CN105350813B - A kind of D braided composites transmission tower and preparation method thereof - Google Patents
A kind of D braided composites transmission tower and preparation method thereof Download PDFInfo
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- CN105350813B CN105350813B CN201510818814.0A CN201510818814A CN105350813B CN 105350813 B CN105350813 B CN 105350813B CN 201510818814 A CN201510818814 A CN 201510818814A CN 105350813 B CN105350813 B CN 105350813B
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Abstract
The present invention relates to a kind of D braided composites transmission tower and preparation method thereof, mix shaped three dimensional braid using multiple fiber, realize that flange connector answers the integrally formed 3 D weaving shaft tower preparation method of material slotless design with tower bar, prepared by the assorted fibre braiding structure that the different type rod piece at the positions such as shaft tower tower head, tower body and tower leg is transitioned into outer layer carbon fiber tri-dimensional fabric using core glass fibre three dimensional fabric, wherein skeleton is done in the glass fabric center of core using carbon fiber zero degree yarn.At the same time, it is attached between the rod piece of D braided composites shaft tower by the flange arrangement (embedded metal flange skeleton) woven in tower bar termination integration assorted fibre (carbon fiber and glass mix), the boots plate that tower leg is connected with ground base uses full carbon fiber three-dimensional braided structure.Assembling application of the D braided composites transmission tower component suitable for polytype transmission tower of the multiple material flange connection of band can be prepared using this method.
Description
Technical field
The present invention relates to a kind of D braided composites transmission tower and preparation method thereof, belong to composite material power transmission rod
Tower preparing technical field.
Background technology
Shaft tower is the important and extraordinary support knot of the infrastructure such as power Transmission, communication, high-speed railway and municipal administration
Structure facility, the structural behaviour of shaft tower directly influence the security, economy and reliability of variety classes circuit.From the material of shaft tower
From the point of view of matter development, the shaft tower applied both at home and abroad in overhead transmission line mainly has wooden shaft tower, concrete shaft tower or prestressing force
Concrete shaft tower, concrete filled steel tube shaft tower, all-metal material shaft tower (steel pipe tower or steel tower etc.) several classes.
Wherein wooden shaft tower is mainly used in area of the forest reserves such as Canada and the U.S. compared with horn of plenty, concrete or pre-
Prestressed concrete shaft tower is mainly used in the more poor area of the forest reserves such as South America, Europe, Africa, Asia or development
Country.For China, wooden shaft tower is not used substantially, was once largely used on 35-110V circuits before concrete shaft tower,
Also arrived certain application in 330KV and the transport of following circuit and the preferable Plain of execution conditions and hilly country, steel pipe tower and
Concrete filled steel tube shaft tower is applied more in Construction of Intercity Network in recent years and transformation.Traditional transmission tower was using
Receive the test of natural environment in journey for a long time, there are quality is heavy, perishable, corrosion or the shortcomings of cracking, environment durability degree is poor,
Especially its service life is more insufficient in the natural environments such as desert solarization, the moist erosion of seawater and dust storm deflation.In face of this
The shaft tower that kind goes wrong will be repaired or replaced, and difficulty is larger, it, which is constructed, transports and run extremely difficult.Therefore at present
Larger potentiality have gradually been given play in application of the fibrous composite in transmission tower.
Current composite material quality transmission tower is mainly using discontinuous staple fiber as concrete reinforced fiber material
With by the use of continuous fiber composite material muscle material as two kinds of reinforcing bar alternative materials, there is a kind of transmission tower of full composite material to lead to
It is often Wrapping formed by prepreg tape using polymer matrix composites.To sum up, the structure of conventional composite materials shaft tower is typically each
Prepared using the enhancing of zero dimension discrete chopped strand or continuous fiber two dimension winding form, and for being used under complex environment
Shaft tower, on the one hand will be tested be subject to environmental factor, on the other hand also have stronger mechanics durability degree to be subjected to transmission line of electricity
Pulling force and lateral wind fatigue load, this mechanics either environmental test for conventional composite materials such as zero dimension or two dimensions
More harsh for enhanced form, there is also problems, particularly composite material interlayer from the point of view of current applicable cases
The destruction at interface is always that such a composite material pole tower the centrostigma of defect occurs, in addition the tower of high-voltage transmission line pole tower
Head, tower body and column foot combination need truss to connect mostly, and the connection mode of conventional composite materials built-in metal component is also deposited
In more fault of construction hidden danger.
The content of the invention
It is contemplated that overcome the deficiencies of the prior art and provide a kind of D braided composites transmission tower and its preparation
Method, the performance of composite material transmission tower and the purpose of durability degree are further improved to realize.
In order to achieve the above object, the present invention uses following technical scheme:
A kind of D braided composites transmission tower, including sequentially connected tower head, tower body and tower leg, tower head include horizontal stroke
Load rod piece and the supporting bar being connected between tower body and cross-arm rod piece;Tower body includes the main limb of tower body and is connected to tower body master
Tower body supporting rod between limb;Tower leg includes the main limb of tower leg and the tower leg supporting rod being connected between the main limb of tower leg;The tower head,
All parts in tower body and tower leg all include 3 D weaving skeleton and resin matrix;
3 D weaving skeleton includes the glass fabric of core and is wrapped in outermost hybrid fabrics transition zone,
The inside of the glass fabric sets carbon fiber zero degree yarn skeleton.
