CN110281551A - It is a kind of suitable for the wind electricity blade girder production equipment of carbon fiber pultrusion plate - Google Patents

Abstract

It is disclosed by the invention a kind of suitable for the wind electricity blade girder production equipment of carbon fiber pultrusion plate, including fuselage, top is equipped with rotation chamber in the fuselage, the rotation chamber upper right wall is fixedly connected with motor, rotation chamber upper left wall is fixedly connected with hydraulic device, the rotation chamber lower right is equipped with raw material cavity, pressuring plate is slidably connected in the raw material cavity, level-one dipping tank is equipped with below the raw material cavity, outer layer material chamber is equipped on the right side of the raw material cavity, lower section is equipped with level-one device for screwing up in the rotation chamber, the present invention makes carbon fiber material become fibre bundle by increasing pressure, wrap up cladding material dipping again after core layer raw material impregnates, effectively raise the intensity of material, carbon fiber is erected by machine driving and is tightened by the present invention, and it is stretched in transmission, again by shaping mould finally, whole process is carried out continuously, Improve production efficiency.

Description

It is a kind of suitable for the wind electricity blade girder production equipment of carbon fiber pultrusion plate

Technical field

It is specially a kind of suitable for wind electricity blade girder carbon fiber pultrusion plate the present invention relates to field of wind power equipment Production equipment.

Background technique

As the technology of wind-powered electricity generation related industry constantly upgrades, the length of wind electricity blade is increasingly longer at present, and blade loss of weight Demand is also increasingly urgent, carbon fiber pultruded panels intensity height and light weight, it has also become the best selection of wind electricity blade, pultrusion are A kind of technique of quantity-produced after the fiber for impregnating resin is formed by mold squeezing action, but current production equipment In there is no a mechanical equipment that can be produced automatically of complete set, therefore design one kind is suitable for wind electricity blade girder carbon The production equipment of fiber pultrusion plate.

Summary of the invention

Technical problem:

Existing extruding equipment is incomplete, and the degree of automation is not high.

To solve the above problems, this example devises a kind of production suitable for wind electricity blade girder carbon fiber pultrusion plate Equipment, including fuselage, top is equipped with rotation chamber in the fuselage, and the rotation chamber upper right wall is fixedly connected with motor, and described turn Dynamic chamber upper left wall is fixedly connected with hydraulic device, and the rotation chamber lower right is equipped with raw material cavity, is slidably connected in the raw material cavity There is a pressuring plate, level-one dipping tank is equipped with below the raw material cavity, be equipped with outer layer material chamber on the right side of the raw material cavity, in the rotation chamber Lower section is equipped with level-one device for screwing up, and second steepwater slot is equipped on the right side of the level-one device for screwing up, is set on the right side of the second steepwater slot There is a second level device for screwing up, be equipped with shaping mould on the right side of the second level device for screwing up, when work, raw material is out of described raw material cavity described Become several fibre bundle outflows under the action of pressuring plate, is tightened by reaching the level-one after level-one dipping tank dipping Device becomes one fiber stick, and the fibre bundle that the outer layer material chamber provides outer layer covers passes through institute by the second steepwater slot State fiber stick and outer layer covers after second level device for screwing up to be tightened to together, finally be formed under the action of described, it is cooling after To complete carbon fiber pultrusion plate material, pass through the stretching of the motor control fibre bundle and the molding of carbon fiber board, entire mistake Cheng Liandong together, improves production efficiency.

Further, the hydraulic device has been connected by power hydraulic stem, and the hydraulic stem is fixedly connected with the pressuring plate, It is equipped with hole sizer below the raw material cavity, the first horizontal axis is rotatably connected in the level-one dipping tank, first horizontal axis is fixed to be connected It is connected to the first dipping wheel, level-one dipping tank right is equipped with level-one mouth, is rotatably connected to the second horizontal axis, institute in the level-one mouth It states the second horizontal axis and is fixedly connected with the first guide wheel.

Further, outer layer material chamber lower right is equipped with aperture, and lower section is equipped with lumen, the lumen in the rotation chamber Left wall is rotatably connected to third horizontal axis, and the third horizontal axis is fixedly connected with first gear, and the first gear is engaged with and institute The left gear axle sleeve of lumen left wall rotation connection is stated, is rotatably connected to the first short axle and the second short axle in the left gear axle sleeve, First short axle is fixedly connected with the first pinch roller, and second short axle is fixedly connected with the second pinch roller, rotation in the lumen It is connected with the 4th horizontal axis, the 4th horizontal axis is fixedly connected with the second guide wheel, and the third horizontal axis right end is fixedly connected with second Gear.

