CN106426977A - Vertical type composite material pipeline production line - Google Patents
Vertical type composite material pipeline production line Download PDFInfo
- Publication number
- CN106426977A CN106426977A CN201610765130.3A CN201610765130A CN106426977A CN 106426977 A CN106426977 A CN 106426977A CN 201610765130 A CN201610765130 A CN 201610765130A CN 106426977 A CN106426977 A CN 106426977A
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- Prior art keywords
- fiber
- composite material
- glass steel
- vertical
- steel band
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Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B29—WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
- B29C—SHAPING OR JOINING OF PLASTICS; SHAPING OF MATERIAL IN A PLASTIC STATE, NOT OTHERWISE PROVIDED FOR; AFTER-TREATMENT OF THE SHAPED PRODUCTS, e.g. REPAIRING
- B29C70/00—Shaping composites, i.e. plastics material comprising reinforcements, fillers or preformed parts, e.g. inserts
- B29C70/04—Shaping composites, i.e. plastics material comprising reinforcements, fillers or preformed parts, e.g. inserts comprising reinforcements only, e.g. self-reinforcing plastics
- B29C70/28—Shaping operations therefor
- B29C70/30—Shaping by lay-up, i.e. applying fibres, tape or broadsheet on a mould, former or core; Shaping by spray-up, i.e. spraying of fibres on a mould, former or core
- B29C70/32—Shaping by lay-up, i.e. applying fibres, tape or broadsheet on a mould, former or core; Shaping by spray-up, i.e. spraying of fibres on a mould, former or core on a rotating mould, former or core
- B29C70/323—Shaping by lay-up, i.e. applying fibres, tape or broadsheet on a mould, former or core; Shaping by spray-up, i.e. spraying of fibres on a mould, former or core on a rotating mould, former or core on the inner surface of a rotating mould
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B29—WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
- B29C—SHAPING OR JOINING OF PLASTICS; SHAPING OF MATERIAL IN A PLASTIC STATE, NOT OTHERWISE PROVIDED FOR; AFTER-TREATMENT OF THE SHAPED PRODUCTS, e.g. REPAIRING
- B29C33/00—Moulds or cores; Details thereof or accessories therefor
- B29C33/76—Cores
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- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Chemical & Material Sciences (AREA)
- Composite Materials (AREA)
- Moulding By Coating Moulds (AREA)
Abstract
The invention discloses a vertical type composite material pipeline production line. The upper end part of a vertical type rack is rotatably matched with the upper end part of a mold shaft; a circular pipe forming mechanism is arranged on the upper part of the vertical type rack; a fiber winding mechanism and a heating device are arranged on the vertical type rack below the circular pipe forming mechanism; the fiber winding mechanism is used for winding fiber soaked with resin on the outside of circumferential fiber; the heating device is located under the fiber winding mechanism; a pulling device is coaxially fixed to the lower end of the mold shaft and pulls a composite material pipe to move downwards; and a cutting machine is arranged on the vertical type rack under the pulling device. According to the vertical type composite material pipeline production line provided by the invention, a traditional horizontal type structure is adjusted to be an existing vertical type structure, so that the fiber can be prevented from deviating to one side of the mold shaft, and the structure strength of the composite material pipeline can be enhanced; and the vertical type structure is organically matched with a quartz sand adding mechanism, so that quartz sand can be added densely, and the usage amount of the fiber can be effectively reduced.
Description
Technical field
The invention belongs to pipeline production field, more particularly, to a kind of vertical composite material tube pipeline production line.
Background technology
Composite material conduit is that one kind uses extensive pipeline, and existing composite material tube pipeline production line is horizontal type structure,
Fiber is wrapped on mould shaft, and added with quartz sand outside fiber, and add quartz sand can effectively reduce the consumption of fiber,
Thus reducing the production cost of composite material conduit.
Existing horizontal composite material tube pipeline production line primary disadvantage is that:Due to adopting horizontal type structure, so fiber and stone
Sand can be partial on the downside of the axial line of mould shaft under gravity, so may result in fiber leakiness, thus affecting to manage
The structural strength in road;Meanwhile, horizontal type structure also result in quartz sand plus sand thickness can not be too thick, be so accomplished by more fibres
Dimension could be obtained the pipeline of desired thickness, and the high cost of fiber, thus can not effectively reduce the production cost of pipeline.
Content of the invention
The technical problem to be solved is to provide a kind of vertical composite material tube pipeline production line, pipeline to be improved
Structural strength.