Carbon fiber zero degree yarn improves integral composite shaft tower rigidity, in the braiding process of tower bar component as skeleton
In dosage along cross-section radial from inside to outside of adjustment carbon fiber and glass fibre in real time, realize core part fiber and outer fiber ratio
Natural transition change so that formed hybrid fabrics entirety.
Preferably, the setting position of the cross-arm body of rod is embedded into ceramic insulation terminal.
It is further preferred that the hybrid fabrics transition zone is by the one or more and glass in T300, T700, T800
Glass fiber shuffling forms, and the glass fabric is formed by high-strength S is fiberglass braided.
Preferably, the flange arrangement of connection function has been both provided with all parts in the tower head, tower body and tower leg,
Each flange arrangement includes flange skeleton and the 3 D weaving flange layer being coated on the outside of flange skeleton.
It is further preferred that the flange skeleton is metal flange skeleton, the 3 D weaving flange layer is by flange skeleton
An entirety is connected as with main body.The metal material of metal flange skeleton is stainless steel or special steel alloy.
Preferably, the thickness of the cross-arm rod piece of the tower head and the carbon fiber zero degree yarn skeleton of supporting bar is cross-arm rod piece
The 5-10% of section radius;Or the type of weave of glass fabric be three-dimensional four-way, three-dimensional five to, three-dimensional six to or three-dimensional seven
One or more in, the thickness of glass fabric account for the 70-80% of cross-arm bar cross section radius;Or the assorted fibre
Transition zone is formed by carbon fiber and high-strength glass fibre shuffling, and ratio of the carbon fiber in blended yarns is more than 90%, is mixed
The type of weave of fiber transition zone using three-dimensional four-way, three-dimensional five to, three-dimensional six to or three-dimensional seven one or more in.
Preferably, the thickness of the carbon fiber zero degree yarn skeleton of the main limb of the tower body of the tower body is the main limb section radius of tower body
10-15%, the thickness of the carbon fiber zero degree yarn skeleton of tower body supporting rod are the 5-10% of the radius of tower body supporting rod;Or tower body master
The type of weave of the glass fabric of limb and tower body supporting rod be three-dimensional four-way, three-dimensional five to, three-dimensional six to or three-dimensional seven to
In one or more;Or the thickness of the glass fabric of the main limb of tower body accounts for the 60-70% of the main limb section radius of tower body, tower
The thickness of the glass fabric of body supporting rod accounts for the 70-80% of tower body supporting rod section radius;Or the main limb of the tower body and tower
In the assorted fibre transition zone of body supporting rod, ratio of the carbon fiber in blended yarns is more than 95%, assorted fibre transition zone
Type of weave using three-dimensional four-way, three-dimensional five to, three-dimensional six to or three-dimensional seven one or more in.
Preferably, the thickness of the carbon fiber zero degree yarn skeleton of the main limb of the tower leg of the tower leg is the main limb section radius of tower leg
15-20%, the thickness of the carbon fiber zero degree yarn skeleton of tower leg supporting rod are the 5-10% of the radius of tower leg supporting rod;Or tower leg master
The type of weave of the glass fabric of limb and tower leg supporting rod be three-dimensional four-way, three-dimensional five to, three-dimensional six to or three-dimensional seven to
In one or more;Or the thickness of the glass fabric of the main limb of tower leg accounts for the 50-60% of the main limb section radius of tower leg, tower
The thickness of the glass fabric of leg supporting rod accounts for the 70-80% of tower leg supporting rod section radius;Or the main limb of the tower leg and tower
In the assorted fibre transition zone of leg supporting rod, ratio of the carbon fiber in blended yarns is more than 95%, assorted fibre transition zone
Type of weave using three-dimensional four-way, three-dimensional five to, three-dimensional six to or three-dimensional seven one or more in.
Preferably, the carbon fibre thread in the 3 D weaving flange layer accounts for more than the 50% of blended yarns dosage, or three
Seamless three-dimensional weaves between dimension braiding flange layer and rod piece main body, type of weave be three-dimensional four-way, three-dimensional five to, three-dimensional six to or
Three-dimensional seven one or more in.
Preferably, the resin matrix is the modified resin of thermosetting resin and the compound preparation of thermoplastic resin;It is or described
Thermosetting resin is epoxy resin, the one or more in phenolic resin, unsaturated polyester resin, and the thermoplastic resin is poly-
One or more in urethane resin, polyphenylene sulfide or polyimide resin, thermosetting resin and thermoplastic resin are matched somebody with somebody
Than depending on the working environment of transmission tower and mechanical property requirements are specific.The mechanics of comprehensive thermosetting property and thermoplastic resin is special
Point, makes impact resistance of rigidity of the composite material pole tower i.e. with thermosetting resin but also with thermoplastic resin.
