CN108128408A - A kind of Cable rope for ship with high intensity - Google Patents
A kind of Cable rope for ship with high intensity Download PDFInfo
- Publication number
- CN108128408A CN108128408A CN201711349203.1A CN201711349203A CN108128408A CN 108128408 A CN108128408 A CN 108128408A CN 201711349203 A CN201711349203 A CN 201711349203A CN 108128408 A CN108128408 A CN 108128408A
- Authority
- CN
- China
- Prior art keywords
- rope
- ship
- reinforcement block
- rope body
- high intensity
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Granted
Links
Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B63—SHIPS OR OTHER WATERBORNE VESSELS; RELATED EQUIPMENT
- B63B—SHIPS OR OTHER WATERBORNE VESSELS; EQUIPMENT FOR SHIPPING
- B63B21/00—Tying-up; Shifting, towing, or pushing equipment; Anchoring
- B63B21/20—Adaptations of chains, ropes, hawsers, or the like, or of parts thereof
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B63—SHIPS OR OTHER WATERBORNE VESSELS; RELATED EQUIPMENT
- B63B—SHIPS OR OTHER WATERBORNE VESSELS; EQUIPMENT FOR SHIPPING
- B63B21/00—Tying-up; Shifting, towing, or pushing equipment; Anchoring
- B63B21/20—Adaptations of chains, ropes, hawsers, or the like, or of parts thereof
- B63B2021/203—Mooring cables or ropes, hawsers, or the like; Adaptations thereof
Abstract
The present invention discloses a kind of Cable rope for ship with high intensity, belong to sundries technical field, Cable rope for ship, the rope body coated including inner core surrounding spiral winding tensile cord by outside, superficies are evenly equipped with the reinforcement block of half embedded connection, reinforcement block is equipped with groove with outer layer junction, the high and low abrasion of Cable rope for ship tensile strength of the present invention, toughness are strong, it would know that hawser uses length, anti- marine organisms attachment and marine environment influence, unrestrained stability is good to the wind, improves and contact body surface quality.
Description
Technical field
The invention belongs to sundries technical field, more particularly to a kind of Cable rope for ship with high intensity.
Background technology
It needs to use cable in many fields, the intensity of cable is directly related to the using effect of cable, such as in code
Head berths when ship needs, and will not merely undock anchor, also the stanchion of hull and harbour to be linked together by hawser and played
Fixed effect, but in the case where stormy waves is big, hull, which can shake, generates displacement, hawser painstaking too quickly unexpected hair often
Raw to break or ship is needed when draw other ships using hawser, wave is easy to the wind shakes or braking effect for hawser
Traction.
Invention content
The purpose of the present invention is to provide a kind of high and low abrasion of tensile strength, toughness are strong, hawser is would know that using length,
Anti- marine organisms attachment and marine environment influence, and unrestrained stability is good to the wind, improves one kind with contact body surface quality
Cable rope for ship with high intensity.
The technical solution taken to achieve the above object of the present invention is:A kind of Cable rope for ship with high intensity, including
The rope body that inner core surrounding spiral winding tensile cord is coated by outside, superficies are evenly equipped with the reinforcement block of half embedded connection, strengthen
Block is equipped with groove with outer layer junction, ensures the intensity of rope body in rope body central part setting inner core, in inner core surrounding spiral winding
Tensile cord further improves the toughness of rope body made of superhigh molecular weight polyethylene fibers, and carrying out package finally by outer layer makes
The combination of tensile cord and inner core is closer, and forms protection to tensile cord and inner core, avoids the marine environment such as seawater, sea wind to rope
Wear-resistant, the erosion-resisting effect of rope body is strengthened in the influence in internal portion, extends the service life of rope body, by superficies
The reinforcement block of setting improves rope body surface surface intensity, first if severe friction movement occurs when body surface face of restricting is contacted with other objects
The reinforcement block being first worn reduces rope body by reinforcement block and wears, and when body of restricting encounters stormy waves, stormy waves rushes rope body surface face
It hits, since rope body surface face is evenly distributed with strong block, stormy waves touches reinforcement block first, the impact force action of stormy waves to reinforcement block surface, when
Impact stress, which is concentrated to inside reinforcement block, makes reinforcement block generate micro deformation to groove extruding until reinforcement block fills up groove and formed
Sealing, also reinforces the tautness of reinforcement block and outer layer simultaneously, and the impact force that such reinforcement block absorbs a large amount of stormy waves reduces stormy waves
Impact to body internal part of restricting, stability, intensity of the rope body in stormy waves are improved, and rope body is avoided to be broken in stormy waves,
The stability that the rope body that surface is equipped with reinforcement block is contacted when being contacted with harbour spud pile or other objects is more preferable, can effectively reduce
The corrosion on contactant surface, the setting of reinforcement block can also reduce the influence of marine environment or marine organisms to body internal part of restricting,
To be distributed on superficies, its spacing can unanimously calculate reinforcement block, pass through calculating rope body length surface when hawser is used
The quantity of direction reinforcement block can precisely know the hawser for having used how much length, fully ensure that the using effect of hawser, effectively
Solve used in the prior art multiple-length hawser cause to waste or cross short length hawser cause traction or fixation procedure in cable
The problem of fracture of rope.