Technical scheme is as follows:A kind of vertical composite material tube pipeline production line it is characterised in that:Including vertical machine
Frame (1) and traction apparatuss, wherein Vertical Rack (1) upper end are rotatably assorted with mould shaft (2) upper end being vertically arranged, this mould
Tool axle can rotate under electric rotating machine drives;Described Vertical Rack (1) top is provided with pipe formation mechanism, this pipe formation mechanism
By glass steel strip winding on described mould shaft (2), and above can form a pipe persistently moving down in mould shaft (2),
And this pipe follows mould shaft (2) synchronous rotary;
Vertical Rack (1) below described pipe formation mechanism is provided with fiber winding machine structure and heater (11), its
The fiber being impregnated with resin is wrapped in outside described ring fiber by middle fiber winding machine structure, and heater (11) is located at this fiber
Below winding mechanism, and the fiber being wrapped in outside ring fiber is heating and curing, thus forming composite material conduit;
Described traction apparatuss are coaxially fixed on mould shaft (2) lower end, and this traction apparatus traction composite material conduit is to moving down
Dynamic;Vertical Rack (1) below described traction apparatuss is provided with a cutting machine (12), and this cutting machine can cut through this
The composite material conduit of cutting machine, and the composite material conduit cutting carries and transported by travelling bogie.
The operation principle of the present invention is:The mould shaft being vertically arranged rotates under electric rotating machine drive, and outside mould shaft
Face is formed with pipe, and this pipe follows mould shaft synchronous rotary, and outside pipe be wound around fiber, the fiber outside pipe by plus
Thermal forms composite material conduit after being heating and curing, and composite material conduit bottom is passed through cut one during cutting machine (12)
Section, the composite material conduit cutting is carried and transported by travelling bogie.
Using above technical scheme, traditional horizontal type structure is adjusted to present vertical structure, thus can by the present invention
Prevent fiber be partial to mould shaft side, and now fiber under gravity toward clan under the mould shaft being vertically arranged, thus
Reach the effect of compacting fiber, and then the structural strength of reinforced composite pipeline.
As an important preferred version of the present invention, vertical between described pipe formation mechanism and fiber winding machine structure
Frame (1) is provided with a quartz sand sand adding mechanism, and this quartz sand sand adding mechanism includes quartz sand conveyer belt (4) and rotation seat
(7), wherein:Vertically it is provided with one plus sand hopper (5), this quartz sand conveyer belt will be containing tree below described quartz sand conveyer belt (4)
The quartz sand of fat is transported to and adds in sand hopper (5);Described sand hopper (5) empty set that adds, outside mould shaft (2), is somebody's turn to do plus sand hopper is provided with and shakes
Dynamic device (6), and add sand hopper (5) outer wall and fix with described rotation seat (7) top, on this rotation seat and described Vertical Rack (1)
Support base (8) is rotatably assorted, and rotation seat (7) can under drive component drives with mould shaft (2) synchronous axial system, thus by quartz
Sand is added to outside described pipe;Described plus sand hopper (5) lower end is coaxially provided with ring fiber yarn arranging loop (9), this ring fiber cloth yarn
Annular space is enclosed within outside described mould shaft (2), and by ring fiber cloth outside quartz sand, thus catching quartz sand.
Using said structure, quartz sand not only can be added, thus improving the performance of composite material conduit, and quartz sand
The organic cooperation of vertical structure of sand adding mechanism and the present invention, quartz sand also can be made to add, and sand is closely knit, thus increase quartz sand plus sand
Thickness, thus can effectively reduce the usage amount of fiber, thus reducing the purpose of composite material conduit production cost.