A kind of preparation method of D braided composites transmission tower, mainly includes the following steps that:
1) all parts of transmission tower are individually woven, ceramic insulation end is embedded into the setting position of cross-arm rod piece
Son;
2) in the pre-buried flange skeleton of all parts of transmission tower and the junction of miscellaneous part, and in the outer of flange skeleton
Side weaves 3 D weaving flange layer, and seamless knitted is carried out between main body rod piece;
3) woven all parts difference vacuum is imported into resin matrix, curing molding;
4) all parts of curing molding are linked in sequence, up to D braided composites transmission tower.
Preferably, in step 3), the vacuum that vacuum imports is 0.06-0.1MPa;Or cured temperature is 80-120 DEG C,
Hardening time is 2-4h.
The D braided composites transmission tower answering in power Transmission, communication, high-speed railway and municipal administration
With.
D braided composites be it is a kind of with three-dimensional preform fabric construction with high performance resin is compound is similar to
The characteristics of high-performance composite materials of homogeneous material, no interlayer structure weakening strength, in precursor structure, fiber is mutually handed over
Knit, direction has the characteristics that arbitrary orientation, identical from the proportion of fibers for spatially realizing plane all directions so that effectively
Lamination problem in the Two-dimensional Composites avoided;3 D weaving can realize a knitting forming of various complicated shapes, real
The uniformity of the mechanical property of component is showed;In addition 3 D weaving can realize being used in mixed way for multiple fiber, give full play to each
The overall characteristic of kind fiber, while be molded with high performance resin composite curing, it is suitable for complex environment and mechanical requirements.
The beneficial effects of the invention are as follows:
(1) present invention is by flange connector and the seamless integrally formed 3 D weaving shaft tower of tower bar composite structure
Preparation method, the D braided composites transmission tower component that flanged connection structure can be prepared using this method are suitable for
The assembling application of polytype transmission tower.
(2) present invention uses new assorted fibre (carbon fiber, high-strength fiber glass) transition integrated three-dimensional braided structure, will
High intensity S glasses and high-strength carbon fiber apply in the preparation of composite material pole tower at the same time, have effectively played two kinds of fibers
High intensity and rigidity, effectively improve the mechanical property of composite material pole tower.
(3) D braided composites transmission tower of the invention, " carbon fiber center bone is used by section core to surface
The transition combination of frame structure-high intensity S glass inner core three dimensional fabrics structure-high-strength carbon fiber hybrid three-dimensional braiding structure ", it is whole
A structural transition realizes adjustment by the yarn amount ratio of 3 D weaving yarn, forms the overall three dimensional fabric structure of no boundary layer.
(4) connection mode that core crab in metal flange adds full carbon fiber tri-dimensional fabric outer surface is employed, eventually through
Resin vacuum introductory technique realizes the preparation of the integral composite shaft tower part with three-dimensional braided structure flange connector, 3 D weaving
Flange can effectively improve the mechanical coupling strength of different shaft tower parts from core crab in metal flange, ensure that the mechanics of shaft tower entirety is firm
Degree and use environment durability degree.
Brief description of the drawings
Fig. 1 is the cross-arm member structure schematic diagram of the present invention;
Fig. 2 is the main limb of tower body of the present invention or the structure diagram of the main limb of tower leg;
Fig. 3 is the tower body supporting rod of the present invention or the structure diagram of tower leg supporting rod.
Wherein, 1, carbon fiber center zero degree yarn skeleton, 2, glass fabric, 3, hybrid fabrics transition zone, 4, gold
Belong to flange skeleton, 5, surface three dimension braiding flange layer, 6, ceramic insulation terminal.
Embodiment
Embodiment 1
The preparation of shaft tower tower head cross-arm rod piece and supporting bar:Use T300 carbon fibers for zero degree yarn prepare cross-arm rod piece and
The carbon fiber center zero degree yarn skeleton 1 of supporting bar, the thickness of T300 carbon fiber zero degree yarns are to account for cross-arm bar and rod member
The 6% of section radius, it is three-dimensional to craft woven using three-dimensional five on the basis of carbon fibre thread skeleton after preparing zero degree yarn
Fabric cored structure, the structure braiding of the glass fabric 2 of core select high-strength S glasses to be carried out for material, whole braiding
Thickness accounts for the 75% of cross arm of tower bar and rod member section radius, and yarn is adjusted after the completion of the braiding of core glass three dimensional fabric
Line type simultaneously introduces T700 carbon fibers, and ratio of the carbon fiber in blended yarns accounts for 93%, select three-dimensional four-way braiding structure into
Row outer layer three dimensional fabric is processed, and the thickness of obtained hybrid fabrics transition zone 3 accounts for the 19% of body of rod section radius.In cross-arm
In the pre-buried ceramic insulation terminal 6 of carbon fiber hybrid fabrics specific location during rod piece braiding, in case cross-arm rod piece is led with transmission of electricity
The support connection of line.Metal flange skeleton 4 is embedded into the specific connecting portion of cross-arm and supporting rod, in metal flange skeleton 4
Surface prepares surface three dimension braiding flange layer 5 using T700 carbon fiber three-dimensional velocity fields.