Preferably, cuboid cushion chamber is set in reinforcement block, the rectangular-shape of silver-colored material is connected on one inner surface of cushion chamber
Buffer body, buffer body are 0.8 ~ 0.9 with cushion chamber volume ratio:1, when stormy waves or solids contact with rope body and cause impact, punching
It hits power to act on reinforcement block first, cuboid cushion chamber Formation cross-section is set for " mouth " font, impact force edge inside reinforcement block
Reinforcement block surface is transferred to reinforcement block bottom surrounding, and reinforcement block bottom is made to generate micro deformation and is squeezed to groove until reinforcement block is filled out
Full groove formation sealing, the tautness for also reinforcing reinforcement block and outer layer simultaneously realize that raising rope body surface face is strong under stormy waves impact
Degree, while buffer body is set in cushion chamber, it avoids the too strong reinforcement block deformation quantity of the impact being subject to excessive, is improved and added using buffer body
The intensity of strong block is simultaneously played a supporting role, and there is the buffer body of silver-colored material good ductility largely to bear what reinforcement block was subject to
Impact force makes buffer body deformation that reinforcement block portion be made to generate deformation to groove again, and control buffer body ensures to delay with cushion chamber volume ratio
Rush and sealing cavity formed in body and cushion chamber, a part of impact force is buffered using sealing cavity, rope body with harbour spud pile or
When other objects contact, the sealing cavity of formation can form extruding force that flexible buffer makes to be formed between rope body and contactant through close
Cavity alleviation is sealed, the extruding force that rope body is formed with contactant surface is reduced, when reduction rope body is fixed or stretched with contactant surface
Damage, the impact force of a large amount of stormy waves or solids is absorbed by the reinforcement block of said structure design reduces stormy waves or solids
Impact to body internal part of restricting, stability, intensity of the rope body in stormy waves or shock are improved, avoid rope body in stormy waves or
It is broken in shock.
Preferably, reinforcement block surface is equipped with arc surfaced diversion division, and the radian of diversion division cambered surface is 75 ° ~ 118 °, diversion division arc
Face height is 0.1 ~ 0.2cm, and diversion division spacing is 0.2 ~ 0.3cm, and high stormy waves can be changed by rope in the diversion division with arc surfaced
Body surface face air-flow is linear, reaches and improves the speed of seawater or wind by rope body surface face, reduces rope body skin resistance, ensures that rope body exists
Stability in stormy waves, diversion division also make that rope body surface face is less smooth, and marine organisms are not easy to adhere to, even if there is the marine organisms attached
It, seawater or wind accelerate to add the marine organisms formation amount of blowing of attachment by the linear acquisition that changes of air-flow during rope body surface face
Big achieve the effect that remove rope body surface face marine organisms, cambered surface height, the spacing of preferably diversion division make seawater or wind by rope
Flow velocity during body obtains preferable coupling effect, and the too high or too low cambered surface height of testing surface can weaken rope body in stormy waves
Stability, when restrict body contacted with harbour spud pile or other objects when cambered surface 75 ° ~ 118 ° of radian diversion division and body surface
It generates in contact or certain moving process, changes the metal ion state of contact body surface, make metallic atom and chemical combination
Oxygen and other nonmetalloids separate, and reduce the presence of metal ion tendency mineral state, so as to fulfill contactant surface metal
Nominal-ultimate strength, the degeneration of nominal limit strength opposite linear relationship delay, the corrosion degree for reducing contactant surface becomes rusty
Erosion rate, diversion division can also and avoid occurring burr during rope body 1 is moved with contactant surface outer layer being caused to damage
Wound, passes through formula, wherein Y is reinforcement block deformation ratio, and K is diversion division arcing surface
Degree, P are the extruding force that body is generated with contactant of restricting, and V is the speed that rope body generates displacement with contactant surface, and M is rope body with connecing
Object contact surface area is touched, the excellent radian for having selected diversion division cambered surface is 75 ° ~ 118 °, to ensure to have in this arc range
Diversion division to the reducing effect of contactant surface corrosion rate, realize contactant surface matter after being in contact between rope body and contactant
Amount is improved.