As the prioritization scheme of this case, described pipe formation mechanism includes mounting platform (13), glass steel band slope driving
Set (16) and annular reinforcing fiber yarn arranging loop (50), wherein mounting platform (13) is installed on described Vertical Rack (1), this installation
Platform top surface is provided with the first glass steel band loading assemblies and the second glass steel band loading assemblies, the structure phase of this two loading assemblies
Deng, and the second fiberglass loading assemblies are inside the first fiberglass loading assemblies;Described second fiberglass loading assemblies are by upper
Charging tray (14) and feeding shaft (15) are constituted, and wherein loading plate (14) empty set is in the vertical section on feeding shaft (15) top, this feeding shaft
Bottom fixing with described mounting platform (13), and the loading plate (14) in the second glass steel band loading assemblies is less than the first glass
Loading plate (14) in steel band loading assemblies;It is provided with cloth glue bar (10), this cloth glue inside described second glass steel band loading assemblies
Bar is vertically fixed on described mounting platform (13);
Described glass steel band slope driving set (16) empty set on described mould shaft (2) top, this glass steel band slope driving
Set upper side is fixed with described Vertical Rack (1) upper end, and the lower end of glass steel band slope driving set (16) is inclined-plane, and this inclined-plane exists
On same helix, and described glass steel band can be pushed down on, and make glass steel band be helically wound around described mould shaft (2)
Outside;Vertically it is provided with a fiberglass reinforced plastic pressurized wheel (17), this fiberglass reinforced plastic pressurized below described glass steel band slope driving set (16)
Take turns as supporting roller, and described mounting platform (13) upper surface is arranged on by installing rack (18), and fiberglass reinforced plastic pressurized wheel (17) energy
The spiral type glass steel band being wound around outside compaction mold axle (2);
Described annular reinforcing fiber yarn arranging loop (50) is located at mounting platform (13) lower surface, this annular reinforcing fiber yarn arranging loop
The annular reinforcing fiber being impregnated with resin can be wrapped in outside described spiral type glass steel band, thus forming described pipe.
Using above structure design, pipe formation mechanism can be effectively formed pipe, so that fiber is attached to outside pipe
Face, and the structure of this pipe formation mechanism is simple, reliability is high, and easy enforcement.Certainly, in specific implementation process, also may be used
With the pipe formation mechanism using other structures form, it is not limited only to the structure described in the present embodiment.
In the present case, described traction apparatuss are interior traction apparatuss, and include support tube (19) and live spindle (28), wherein
Support tube (19) is coaxially installed in described mould shaft (2) lower end, and this support tube is circumferentially arranged with one group of axial bar hole, each axle
It is provided with a conduction chain (20) in bar hole, the outer surface of this each chain link of conduction chain is provided with a traction blob of viscose
(21);Every described conduction chain (20) is located between drive sprocket (22) and driven sprocket (23), this drive sprocket with corresponding
Output chain gear engagement, the input bevel gear (25) on this transmission input shaft and vertical short axle on variator (24) output shaft
(26) bevel gear (27) of lower end often engages, and vertical short axle (26) is installed in described live spindle (28) lower end, and live spindle
(28) coaxially it is located at the center in the hole of described mould shaft (2), and mould shaft (2) synchronous axial system can be followed.
Using above structure, the traction apparatuss in the present embodiment are drawn using interior tractive manner, so as to effectively, can
Pipeline is driven to move down by ground.Certainly, the traction apparatuss of other structures form can also in specific implementation process, be adopted,
As external traction apparatus it is not limited to structure as described in the present embodiment.
In the present case, described fiber winding machine structure is cross winding mechanism, and circumferentially disposed along described mould shaft (2), and
Including fiber winding head (29) and feed screw nut's assembly, wherein there is fiber via on fiber winding head (29);Described fiber is wound around
Head (29) is slidably matched with vertical guide rod (30), and this vertical guide rod is fixed in mounting seat (31), and mounting seat is vertical with described
Frame (1) is fixing, and fiber winding head (29) is connected with mounting seat (31) by described feed screw nut's assembly, and can be in screw mandrel spiral shell
Female component effect is lower to be lifted.
Using above structure, it is possible to achieve cross winding, and the structure of fiber winding machine structure is simply it is easy to implement, reliable
Property high.
Beneficial effect:Traditional horizontal type structure is adjusted to present vertical structure by the present invention, so prevents from fiber
Deflection mould shaft side, thus can reinforced composite pipeline structural strength;And the vertical structure of the present invention and quartz
The organic cooperation of sand sand adding mechanism, quartz sand also can be made to add, and sand is closely knit, thus increase quartz sand plus sand thickness, thus can be effective
Reducing the usage amount of fiber, thus reducing the purpose of composite material conduit production cost, and then effectively overcoming existing horizontal
The defect of composite material tube pipeline production line.
Brief description
Fig. 1 is the structural representation of the present invention.
Fig. 2 is the partial enlarged drawing of part A in Fig. 1.