The preparation of shaft tower tower body main limb, tower body supporting rod:T700 carbon fibers are used to prepare the main limb of shaft tower tower body for zero degree yarn
Carbon fiber center zero degree yarn skeleton 1, the thickness of carbon fiber center zero degree yarn skeleton 1 is to account for the main limb section radius of tower body
12%, the thickness of carbon fiber center zero degree yarn skeleton 1 accounts for the 8% of tower body supporting rod section radius;Using high-strength S glass fibers maintenance and operation
Glass fabric 2 is carried out with three-dimensional six to technology to prepare, the thickness of glass fabric 2 accounts for the main limb section radius of tower body
65%, account for the 75% of tower body supporting rod section radius;Yarn types are adjusted after the completion of core part fabric, are drawn in high-strength fiber glass yarn
Enter high-strength T300 carbon fibers, carbon fiber accounts for 96% in blended yarns, the blended yarns based on carbon fiber as tower body rod piece outside
Layer, selecting three-dimensional five, the thickness of hybrid fabrics transition zone 3 accounts for the 18% of the main limb section radius of tower body, accounts for braiding structure
The 15% of tower body supporting rod section radius.Metal flange skeleton 4 is embedded into the specific connecting portion of all parts, in metal method
Blue 4 surface of skeleton prepares 3 D weaving flange layer 5 using T800 carbon fibers three-dimensional five to braiding.
The preparation of the tower leg main limb, tower leg supporting rod of shaft tower tower leg:T800 carbon fibers are used to prepare shaft tower tower for zero degree yarn
The carbon fiber center zero degree yarn skeleton 1 of the main limb of leg, the thickness of T800 carbon fiber zero degree yarns are to account for the main limb section radius of tower leg
16%, zero degree yarn skeleton 1 thickness in carbon fiber center accounts for the 7% of tower leg supporting rod section radius;Used using high-strength S glass fibres
Three-dimensional four-way technology carries out glass fabric 2 and prepares, and the thickness of glass fabric 2 accounts for the main limb section radius of tower leg
55%, account for the 72% of tower leg supporting rod section radius;Yarn types are adjusted after the completion of core part fabric, are drawn in high-strength fiber glass yarn
Enter high-strength T300 carbon fibers, carbon fiber accounts for 97% in blended yarns, the blended yarns based on carbon fiber as tower leg rod piece outside
Layer, selecting three-dimensional seven, the thickness of hybrid fabrics transition zone 3 accounts for the 23% of the main limb section radius of tower leg, accounts for braiding structure
The 16% of tower leg supporting rod section radius.Metal flange skeleton 4 is embedded into the specific connecting portion of the main limb of tower leg, in metal method
Blue 4 surface of skeleton prepares 3 D weaving flange layer 5 using T800 carbon fiber three-dimensional four-way braidings.
After preparing the connection of boots plate using the three-dimensional four-way fabric construction of T700 carbon fibre threads selection, by above-mentioned preparation not
With composite material pole tower component using Special Resin (epoxy of the epoxy resin with polyurethane resin after mixed and modified:Polyurethane weight
Amount is than being 5:1) carry out vacuum and import shaping.Vacuum is maintained at 0.1MPa during vacuum imports, and solidification temperature is 110 DEG C, is cured
Time is 2h, and final composite material pole tower resin content is 40%.
It can effectively realize that composite material pole tower integrally assembles using the flange connection of above-mentioned different tower bars, while cross-arm
The pre-buried insulating ceramics terminal of rod piece can realize effective support of power transmission line.
Embodiment 2
The preparation of shaft tower tower head cross-arm rod piece and supporting bar:Use T300 carbon fibers for zero degree yarn prepare cross-arm rod piece and
The carbon fiber center zero degree yarn skeleton 1 of supporting bar, the thickness of T300 carbon fiber zero degree yarns are to account for cross-arm bar and rod member
The 7% of section radius, it is three-dimensional to craft woven using three-dimensional five on the basis of carbon fibre thread skeleton after preparing zero degree yarn
Fabric cored structure, the structure braiding of the glass fabric 2 of core select high-strength S glasses to be carried out for material, whole braiding
Thickness accounts for the 74% of cross arm of tower bar and rod member section radius, and yarn is adjusted after the completion of the braiding of core glass three dimensional fabric
Line type simultaneously introduces T300 carbon fibers, and ratio of the carbon fiber in blended yarns accounts for 92%, select three-dimensional four-way braiding structure into
Row outer layer three dimensional fabric is processed, and the thickness of obtained hybrid fabrics transition zone 3 accounts for the 19% of body of rod section radius.In cross-arm
In the pre-buried ceramic insulation terminal 6 of carbon fiber hybrid fabrics specific location during rod piece braiding, in case cross-arm rod piece is led with transmission of electricity
The support connection of line.Metal flange skeleton 4 is embedded into the specific connecting portion of cross-arm and supporting rod, in metal flange skeleton 4
Surface prepares surface three dimension braiding flange layer 5 using T300 carbon fiber three-dimensional velocity fields.