Preferably, superficies equidistantly open up annular diversion groove, diversion groove slot bottom diameter for outer layer diameter 0.92 ~
0.95 times, the bending effect of rope body is improved by the diversion groove opened up, rope body is made to realize the bending of various states, stormy waves exists
By restrict body when circulation also accordingly improved, hawser can not merely calculate in use reinforcement block obtain hawser make
The accurate calculation rope body length of the quantity of diversion groove on rope body can be also calculated with length, fully ensures that the effect that hawser uses,
Efficiently solve used in the prior art multiple-length hawser cause to waste or cross short length hawser cause traction or fixation procedure
The problem of middle cable breaks, setting diversion groove slot bottom diameter can also pass through assurance when improving worker using rope body with outer layer diameter ratio
Diversion groove come improve worker's hand with restrict body taking intensity.
Preferably, rope body one end is buckle-shaped into rope sling structure by hawser, and the rope body in rope sling structure is connected with buffering dress
It puts, it is simple and convenient by can be directly socketed in one end of rope body by the way that hawser is buckle-shaped into rope sling structure with harbour spud pile, also may be used
To be connect again with the connector on the spud pile on harbour by buffer unit, the power on hawser is delayed using buffer unit
Punching particularly can effectively avoid when being fixed or drawn using hawser hawser due to the power being subject to is suddenly big or suddenly small under high sea weather
Fracture.
Preferably, hawser buckles the button that " u "-shaped retainer ring is connected with including one side, and the retainer ring end inside button connects
Baffle is connected to, bolt is connected in the middle part of baffle, the nut contacted with button another side is connected on bolt, retainer ring connects on inside
Arc sliver is connected to, rope body is suitble to the rope sling of size by being formed after retainer ring, is realized using nut tightening bolt and rope body is reinforced,
It shapes to rope sling, and the sliver set can improve retainer ring inner wall and the contact area for body of restricting strengthens fastening strength, prevents rope body
The effect in a degree of cleaning rope body surface face can be played to rope body surface face in the setting of retainer ring internal slide, and sliver.
Preferably, buffer unit includes a cable loop for being used for connecting rope body, and cable loop connects housing by pull rod block
One end, the housing other end are connected with draw ring by the pull rod built in center, and the pull rod surrounding positioned at enclosure interior is around setting bullet
Spring, the pull rod block bottom surface that enclosure interior tie rod end is equipped with is connected with the snap-gauge for sliding up and down and connecting with inner walls, to avoid
Rope body is neglected in traction or with stress on body of restricting in the case of encountering stormy waves or unbalance stress during harbour spud pile fixed function
The small situation for leading to rope body fracture is neglected greatly, and design buffer unit is effectively ensured rope body uniform force under any circumstance, passes through bullet
The tension for reducing rope body is realized in the design of spring, avoids rope body fracture.
Preferably, be connected with the arc bracket wide with draw ring on the inside of draw ring, optional bracket section to be solid or
It is hollow.The contact area of draw ring and body of restricting is improved by bracket, changes the mode that original point contact forms line contact, is strengthened
Draw ring contacts firmness with rope body, is particularly further improved with firmness after the reinforcement block cooperation in rope body surface face, ensures rope body
Stability and intensity in traction or fixation procedure.
Compared with prior art, beneficial effects of the present invention are:1)Carrying out package by outer layer makes tensile cord and inner core
With reference to more closely, influence of the marine environment such as seawater, sea wind to the internal portion that restricts is protected to tensile cord and inner core formation, is strengthened
Wear-resistant, the erosion-resisting effect of rope body;2)Restrict body abrasion and the impact effect by stormy waves are reduced by reinforcement block, improves rope
Body unrestrained stability to the wind;3)Rope body surface face is not easy to adhere to marine organisms, contactant surface after being in contact between body and contactant of restricting
Quality is improved;4)Restrict body using length can accurate calculation, fully ensure that rope body using effect, avoiding rope, body is long causes to provide
Source wastes or too short is broken;5)Rope body uniform force under any circumstance is effectively ensured in design buffer unit, avoids rope body
Upper stress is suddenly big or suddenly small to lead to body fracture of restricting.
Description of the drawings
Fig. 1 is a kind of Cable rope for ship schematic diagram with high intensity of the present invention;
Fig. 2 is a portions partial enlarged view in Fig. 1;
Fig. 3 is buckled for rope body with hawser, buffer unit connection diagram;
Fig. 4 buckles schematic diagram for hawser;
Fig. 5 is buffer unit schematic diagram;
Fig. 6 is experimental group and the water film thickness variation diagram on control group spud pile surface in the embodiment of the present invention 4.
Reference sign:1. body of restricting;101. outer layer;102. inner core;103. tensile cord;104. diversion groove;105. plus
Strong block;105a. buffer body;105b. cushion chamber;105c. diversion division;105d. groove;2. hawser is buckled;201. retainer ring;201a. cotton
Item;202. button;203. nut;204. bolt;3. buffer unit;301. cable loop;302. pull rod blocks;303. spring;304.
Pull rod;305. draw ring;305a. bracket;306. housing;307. snap-gauge.