Specific embodiment
The invention will be further described with reference to the accompanying drawings and examples:
As shown in Figure 1, 2, a kind of vertical composite material tube pipeline production line, mainly by Vertical Rack 1, mould shaft 2, tubular
Mechanism, fiber winding machine structure and quartz sand sand adding mechanism is become to constitute.Wherein, the upper end of Vertical Rack 1 and the mould being vertically arranged
Tool axle 2 upper end is rotatably assorted, and this mould shaft 2 can rotate under electric rotating machine drives.Vertical Rack 1 top is provided with pipe and is formed
Mechanism, this pipe formation mechanism can be by glass steel strip winding on mould shaft 2, and formation one continues downwards on mould shaft 2
The pipe of movement, and this pipe follows mould shaft 2 synchronous rotary.
Pipe formation mechanism includes mounting platform 13, glass steel band slope driving set 16 and annular reinforcing fiber yarn arranging loop
50, wherein mounting platform 13 is installed on Vertical Rack 1, and the top surface of this mounting platform 13 is provided with the first glass steel band loading assemblies
With the second glass steel band loading assemblies, the structure of this two loading assemblies is equal, and the second fiberglass loading assemblies are located at first
Inside fiberglass loading assemblies.Second fiberglass loading assemblies are made up of loading plate 14 and feeding shaft 15, and wherein loading plate 14 is empty
It is enclosed within the vertical section on feeding shaft 15 top, the bottom of this feeding shaft 15 is fixing with mounting platform 13, and the second glass steel band feeding
Loading plate 14 in assembly is less than the loading plate 14 in the first glass steel band loading assemblies.In the second glass steel band loading assemblies
Inner side is provided with cloth glue bar 10, and this cloth glue bar 10 is vertically fixed on mounting platform 13.
Glass steel band slope driving covers 16 empty sets on mould shaft 2 top, the upper end of this glass steel band slope driving set 16 with
Vertical Rack 1 upper end is fixed.Glass steel band slope driving set 16 lower end be inclined-plane, this inclined-plane on same helix, and
Glass steel band can be pushed down on, and so that glass steel band is helically wound around outside mould shaft 2.Under glass steel band slope driving set 16
Fang Shuzhi is provided with a fiberglass reinforced plastic pressurized wheel 17, and this fiberglass reinforced plastic pressurized wheel 17 is supporting roller, and is arranged on peace by installing rack 18
Assembling platform 13 upper surface, and the spiral type glass steel band that fiberglass reinforced plastic pressurized wheel 17 energy compaction mold axle 2 outside is wound around.Annular strengthens
Fiber yarn arranging loop 50 is located at the lower surface of mounting platform 13, and this annular reinforcing fiber yarn arranging loop 50 can be impregnated with the annular of resin
Reinforcing fiber is wrapped in outside spiral type glass steel band, thus forming pipe.
As shown in figure 1, the Vertical Rack 1 below pipe formation mechanism is provided with fiber winding machine structure and heater 11,
Wherein the fiber being impregnated with resin is wrapped in outside ring fiber by fiber winding machine structure, and heater 11 is located at this fiber and is wound around
Below mechanism, and the fiber being wrapped in outside ring fiber is heating and curing, thus forming composite material conduit.
Fiber winding machine structure is cross winding mechanism, and circumferentially disposed along mould shaft 2, and includes fiber winding head 29 and silk
There is fiber via on stem nut assembly, wherein fiber winding head 29;Fiber winding head 29 is slidably matched with vertical guide rod 30, and this erects
Straight guide rod is fixed in mounting seat 31, and mounting seat is fixing with Vertical Rack 1, and fiber winding head 29 passes through feed screw nut's assembly
It is connected with mounting seat 31, and can lift under feed screw nut's assembly effect.
As shown in figure 1, the Vertical Rack 1 between pipe formation mechanism and fiber winding machine structure is provided with a quartz sand adding
Sand mechanism, this quartz sand sand adding mechanism includes quartz sand conveyer belt 4 and rotation seat 7, wherein:Quartz sand conveyer belt 4 lower section is vertically
It is provided with one plus sand hopper 5, the quartz sand containing resin is transported to and adds in sand hopper 5 by this quartz sand conveyer belt 4.Plus sand hopper 5 empty set
Outside mould shaft 2, sand hopper 5 should be added and be provided with vibrator 6, in the present case, vibrator 6 was located on the outer wall adding sand hopper 5.Plus sand
5 outer walls that struggle against are fixed with rotation seat 7 top, and this rotation seat 7 is rotatably assorted with the support base 8 on Vertical Rack 1, and rotation seat 7 can
With mould shaft 2 synchronous axial system under drive component drives, thus quartz sand is added to outside pipe.Plus sand hopper 5 lower end coaxially sets
Have ring fiber yarn arranging loop 9, this ring fiber yarn arranging loop 9 empty set in the outside of mould shaft 2, and by ring fiber cloth in quartz sand
Outside, thus catch quartz sand.