The preparation of shaft tower tower body main limb, tower body supporting rod:T800 carbon fibers are used to prepare the main limb of shaft tower tower body for zero degree yarn
Carbon fiber center zero degree yarn skeleton 1, the thickness of carbon fiber center zero degree yarn skeleton 1 is to account for the main limb section radius of tower body
15%, the thickness of carbon fiber center zero degree yarn skeleton 1 accounts for the 9% of tower body supporting rod section radius;Using high-strength S glass fibers maintenance and operation
Glass fabric 2 is carried out with three-dimensional five to technology to prepare, the thickness of glass fabric 2 accounts for the main limb section radius of tower body
60%, account for the 70% of tower body supporting rod section radius;Yarn types are adjusted after the completion of core part fabric, are drawn in high-strength fiber glass yarn
Enter high-strength T300 carbon fibers, carbon fiber accounts for 97% in blended yarns, the blended yarns based on carbon fiber as tower body rod piece outside
Layer, selecting three-dimensional seven, the thickness of hybrid fabrics transition zone 3 accounts for the 22% of the main limb section radius of tower body, accounts for braiding structure
The 16% of tower body supporting rod section radius.Metal flange skeleton 4 is embedded into the specific connecting portion of all parts, in metal method
Blue 4 surface of skeleton prepares 3 D weaving flange layer 5 using T300 carbon fiber three-dimensional four-way braidings.
The preparation of the tower leg main limb, tower leg supporting rod of shaft tower tower leg:T300 carbon fibers are used to prepare shaft tower tower for zero degree yarn
The carbon fiber center zero degree yarn skeleton 1 of the main limb of leg, the thickness of T300 carbon fiber zero degree yarns are to account for the main limb section radius of tower leg
18%, zero degree yarn skeleton 1 thickness in carbon fiber center accounts for the 8% of tower leg supporting rod section radius;Used using high-strength S glass fibres
Three-dimensional seven carries out glass fabric 2 to technology and prepares, and the thickness of glass fabric 2 accounts for the main limb section radius of tower leg
50%, account for the 70% of tower leg supporting rod section radius;Yarn types are adjusted after the completion of core part fabric, are drawn in high-strength fiber glass yarn
Enter high-strength T700 carbon fibers, carbon fiber accounts for 98% in blended yarns, the blended yarns based on carbon fiber as tower leg rod piece outside
Layer, selects three-dimensional four-way braiding structure, and the thickness of hybrid fabrics transition zone 3 accounts for the 32% of the main limb section radius of tower leg, accounts for
The 20% of tower leg supporting rod section radius.Metal flange skeleton 4 is embedded into the specific connecting portion of the main limb of tower leg, in metal method
Blue 4 surface of skeleton prepares 3 D weaving flange layer 5 using T800 carbon fiber three-dimensional velocity fields.
After preparing the connection of boots plate to fabric construction using T800 carbon fibre threads selection three-dimensional five, by above-mentioned preparation not
It is (unsaturated poly- with Special Resin of the composite material pole tower component using unsaturated polyester resin with polyurethane resin after mixed and modified
Ester resin:Weight polyurethane ratio is 8:1) carry out vacuum and import shaping.Vacuum is maintained at 0.08MPa during vacuum imports, and cures
Temperature is 115 DEG C, and hardening time 3h, final composite material pole tower resin content is 45%.
It can effectively realize that composite material pole tower integrally assembles using the flange connection of above-mentioned different tower bars, while cross-arm
The pre-buried insulating ceramics terminal of rod piece can realize effective support of power transmission line.
Embodiment 3
The preparation of shaft tower tower head cross-arm rod piece and supporting bar:Use T300 carbon fibers for zero degree yarn prepare cross-arm rod piece and
The carbon fiber center zero degree yarn skeleton 1 of supporting bar, the radius of T300 carbon fiber zero degree yarns are to account for cross-arm bar and rod member
The 9% of section radius, it is three-dimensional using three-dimensional four-way craft woven on the basis of carbon fibre thread skeleton after preparing zero degree yarn
Fabric cored structure, the structure braiding of the glass fabric 2 of core select high-strength S glasses to be carried out for material, whole braiding
Thickness accounts for the 70% of cross arm of tower bar and rod member section radius, and yarn is adjusted after the completion of the braiding of core glass three dimensional fabric
Line type simultaneously introduces T800 carbon fibers, and ratio of the carbon fiber in blended yarns accounts for 91%, select three-dimensional four-way braiding structure into
Row outer layer three dimensional fabric is processed, and the thickness of obtained hybrid fabrics transition zone 3 accounts for the 21% of body of rod section radius.In cross-arm
In the pre-buried ceramic insulation terminal 6 of carbon fiber hybrid fabrics specific location during rod piece braiding, in case cross-arm rod piece is led with transmission of electricity
The support connection of line.Metal flange skeleton 4 is embedded into the specific connecting portion of cross-arm rod piece and supporting rod, in metal flange bone
4 surface of frame prepares surface three dimension braiding flange layer 5 using T700 carbon fibers three-dimensional five to braiding.