Specific embodiment
The present invention is described in further detail with attached drawing with reference to embodiments:
Embodiment 1:
As described in Figure 1, a kind of Cable rope for ship with high intensity, including 102 surrounding spiral winding tensile cord 103 of inner core by outside
The rope body 1 of 101 claddings, 101 surface of outer layer are evenly equipped with the reinforcement block 105 of half embedded connection, and reinforcement block 105 is connect with outer layer 101
Place is equipped with groove 105d, ensures the intensity of rope body 1 in rope 1 central part of body setting inner core 102, in 102 surrounding spiral winding of inner core
Made of superhigh molecular weight polyethylene fibers tensile cord 103 further improve rope body 1 toughness, finally by outer layer 101 into
Row package makes the combination of tensile cord 103 and inner core 102 closer, and forms protection to tensile cord 103 and inner core 102, avoids sea
The marine environment such as water, sea wind strengthen wear-resistant, the erosion-resisting effect of rope body 1, extend rope body 1 to the influence inside rope body 1
Service life improves rope 1 surface strength of body, when rope 1 surface of body and other by the reinforcement block 105 set on 101 surface of outer layer
When object contacts, if severe friction movement occurs, the reinforcement block 105 of abrasion is first subjected to, rope body 1 is reduced by reinforcement block 105
Abrasion, when body 1 of restricting encounters stormy waves, impact of the stormy waves to 1 surface of rope body, since 1 surface of rope body is evenly distributed with strong block 105, stormy waves is first
Reinforcement block 105 is first touched, the impact force action of stormy waves is to 105 surface of reinforcement block, when impact stress is concentrated in reinforcement block 105
Portion make reinforcement block 105 generate micro deformation to groove 105d squeeze until reinforcement block 105 fill up groove formed sealing, also simultaneously add
Gu the tautness of reinforcement block 105 and outer layer 101, the impact force that such reinforcement block 105 absorbs a large amount of stormy waves reduces stormy waves to rope
The impact of 1 internal part of body, stability, intensity of the rope body 1 in stormy waves are improved, and rope body 1 are avoided to be broken in stormy waves, table
The stability that the rope body 1 that face is equipped with reinforcement block 105 is contacted when being contacted with harbour spud pile or other objects is more preferable, can effectively drop
The corrosion on low contactant surface, the setting of reinforcement block 105 can also reduce marine environment or marine organisms to rope 1 internal part of body
It influences, to be distributed on 101 surface of outer layer, its spacing can unanimously calculate reinforcement block 105, be restricted when hawser is used by calculating
The quantity of 1 length surface direction reinforcement block 105 of body can precisely know the hawser for having used how much length, fully ensure that hawser
Using effect, efficiently solve used in the prior art multiple-length hawser cause to waste or cross short length hawser cause traction or
In fixation procedure the problem of cable breaks.
101 surface of outer layer equidistantly opens up annular diversion groove 104, and 104 slot bottom diameter of diversion groove is preferably 101 diameter of outer layer
0.93 times, by the diversion groove 104 opened up come improve rope body 1 bending effect, rope body 1 is made to realize the curved of various states
Song, stormy waves by restrict body 1 when circulation also accordingly improved, hawser can not merely calculate reinforcement block in use
105 acquisition hawsers can also calculate the accurate calculation rope body length of the quantity of diversion groove 104 on rope body 1 using length, fully protect
The effect that uses of card hawser efficiently solves and multiple-length hawser was used to cause to waste or cross short length hawser in the prior art lead
The problem of causing cable breaks in traction or fixation procedure, setting 104 slot bottom diameter of diversion groove is with 101 diameter of outer layer than improving worker
Using rope body 1 when can also by hold diversion groove 104 improve worker's hand with restrict body 1 taking intensity.