It will be seen from figure 1 that traction apparatuss are coaxially fixed on the lower end of mould shaft 2, composite is drawn in this traction apparatus
Pipeline moves down.Vertical Rack 1 below traction apparatuss is provided with a cutting machine 12, and this cutting machine 12 can cut off logical
Cross the composite material conduit of this cutting machine, and the composite material conduit cutting is carried and transported in time by travelling bogie.
In the present case, traction apparatuss are interior traction apparatuss, and include support tube 19 and live spindle 28, wherein support tube 19
Coaxially it is installed in mould shaft 2 lower end, this support tube, circumferentially arranged with one group of axial bar hole, is provided with one in each axial bar hole
Root conduction chain 20, the outer surface of this each chain link of conduction chain is provided with a traction blob of viscose 21.Every conduction chain 20 is located at
Between drive sprocket 22 and driven sprocket 23, this drive sprocket is engaged with the output chain gear on corresponding variator 24 output shaft, should
Input bevel gear 25 on transmission input shaft is often engaged with the bevel gear 27 of vertical short axle 26 lower end.Vertically short axle 26 is installed in
Live spindle 28 lower end, and live spindle 28 is coaxially located at the center in the hole of mould shaft 2, and mould shaft 2 synchronous axial system can be followed.
The foregoing is only presently preferred embodiments of the present invention, not with the present invention for limiting, all essences in the present invention
Any modification, equivalent and improvement made within god and principle etc., should be included within the scope of the present invention.
Claims (5)
1. a kind of vertical composite material tube pipeline production line it is characterised in that:Including Vertical Rack (1) and traction apparatuss, it is neutral
Open frame (1) upper end is rotatably assorted with mould shaft (2) upper end being vertically arranged, and this mould shaft can be under electric rotating machine drives
Rotate;Described Vertical Rack (1) top is provided with pipe formation mechanism, and this pipe formation mechanism can be by glass steel strip winding described
On mould shaft (2), and form a pipe persistently moving down on mould shaft (2), and this pipe follows mould shaft (2) together
Step rotation;
Vertical Rack (1) below described pipe formation mechanism is provided with fiber winding machine structure and heater (11), wherein fine
The fiber being impregnated with resin is wrapped in outside described ring fiber by dimension winding mechanism, and heater (11) is located at this fiber and is wound around
Below mechanism, and the fiber being wrapped in outside ring fiber is heating and curing, thus forming composite material conduit;
Described traction apparatuss are coaxially fixed on mould shaft (2) lower end, and this traction apparatus traction composite material conduit moves down;Institute
State the Vertical Rack below traction apparatuss (1) and be provided with a cutting machine (12), this cutting machine can cut through this cutting
Composite material conduit at machine, and the composite material conduit cutting carries and transported by travelling bogie.
2. vertical composite material tube pipeline production line according to claim 1 it is characterised in that:Described pipe formation mechanism with
Vertical Rack (1) between fiber winding machine structure is provided with a quartz sand sand adding mechanism, and this quartz sand sand adding mechanism includes stone
Sand conveyer belt (4) and rotation seat (7), wherein:Vertically it is provided with one plus sand hopper (5) below described quartz sand conveyer belt (4), should
Quartz sand containing resin is transported to and adds in sand hopper (5) by quartz sand conveyer belt;Described sand hopper (5) empty set that adds is in mould shaft (2)
Outside, should add sand hopper and be provided with vibrator (6), and add sand hopper (5) outer wall and fix with described rotation seat (7) top, this rotation seat
Be rotatably assorted with the support base (8) on described Vertical Rack (1), and rotation seat (7) can drive component drive under with mould shaft
(2) synchronous axial system, thus quartz sand is added to outside described pipe;Described plus sand hopper (5) lower end is coaxially provided with ring fiber cloth
Yarn ring (9), this ring fiber cloth yarn annular space is enclosed within outside described mould shaft (2), and by ring fiber cloth outside quartz sand, from
And catch quartz sand.