The preparation of shaft tower tower body main limb, tower body supporting rod:T700 carbon fibers are used to prepare the main limb of shaft tower tower body for zero degree yarn
Carbon fiber center zero degree yarn skeleton 1, the thickness of carbon fiber center zero degree yarn skeleton 1 is to account for the main limb section radius of tower body
18%, the thickness of carbon fiber center zero degree yarn skeleton 1 accounts for the 7% of tower body supporting rod section radius;Using high-strength S glass fibers maintenance and operation
Glass fabric 2 is carried out with three-dimensional four-way technology to prepare, the thickness of glass fabric 2 accounts for the main limb section radius of tower body
62%, account for the 71% of tower body supporting rod section radius;Yarn types are adjusted after the completion of core part fabric, are drawn in high-strength fiber glass yarn
Enter high-strength T300 carbon fibers, carbon fiber accounts for 95% in blended yarns, the blended yarns based on carbon fiber as tower body rod piece outside
Layer, selecting three-dimensional five, the thickness of hybrid fabrics transition zone 3 accounts for the 20% of the main limb section radius of tower body, accounts for braiding structure
The 22% of tower body supporting rod section radius.Metal flange skeleton 4 is embedded into the specific connecting portion of all parts, in metal method
Blue 4 surface of skeleton prepares 3 D weaving flange layer 5 using T800 carbon fibers three-dimensional five to braiding.
The preparation of the tower leg main limb, tower leg supporting rod of shaft tower tower leg:T300 carbon fibers are used to prepare shaft tower tower for zero degree yarn
The carbon fiber center zero degree yarn skeleton 1 of the main limb of leg, the thickness of T300 carbon fiber zero degree yarns are to account for the main limb section radius of tower leg
14%, zero degree yarn skeleton 1 thickness in carbon fiber center accounts for the 7% of tower leg supporting rod section radius;Used using high-strength S glass fibres
Three-dimensional seven carries out glass fabric 2 to technology and prepares, and the thickness of glass fabric 2 accounts for the main limb section radius of tower leg
51%, account for the 69% of tower leg supporting rod section radius;Yarn types are adjusted after the completion of core part fabric, are drawn in high-strength fiber glass yarn
Enter high-strength T700 carbon fibers, carbon fiber accounts for 99% in blended yarns, the blended yarns based on carbon fiber as tower leg rod piece outside
Layer, selects three-dimensional velocity field structure, and the thickness of hybrid fabrics transition zone 3 accounts for the 35% of the main limb section radius of tower leg, accounts for
The 24% of tower leg supporting rod section radius.Metal flange skeleton 4 is embedded into the specific connecting portion of the main limb of tower leg, in metal method
Blue 4 surface of skeleton prepares 3 D weaving flange layer 5 using T700 carbon fiber three-dimensional velocity fields.Carbon fiber mixes weight with glass
Than for 2:1.
After preparing the connection of boots plate using the three-dimensional four-way fabric construction of T300 carbon fibre threads selection, by above-mentioned preparation not
It is (unsaturated with Special Resin of the composite material pole tower component using unsaturated polyester resin with polyphenylene sulfide after mixed and modified
Polyester resin:Polyphenylene sulfide weight ratio is 5:1) carry out vacuum and import shaping.Vacuum is maintained at 0.07MPa during vacuum imports,
Solidification temperature is 105 DEG C, and hardening time 2h, final composite material pole tower resin content is 42%.
It can effectively realize that composite material pole tower integrally assembles using the flange connection of above-mentioned different tower bars, while cross-arm
The pre-buried insulating ceramics terminal of rod piece can realize effective support of power transmission line.
Embodiment 4
The preparation of shaft tower tower head cross-arm rod piece and supporting bar:Use T700 carbon fibers for zero degree yarn prepare cross-arm rod piece and
The carbon fiber center zero degree yarn skeleton 1 of supporting bar, the radius of T700 carbon fiber zero degree yarns are to account for cross-arm bar and rod member
The 10% of section radius, after preparing zero degree yarn, using three-dimensional four-way craft woven three on the basis of carbon fibre thread skeleton
Dimensional fabric cored structure, the structure braiding of the glass fabric 2 of core selects high-strength S glasses to be carried out for material, whole to compile
Thickness accounts for cross arm of tower bar and rod member section radius 65% is knitted, is adjusted after the completion of the braiding of core glass three dimensional fabric
Yarn types simultaneously introduce T300 carbon fibers, and ratio of the carbon fiber in blended yarns accounts for 90%, select three-dimensional four-way braiding structure
Outer layer three dimensional fabric processing is carried out, the thickness of obtained hybrid fabrics transition zone 3 accounts for the 25% of body of rod section radius.In horizontal stroke
Carry on a shoulder pole in the pre-buried ceramic insulation terminal 6 of carbon fiber hybrid fabrics specific location during rod piece weaves, in case cross-arm rod piece is with transmitting electricity
The support connection of conducting wire.Metal flange skeleton 4 is embedded into the specific connecting portion of cross-arm rod piece and supporting rod, in metal flange
4 surface of skeleton prepares surface three dimension braiding flange layer 5 using T300 carbon fiber three-dimensional velocity fields.