Embodiment 2:
As shown in Fig. 2, the present embodiment advanced optimized on the basis of embodiment 1 for:Cuboid cushion chamber is set in reinforcement block 105
Rectangular-shape the buffer body 105a, buffer body 105a and cushion chamber of silver-colored material are connected on mono- inner surface of 105b, cushion chamber 105b
105b volume ratios are preferably 0.84:1, when stormy waves or solids contact with rope body 1 and cause impact, impact force acts on first to be added
On strong block 105,105 inside setting cuboid cushion chamber 105b Formation cross-sections of reinforcement block are " mouth " font, and impact force is along reinforcement block
105 surfaces are transferred to 105 bottom surrounding of reinforcement block, make 105 bottom of reinforcement block generate micro deformation squeezed to groove 105d until
Reinforcement block 105 fills up groove and forms sealing, also reinforces reinforcement block 105 simultaneously and the tautness realization of outer layer 101 is impacted in stormy waves
It is lower to improve rope 1 surface strength of body, while buffer body 105a is set in cushion chamber 105b, avoid the too strong reinforcement block of the impact being subject to
105 deformation quantities are excessive, improve the intensity of reinforcement block 105 using buffer body 105a and play a supporting role, the buffer body of silver-colored material
There is 105a good ductility, which largely to bear the impact force that reinforcement block 105 is subject to, makes buffer body 105a deformation make reinforcement block again
105 bottoms generate deformation to groove 105d, control buffer body 105a and cushion chamber 105b volume ratios come ensure buffer body 105a with
Sealing cavity is formed in cushion chamber 105b, a part of impact force is buffered using sealing cavity, rope body 1 with harbour spud pile or its
During the contact of his object, the sealing cavity of formation can form extruding force that flexible buffer makes to be formed between rope body 1 and contactant through close
It seals cavity to alleviate, reduces the extruding force that rope body 1 is formed with contactant surface, reduce rope body 1 and fix or stretch with contactant surface
When damage, by the reinforcement block 105 of said structure design absorb a large amount of stormy waves or solids impact force reduce stormy waves or
Impact of the solids to 1 internal part of body of restricting, stability, intensity of the rope body 1 in stormy waves or shock are improved, and avoid rope body
1 is broken in stormy waves or shock.
Reinforcement block 105 is prepared using carbon fibre composite, which is made of following component and parts by weight:Copolymerization
28 parts of polypropylene, 2.3 parts of polylactic acid, 17 parts of carbon fiber, 7 parts of maleic anhydride inoculated polypropylene, maleic anhydride grafting EPDM
2.2 parts of rubber, 7.5 parts of smoke sheet rubber, 0.4 part of carbon black, 0.53 part of rare earth contain l-lactic acid and dextrorotation polylactic acid in polylactic acid
Weight ratio be 80:0.78, the rational proportion of l-lactic acid and dextrorotation polylactic acid can increase maleic anhydride grafting in polylactic acid
The encompassing performance of polypropylene and maleic anhydride grafting ethylene propylene diene rubber so that copolymer polypropylene, carbon fiber, smoke sheet rubber triplet
System has synergistic effect well, more apparent to the reinforcing effect of composite material, while can make carbon fiber orderly perpendicular to compound
Material surface gives full play to the superior function of carbon fiber acicular texture, improves the impact resistance of composite material, and can reduce and add
The molding difficulty of strong block 105, improves the ratio of briquetting of reinforcement block 105, and the rational proportion of each ingredient to strengthen in the composite material
Block 105 have both excellent intensity, toughness with, impact, corrosion resistance and photooxidation aging property, meet mechanical property requirements,
Aging life-span requires and fatigue of materials performance requirement, mechanical property are slightly below steel mechanics performance.
105 surface of reinforcement block is equipped with arc surfaced diversion division 105c, and the radian of diversion division 105c cambered surfaces is preferably 84 °, water conservancy diversion
Highly preferred portion's 105c cambered surfaces are 0.15cm, and diversion division 105c spacing is preferably 0.25cm, have the diversion division 105c of arc surfaced
Changeable high stormy waves is linear by rope 1 airflow on surface of body, reaches and improves the speed of seawater or wind by 1 surface of rope body, reduces rope
1 skin resistance of body ensures stability of the rope body 1 in stormy waves, and diversion division 105c also makes 1 surface of rope body less smooth, ocean life
Object is not easy to adhere to, even if there is marine organisms attachment, seawater or wind are added by air-flow linear change during rope 1 surface of body
Speed forms the marine organisms of attachment the amount of blowing increasing and achievees the effect that remove rope body 1 surface marine biology, preferably diversion division
Flow velocity when cambered surface height, the spacing of 105c makes seawater or wind by rope body 1 obtains preferable coupling effect, and testing surface is excessively high
Or too low cambered surface height can weaken stability of the rope body 1 in stormy waves, when body 1 of restricting is contacted with harbour spud pile or other objects
The generation of the diversion division 105c of 75 ° ~ 118 ° of the radian of cambered surface and body surface contact or certain moving process in, change and contact object
The metal ion state on surface, makes metallic atom be separated with the oxygen of chemical combination and other nonmetalloids, reduces metal ion tendency ore deposit
The presence of object state, nominal-ultimate strength, nominal limit strength opposite linear relationship so as to fulfill contactant surface metal are degenerated
Delay, reduce the corrosion degree, that is, corrosion ratio on contactant surface, diversion division 105c can also and avoid sending out in rope body 1 and contactant surface
There is burr during raw movement outer layer 101 is caused to damage, pass through formula,
Wherein Y is 105 deformation ratio of reinforcement block, and K is diversion division 105c surface radians, and P is the extruding force that body is generated with contactant of restricting, and V is
Body of restricting generates the speed of displacement with contactant surface, and M is body 1 and the contactant contact surface area of restricting, excellent to have selected diversion division
The radian of 105c cambered surfaces is 75 ° ~ 118 °, and most preferably radian is 84 °, to ensure with the diversion division 105c in this arc range
To the reducing effect of contactant surface corrosion rate, realize that contactant surface quality obtains after being in contact between rope body 1 and contactant
It improves.
