | Submarine cable deep-burying laying machine |
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Publication number | Priority date | Publication date | Assignee | Title |
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CN110908057A (en) * | 2019-12-13 | 2020-03-24 | 宁波奉化英线数字科技有限公司 | Underwater optical cable laying vehicle |
CN110908057B (en) * | 2019-12-13 | 2021-05-25 | 浙江思密达智能装备有限公司 | Underwater optical cable laying vehicle |
CN111308630A (en) * | 2020-04-22 | 2020-06-19 | 温州市凯纹电子科技有限公司 | Auxiliary steering device of sea plough |
Also Published As
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CN110286456B (en) | 2020-04-07 |
GB201916419D0 (en) | 2019-12-25 |
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