The preparation of shaft tower tower body main limb, tower body supporting rod:T300 carbon fibers are used to prepare the main limb of shaft tower tower body for zero degree yarn
Carbon fiber center zero degree yarn skeleton 1, the thickness of carbon fiber center zero degree yarn skeleton 1 is to account for the main limb section radius of tower body
17%, the thickness of carbon fiber center zero degree yarn skeleton 1 accounts for the 8% of tower body supporting rod section radius;Using high-strength S glass fibers maintenance and operation
Glass fabric 2 is carried out with three-dimensional four-way technology to prepare, the thickness of glass fabric 2 accounts for the main limb section radius of tower body
61%, account for the 70% of tower body supporting rod section radius;Yarn types are adjusted after the completion of core part fabric, are drawn in high-strength fiber glass yarn
Enter high-strength T300 carbon fibers, carbon fiber accounts for 94% in blended yarns, the blended yarns based on carbon fiber as tower body rod piece outside
Layer, selecting three-dimensional five, the thickness of hybrid fabrics transition zone 3 accounts for the 22% of the main limb section radius of tower body, accounts for braiding structure
The 22% of tower body supporting rod section radius.Metal flange skeleton 4 is embedded into the specific connecting portion of all parts, in metal method
Blue 4 surface of skeleton prepares 3 D weaving flange layer 5 using T800 carbon fiber three-dimensional four-way braidings.
The preparation of the tower leg main limb, tower leg supporting rod of shaft tower tower leg:T300 carbon fibers are used to prepare shaft tower tower for zero degree yarn
The carbon fiber center zero degree yarn skeleton 1 of the main limb of leg, the thickness of T300 carbon fiber zero degree yarns are to account for the main limb section radius of tower leg
13%, zero degree yarn skeleton 1 thickness in carbon fiber center accounts for the 11% of tower leg supporting rod section radius;Using high-strength S glass fibers maintenance and operation
Glass fabric 2 is carried out with three-dimensional five to technology to prepare, the thickness of glass fabric 2 accounts for the main limb section radius of tower leg
50%, account for the 65% of tower leg supporting rod section radius;Yarn types are adjusted after the completion of core part fabric, are drawn in high-strength fiber glass yarn
Enter high-strength T700 carbon fibers, carbon fiber accounts for 92% in blended yarns, the blended yarns based on carbon fiber as tower leg rod piece outside
Layer, selects three-dimensional velocity field structure, and the thickness of hybrid fabrics transition zone 3 accounts for the 37% of the main limb section radius of tower leg, accounts for
The 24% of tower leg supporting rod section radius.Metal flange skeleton 4 is embedded into the specific connecting portion of the main limb of tower leg, in metal method
Blue 4 surface of skeleton prepares 3 D weaving flange layer 5, wherein T700 carbon fibers and glass using T700 carbon fibers three-dimensional five to braiding
Weight ratio 4:1.
After preparing the connection of boots plate using the three-dimensional four-way fabric construction of T300 carbon fibre threads selection, by above-mentioned preparation not
With composite material pole tower component using Special Resin (phenolic resin of the phenolic resin with polyurethane resin after mixed and modified:Poly- ammonia
Ester weight ratio is 6:1) carry out vacuum and import shaping.Vacuum is maintained at 0.08MPa during vacuum imports, and solidification temperature is 115 DEG C,
Hardening time is 2.5h, and final composite material pole tower resin content is 43%.
It can effectively realize that composite material pole tower integrally assembles using the flange connection of above-mentioned different tower bars, while cross-arm
The pre-buried insulating ceramics terminal of rod piece can realize effective support of power transmission line.
Although above-mentioned be described the embodiment of the present invention with reference to attached drawing, model not is protected to the present invention
The limitation enclosed, those skilled in the art should understand that, on the basis of technical scheme, those skilled in the art are not
Need to make the creative labor the various modifications that can be made or deformation still within protection scope of the present invention.
Claims (8)
- A kind of 1. D braided composites transmission tower, it is characterised in that:Including sequentially connected tower head, tower body and tower leg, Tower head includes cross-arm rod piece and the supporting bar being connected between tower body and cross-arm rod piece;Tower body includes the main limb of tower body and company The tower body supporting rod being connected between the main limb of tower body;Tower leg includes the main limb of tower leg and the tower leg being connected between the main limb of tower leg support Bar;All parts in the tower head, tower body and tower leg all include 3 D weaving skeleton and resin matrix;The 3 D weaving skeleton includes the glass fabric of core and is wrapped in outermost hybrid fabrics transition zone, The inside of the glass fabric sets carbon fiber zero degree yarn skeleton;The resin matrix is the modified resin of thermosetting resin and the compound preparation of thermoplastic resin;The thermosetting resin is ring One or more in oxygen tree fat, phenolic resin, unsaturated polyester resin, the thermoplastic resin is polyurethane resin, polyphenyl The proportioning of one or more in sulfide resin or polyimide resin, thermosetting resin and thermoplastic resin is according to transmission tower Working environment and mechanical property requirements it is specific depending on;The flange arrangement of connection function, each flange knot have been both provided with all parts in the tower head, tower body and tower leg Structure includes flange skeleton and the 3 D weaving flange layer being coated on the outside of flange skeleton;The flange skeleton is metal flange Flange skeleton and main body are connected as an entirety by skeleton, the 3 D weaving flange layer.