Embodiment 3:
As shown in Fig. 3,5, the present embodiment advanced optimized on the basis of embodiment 1 for:Rope 1 one end of body buckles 2 by hawser
Rope sling structure is formed, the rope body 1 in rope sling structure is connected with buffer unit 3, by buckleing 2 shapes by hawser in one end of rope body 1
Into rope sling structure can directly with harbour spud pile be socketed, it is simple and convenient, can also by buffer unit 3 again with the fixation on harbour
Connector connection in stake, can be effective particularly under high sea weather using buffer unit 3 to the power on hawser into row buffering
Hawser is broken due to the power being subject to is suddenly big or suddenly small when avoiding fixing or drawing using hawser.
Hawser buckles 2 and includes the button 202 that one side is connected with " u "-shaped retainer ring 201, the retainer ring 201 inside button 202
End is connected with baffle, is connected with bolt 204 in the middle part of baffle, the spiral shell contacted with 202 another side of button is connected on bolt 204
Mother 203, retainer ring are connected with arc sliver 201a on 201 inside, and body 1 of restricting passes through the rope sling for being formed after retainer ring 201 and being suitble to size, profit
It is realized with nut tightening bolt 204 and rope body 1 is reinforced, shaped to rope sling 1, and the sliver 201a set can improve retainer ring 201
The contact area of inner wall and rope body 1 strengthens fastening strength, prevent rope body 1 in 201 internal slide of retainer ring, and sliver 201a is set
1 surface of rope body can be played the effect on a degree of 1 surface of cleaning rope body by putting.
Buffer unit 3 includes a cable loop 301 for being used for connecting rope body 1, and cable loop 302 is connected by pull rod block 302
306 one end of housing, 306 other end of housing is connected with draw ring 305 by the pull rod 304 built in center, inside housing 306
304 surrounding of pull rod around setting spring 303,302 bottom surface of pull rod block that 306 internal tie of housing, 304 end is equipped be connected with
306 inner wall of housing slides up and down the snap-gauge 307 of connection, for avoid rope body 1 traction or with harbour spud pile fixed function process
In encounter that stress on body 1 of restricting in the case of stormy waves or unbalance stress is suddenly big or suddenly small to lead to the situation that body 1 is broken of restricting, design buffering dress
It puts 3 and rope body 1 uniform force under any circumstance is effectively ensured, the tension for reducing rope body 1 is realized by the design of spring 303, is kept away
Exempt from rope body 1 to be broken, 305 inside of draw ring is connected with the arc bracket 305a wide with draw ring 305, and optional bracket 305 is cut
Face is solid or hollow.The contact area of draw ring 305 and body 1 of restricting is improved by bracket 305a, changes original point contact shape
The mode contacted into line strengthens draw ring 305 and firmness is contacted with rope body 1, and the particularly reinforcement block 105 with 1 surface of rope body coordinates
Firmness further improves afterwards, ensures stability and intensity of the rope body 1 in traction or fixation procedure.
Embodiment 4:
A kind of using effect of Cable rope for ship with high intensity for the verification present invention, in Zhoushan, big Pukou harbour is tried
It tests, 10 Shou freighters is selected to be tested, wherein 5 Shou freighters select the hawser of the present invention to be fixed with harbour spud pile(Experimental group),
Another 5 Shou selects the hawser of market purchase to be fixed with harbour spud pile(Control group), it is fixed before to spud pile surface corrosion situation into
Row measures, and corresponding spud pile surface corrosion situation is measured again after 1 month, finds the spud pile surface corrosion face of experimental group
For product significantly lower than control group surface corrosion area, experimental group and the water film thickness variation on control group spud pile surface are as shown in Figure 6.
With reference to national standard《Anti-fouling paint model shallow sea soak test method》(GB/T 5370-2007), by the cable of the present invention
Rope(Experimental group), the hawser sold of market(Control group)The big Pukou harbour waters in Zhejiang Province Zhoushan is placed on, respectively at 1,3,6
Test sample is observed after month, the results are shown in table below, and the results are shown in table below.
By style title | 1 month | 3 months | 6 months |
Experimental group | 84 | 47 | 9 |
Control group | 100 | 90 | 84 |
As can be seen from the above table, marine organisms influence very little to the hawser of the present invention.