3. vertical composite material tube pipeline production line according to claim 1 it is characterised in that:Described pipe formation mechanism bag
Include mounting platform (13), glass steel band slope driving set (16) and annular reinforcing fiber yarn arranging loop (50), wherein mounting platform
(13) it is installed on described Vertical Rack (1), this mounting platform top surface is provided with the first glass steel band loading assemblies and the second glass
Steel band loading assemblies, the structure of this two loading assemblies is equal, and the second fiberglass loading assemblies are located at the first fiberglass feeding
Inside assembly;Described second fiberglass loading assemblies are made up of loading plate (14) and feeding shaft (15), and wherein loading plate (14) is empty
It is enclosed within the vertical section on feeding shaft (15) top, the bottom of this feeding shaft is fixing with described mounting platform (13), and the second fiberglass
It is less than the loading plate (14) in the first glass steel band loading assemblies with the loading plate (14) in loading assemblies;Described second fiberglass
It is provided with cloth glue bar (10), this cloth glue bar is vertically fixed on described mounting platform (13) inside band loading assemblies;
On described mould shaft (2) top, this glass steel band slope driving puts described glass steel band slope driving set (16) empty set
End is fixed with described Vertical Rack (1) upper end, and the lower end of glass steel band slope driving set (16) is inclined-plane, and this inclined-plane is same
On root helix, and described glass steel band can be pushed down on, and make glass steel band be helically wound around described mould shaft (2) outward
Face;Vertically it is provided with a fiberglass reinforced plastic pressurized wheel (17), this fiberglass reinforced plastic pressurized wheel below described glass steel band slope driving set (16)
For supporting roller, and described mounting platform (13) upper surface is arranged on by installing rack (18), and fiberglass reinforced plastic pressurized wheel (17) can be pressed
The spiral type glass steel band being wound around outside tight mould shaft (2);
Described annular reinforcing fiber yarn arranging loop (50) is located at mounting platform (13) lower surface, and this annular reinforcing fiber yarn arranging loop can be by
The annular reinforcing fiber being impregnated with resin is wrapped in outside described spiral type glass steel band, thus forming described pipe.
4. vertical composite material tube pipeline production line according to claim 1 it is characterised in that:Described traction apparatuss are interior leading
Leading-in device, and include support tube (19) and live spindle (28), wherein support tube (19) is coaxially installed under described mould shaft (2)
End, this support tube, circumferentially arranged with one group of axial bar hole, is provided with a conduction chain (20), this leads in each axial bar hole
The outer surface drawing each chain link of chain is provided with traction blob of viscose (21);Every described conduction chain (20) is located at drive sprocket
(22) and driven sprocket (23) between, this drive sprocket is engaged with the output chain gear on corresponding variator (24) output shaft, this change
Input bevel gear (25) on fast device input shaft is often engaged with the bevel gear (27) of vertical short axle (26) lower end, vertical short axle (26)
It is installed in described live spindle (28) lower end, and live spindle (28) is coaxially located at the center in the hole of described mould shaft (2), and can
Follow mould shaft (2) synchronous axial system.
5. vertical composite material tube pipeline production line according to claim 1 it is characterised in that:Described fiber winding machine structure is
Cross winding mechanism, and circumferentially disposed along described mould shaft (2), and include fiber winding head (29) and feed screw nut's assembly, its
There is fiber via on middle fiber winding head (29);Described fiber winding head (29) and vertical guide rod (30) are slidably matched, and this is vertical
Guide rod is fixed in mounting seat (31), and mounting seat is fixing with described Vertical Rack (1), and fiber winding head (29) is by described
Feed screw nut's assembly is connected with mounting seat (31), and can lift under feed screw nut's assembly effect.
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CN107150450A (en) * | 2017-06-06 | 2017-09-12 | 浙江鑫宙竹基复合材料科技有限公司 | The automatic production line and production method of a kind of bamboo winding car body |
CN108162434A (en) * | 2018-02-26 | 2018-06-15 | 蒋丰亮 | A kind of vertical continuous fiber dragger for PE heavy caliber fiber reinforcement pipelines |
CN109367074A (en) * | 2018-12-12 | 2019-02-22 | 南京诺尔泰复合材料设备制造有限公司 | The vertical extruder of continuous fiber reinforced composite materials |
CN109676889A (en) * | 2018-12-29 | 2019-04-26 | 宁波方力科技股份有限公司 | A kind of plastic conduit enhancing band winding mechanism |
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