- 2. D braided composites transmission tower according to claim 1, it is characterised in that:The cross-arm bar of the tower head The thickness of part and the carbon fiber zero degree yarn skeleton of supporting bar is the 5-10% of cross-arm bar cross section radius;Or glass fabric Type of weave be three-dimensional four-way, three-dimensional five to, three-dimensional six to or three-dimensional seven one or more in, glass fabric Thickness accounts for the 70-80% of cross-arm bar cross section radius;Or the assorted fibre transition zone is by carbon fiber and high-strength glass fibre shuffling Forming, ratio of the carbon fiber in blended yarns is more than 90%, the three-dimensional four-way of type of weave use of assorted fibre transition zone, Three-dimensional five to, three-dimensional six to or three-dimensional seven one or more in.
- 3. D braided composites transmission tower according to claim 1, it is characterised in that:The tower body master of the tower body The thickness of the carbon fiber zero degree yarn skeleton of limb be the main limb section radius of tower body 10-15%, the carbon fiber zero degree yarn of tower body supporting rod The thickness of skeleton is the 5-10% of the radius of tower body supporting rod;Or the volume of the glass fabric of the main limb of tower body and tower body supporting rod Knit form be three-dimensional four-way, three-dimensional five to, three-dimensional six to or three-dimensional seven one or more in;Or the glass of the main limb of tower body The thickness of fabric accounts for the 60-70% of the main limb section radius of tower body, and the thickness of the glass fabric of tower body supporting rod accounts for tower body The 70-80% of supporting rod section radius;Or in the assorted fibre transition zone of the main limb of the tower body and tower body supporting rod, carbon fiber exists Ratio in blended yarns is more than 95%, the type of weave of assorted fibre transition zone using three-dimensional four-way, three-dimensional five to, it is three-dimensional Six to or three-dimensional seven one or more in.
- 4. D braided composites transmission tower according to claim 1, it is characterised in that:The tower leg master of the tower leg The thickness of the carbon fiber zero degree yarn skeleton of limb be the main limb section radius of tower leg 15-20%, the carbon fiber zero degree yarn of tower leg supporting rod The thickness of skeleton is the 5-10% of the radius of tower leg supporting rod;Or the volume of the glass fabric of the main limb of tower leg and tower leg supporting rod Knit form be three-dimensional four-way, three-dimensional five to, three-dimensional six to or three-dimensional seven one or more in;Or the glass of the main limb of tower leg The thickness of fabric accounts for the 50-60% of the main limb section radius of tower leg, and the thickness of the glass fabric of tower leg supporting rod accounts for tower leg The 70-80% of supporting rod section radius;Or in the assorted fibre transition zone of the main limb of the tower leg and tower leg supporting rod, carbon fiber exists Ratio in blended yarns is more than 95%, the type of weave of assorted fibre transition zone using three-dimensional four-way, three-dimensional five to, it is three-dimensional Six to or three-dimensional seven one or more in.
- 5. D braided composites transmission tower according to claim 1, it is characterised in that:The 3 D weaving flange Carbon fibre thread in layer is accounted for seamless three between more than the 50% of blended yarns dosage, or 3 D weaving flange layer and rod piece main body Dimension braiding, type of weave be three-dimensional four-way, three-dimensional five to, three-dimensional six to or three-dimensional seven one or more in.
- A kind of 6. preparation method of D braided composites transmission tower, it is characterised in that:Comprise the following steps:1)The all parts of transmission tower are individually woven, ceramic insulation terminal is embedded into the setting position of cross-arm rod piece;2)Compiled in the pre-buried flange skeleton of all parts of transmission tower and the junction of miscellaneous part, and in the outside of flange skeleton 3 D weaving flange layer is knitted, and seamless knitted is carried out between main body rod piece;3)Woven all parts difference vacuum is imported into resin matrix, curing molding;4)The all parts of curing molding are attached, up to D braided composites transmission tower.
- 7. preparation method according to claim 6, it is characterised in that:In step 3), the vacuum that vacuum imports is 0.06- 0.1MPa;Or cured temperature is 80-120 DEG C, hardening time 2-4h.
- 8. any D braided composites transmission towers of claim 1-5 power Transmission, communication, high-speed railway with And the application in municipal administration.
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CN108049693A (en) * | 2017-11-20 | 2018-05-18 | 国网河南省电力公司安阳供电公司 | A kind of composite material electric pole of braiding structure |
CN114075890A (en) * | 2021-12-06 | 2022-02-22 | 山东广域科技有限责任公司 | Composite material electric pole with woven structure |
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