Buffer body 105a is not limited only to 0.8 ~ 0.9 with cushion chamber 105b volume ratios:1, it can also be 0.8:1 or 0.81:1 or
0.82:1 or 0.83:1 or 0.84:1 ... or 0.89:1 or 0.90:1;The radian of diversion division 105c cambered surfaces be not limited only to 75 ° ~
118 °, it can also be 75 ° or 75.1 ° or 75.2 ° or 75.3 ° or 75.4 ° or 75.5 ° ... or 117.9 ° or 118 °;Diversion division
105c cambered surfaces are highly not limited only to 0.1 ~ 0.2cm, can also be 0.1cm or 0.11cm or 0.12cm or 0.13cm or
0.14cm ... or 0.19cm or 0.2cm;Diversion division 105c spacing is not limited only to 0.2 ~ 0.3cm, can also be 0.2cm or
0.21cm or 0.22cm or 0.23cm ... or 0.29cm or 0.3cm;It is straight that 104 slot bottom diameter of diversion groove is not limited only to outer layer 101
0.92 ~ 0.95 times of diameter can also be 0.92 times or 0.93 times or 0.94 times or 0.95 times.
The routine operation or routine techniques of above-described embodiment are well known to those skilled in the art, herein without repeating.
Technical scheme of the present invention is described in detail in embodiment described above, it should be understood that the above is only
For specific embodiments of the present invention, it is not intended to restrict the invention, all any modifications made in the spirit of the present invention,
Supplement or similar fashion replacement etc., should all be included in the protection scope of the present invention.
Claims (8)
1. a kind of Cable rope for ship with high intensity, including inner core(102)Surrounding helical ring twines tensile cord(103)By outside
(101)The rope body of cladding(1), it is characterised in that:The outer layer(101)Surface is evenly equipped with the reinforcement block of half embedded connection(105),
Reinforcement block(105)With outer layer(101)Junction is equipped with groove(105d).
2. a kind of Cable rope for ship with high intensity according to claim 1, it is characterised in that:The reinforcement block(105)
Inside set cuboid cushion chamber(105b), cushion chamber(105b)The rectangular-shape buffer body of silver-colored material is connected on one inner surface
(105a), buffer body(105a)With cushion chamber(105b)Volume ratio is 0.8 ~ 0.9:1.
3. a kind of Cable rope for ship with high intensity according to claim 2, it is characterised in that:The reinforcement block(105)
Surface is equipped with arc surfaced diversion division(105c), diversion division(105c)The radian of cambered surface is 75 ° ~ 118 °, diversion division(105c)Cambered surface
It is highly 0.1 ~ 0.2cm, diversion division(105c)Spacing is 0.2 ~ 0.3cm.
4. a kind of Cable rope for ship with high intensity according to claim 1, it is characterised in that:The outer layer(101)Table
Face equidistantly opens up annular diversion groove(104), diversion groove(104)Slot bottom diameter is outer layer(101)0.92 ~ 0.95 times of diameter.
5. a kind of Cable rope for ship with high intensity according to claim 1, it is characterised in that:The rope body(1)One end
It is buckled by hawser in portion(2)Rope sling structure is formed, the rope body in rope sling structure(1)It is connected with buffer unit(3).
6. a kind of Cable rope for ship with high intensity according to claim 5, it is characterised in that:The hawser is buckled(2)Packet
It includes one side and is connected with " u "-shaped retainer ring(201)Button(202), positioned at button(202)Internal retainer ring(201)End connects
There is baffle, bolt is connected in the middle part of baffle(204), the bolt(204)On be connected with and button(202)Another side contact
Nut(203), the retainer ring(201)Arc sliver is connected on inside(201a).
7. a kind of Cable rope for ship with high intensity according to claim 5, it is characterised in that:The buffer unit(3)
Connecting rope body is used for including one(1)Cable loop(301), cable loop(302)Pass through pull rod block(302)Connect housing(306)
One end, housing(306)The other end passes through the pull rod built in center(304)It is connected with draw ring(305), positioned at housing(306)It is internal
Pull rod(304)Surrounding is around setting spring(303), the housing(306)Internal tie(304)The pull rod block that end is equipped with
(302)Bottom surface is connected with and housing(306)Inner wall slides up and down the snap-gauge of connection(307).
8. a kind of Cable rope for ship with high intensity according to claim 7, it is characterised in that:The draw ring(305)It is interior
Side is connected with and draw ring(305)Wide arc bracket(305a),
Optional bracket(305)Section is solid or hollow.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201711349203.1A CN108128408B (en) | 2017-12-15 | 2017-12-15 | A kind of Cable rope for ship with high intensity |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201711349203.1A CN108128408B (en) | 2017-12-15 | 2017-12-15 | A kind of Cable rope for ship with high intensity |
Publications (2)
Publication Number | Publication Date |
---|---|
CN108128408A true CN108128408A (en) | 2018-06-08 |
CN108128408B CN108128408B (en) | 2019-11-19 |
Family
ID=62390349
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201711349203.1A Active CN108128408B (en) | 2017-12-15 | 2017-12-15 | A kind of Cable rope for ship with high intensity |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN108128408B (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN113047072A (en) * | 2019-12-29 | 2021-06-29 | 盐城神力制绳有限公司 | Ultra-high molecular weight polyethylene cable |
Citations (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN2122117U (en) * | 1992-05-20 | 1992-11-18 | 林祖平 | Marine rope damper |
JPH1161661A (en) * | 1997-08-22 | 1999-03-05 | Naigai Seiko Kk | Rope for towing ship |
CN202176668U (en) * | 2011-08-25 | 2012-03-28 | 凯奇集团有限公司 | U-shaped cord fastener |
CN202244017U (en) * | 2011-09-26 | 2012-05-30 | 青岛天盾橡胶有限公司 | Fender capable of being arranged on ship board directly |
CN104015882A (en) * | 2014-06-17 | 2014-09-03 | 中国水产科学研究院淡水渔业研究中心 | Marine mooring rope |
CN205188693U (en) * | 2015-11-25 | 2016-04-27 | 东莞方皓汽车配件有限公司 | Elasticity antiskid rope |
CN107103943A (en) * | 2017-04-24 | 2017-08-29 | 成都新三电线厂 | Unleaded polyvinyl chloride insulation environment-friendly cable |
-
2017
- 2017-12-15 CN CN201711349203.1A patent/CN108128408B/en active Active
Patent Citations (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN2122117U (en) * | 1992-05-20 | 1992-11-18 | 林祖平 | Marine rope damper |
JPH1161661A (en) * | 1997-08-22 | 1999-03-05 | Naigai Seiko Kk | Rope for towing ship |
CN202176668U (en) * | 2011-08-25 | 2012-03-28 | 凯奇集团有限公司 | U-shaped cord fastener |
CN202244017U (en) * | 2011-09-26 | 2012-05-30 | 青岛天盾橡胶有限公司 | Fender capable of being arranged on ship board directly |
CN104015882A (en) * | 2014-06-17 | 2014-09-03 | 中国水产科学研究院淡水渔业研究中心 | Marine mooring rope |
CN205188693U (en) * | 2015-11-25 | 2016-04-27 | 东莞方皓汽车配件有限公司 | Elasticity antiskid rope |
CN107103943A (en) * | 2017-04-24 | 2017-08-29 | 成都新三电线厂 | Unleaded polyvinyl chloride insulation environment-friendly cable |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN113047072A (en) * | 2019-12-29 | 2021-06-29 | 盐城神力制绳有限公司 | Ultra-high molecular weight polyethylene cable |
Also Published As
Publication number | Publication date |
---|---|
CN108128408B (en) | 2019-11-19 |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN108128408A (en) | A kind of Cable rope for ship with high intensity | |
CN104927731B (en) | Sealant for repairing deepwater pipeline and preparation method for sealant | |
CN204875336U (en) | Wire rope is moulded to six strands of clamps | |
CN2811161Y (en) | Buoyancy chamber | |
CN108094284B (en) | Elastic tying and fixedly connecting type shallow sea aquaculture purse seine | |
CN106614196A (en) | Purse net double-layer big-small net mesh safety redundancy enhancing technology | |
JPH06158571A (en) | Mooring rope for buoy | |
CN101713204B (en) | Dredge pipe buoy and production method thereof | |
CN106900618A (en) | A kind of purse seine bilayer size mesh Safety Redundancy intensifying device | |
CN2811157Y (en) | High fixed articulated beacon | |
CN108797514A (en) | A kind of flat wave attenuating device of pipe support | |
CN208739934U (en) | A kind of fish net buoy | |
CN210716913U (en) | Anti-tearing connecting pipe | |
CN100390019C (en) | Eyelet light pole with high stagnation | |
CN207336745U (en) | A kind of titanium alloy strengthens polyurethane sonar dome peculiar to vessel | |
CN208209445U (en) | Mouth blocks under Submarine Optical/cable fan platform J-type pipe | |
CN217301931U (en) | PPR pipe | |
KR200411173Y1 (en) | A buoy for fishing gear | |
CN211118045U (en) | Corrosion-resistant PVC blow off pipe | |
CN216198681U (en) | Floating type offshore wind power device | |
CN220551509U (en) | Large glass fiber reinforced plastic self-operated flap valve | |
CN210258774U (en) | Anti-wind-wave buoy | |
CN212184761U (en) | Sinking nano oxygenation device | |
CN208362782U (en) | A kind of high intensity anticracking cable | |
CN218468548U (en) | Ageing-resistant and impact-resistant PVC drain pipe |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
PB01 | Publication | ||
PB01 | Publication | ||
SE01 | Entry into force of request for substantive examination | ||
SE01 | Entry into force of request for substantive examination | ||
GR01 | Patent grant | ||
GR01 | Patent grant |