Further, the second gear is engaged with third gear, and the third gear is fixedly connected with the 5th horizontal axis, institute It states the 5th horizontal axis and is fixedly connected with the 4th gear, the 4th gear is engaged with the 5th gear, and the 5th gear is fixedly connected There is the 6th horizontal axis with lumen right wall rotation connection, the 6th horizontal axis is fixedly connected with the 6th gear.

Further, the 7th horizontal axis is rotatably connected in the second steepwater slot, the 7th horizontal axis is fixedly connected with Two dippings are taken turns, and are rotatably connected to the 8th horizontal axis in the second steepwater slot, the 8th horizontal axis is fixedly connected with third guide wheel, institute It states second steepwater slot right and is rotatably connected to the 9th horizontal axis, the 9th horizontal axis is fixedly connected with third guide wheel.

Further, the 6th gear is engaged with right gear axle sleeve, is rotatably connected to third in the right gear axle sleeve Short axle and the 4th short axle, the third short axle and the 4th short axle branch are fixedly connected with third pinch roller and the 4th pinch roller, and described Six horizontal axis are fixedly connected with the first helical gear, and first helical gear is engaged with the second helical gear, and second helical gear is fixed It is connected with right horizontal axis, the discharging cavity wall rotation connection of the right horizontal axis and rotation chamber lower right setting, the right horizontal axis It is fixedly connected with third helical gear, the right horizontal axis is fixedly connected with upper sprocket wheel, and the upper sprocket wheel is sequentially connected with chain, described Chain drive is connected with lower sprocket, and the lower sprocket is fixedly connected with the upper horizontal axis with discharging chamber rotation connection, it is described on Horizontal axis is fixedly connected with gear, and the gear is engaged with lower gear, and the lower gear is fixedly connected with and the discharging chamber The lower horizontal axis of rotation connection, the upper horizontal axis and the lower horizontal axis have been respectively fixedly connected with transmission wheel and lower transmission wheel.

Further, the motor power is connected with output shaft, and the output shaft is fixedly connected with sector bevel gears, described Sector bevel gears interval is engaged with the 4th helical gear, and the 4th helical gear, which is fixedly connected with to rotate with the rotation chamber right wall, to be connected The upper right axis connect, the upper right axis are fixedly connected with cam, and the output shaft is fixedly connected with preceding sprocket wheel, the preceding sprocket wheel transmission It is connected with chain, the upper chain is sequentially connected with rear sprocket wheel, and the rear sprocket wheel is fixedly connected with and the rotation chamber lower wall The vertical pivot of rotation connection, the vertical pivot are fixedly connected with sector gear.

Further, the discharging chamber upper wall is fixedly connected with connecting rod, and the connecting rod is fixedly connected with feeler lever, the discharging Chamber upper wall slidably connects telescopic rod, and the telescopic rod is fixedly connected with the shaping mould, is equipped with conveyer belt below the shaping mould, The conveyer belt is sequentially connected with left belt wheel and right belt wheel, and the left belt wheel, which is fixedly connected with to rotate with the discharging cavity wall, to be connected The left-small-axis connect, the right belt wheel are fixedly connected with the right-small-axis with the discharging cavity wall rotation connection, the feeler lever lower section It is fixedly connected with spring, the spring is fixedly connected with the shaping mould.

Detailed description of the invention

The present invention is described in detail by following specific embodiments and drawings for ease of explanation,.

Fig. 1 is a kind of whole knot of production equipment suitable for wind electricity blade girder carbon fiber pultrusion plate of the invention Structure schematic diagram；

Fig. 2 is the enlarged structure schematic diagram of A in Fig. 1；

Fig. 3 is the enlarged structure schematic diagram of B in Fig. 1；

Fig. 4 is the enlarged structure schematic diagram of C in Fig. 1；

Fig. 5 is the cross section structure schematic diagram of D-D in Fig. 1；

Fig. 6 is the cross section structure schematic diagram of E-E in Fig. 3.

Specific embodiment

Below with reference to Fig. 1-Fig. 6, the present invention is described in detail, for sake of convenience, now provides to hereafter described orientation As follows: hereafter described front-rear direction up and down is consistent with the front-rear direction up and down of Fig. 1 projection relation itself.

The present invention relates to a kind of suitable for the wind electricity blade girder production equipment of carbon fiber pultrusion plate, is mainly used in The production of wind electricity blade girder.

It is of the invention a kind of suitable for the wind electricity blade girder production equipment of carbon fiber pultrusion plate, including fuselage 10, Top is equipped with rotation chamber 11 in the fuselage 10, and the 11 upper right wall of rotation chamber is fixedly connected with motor 27, the rotation chamber 11 Upper left wall is fixedly connected with hydraulic device 12, and 11 lower right of rotation chamber is equipped with raw material cavity 15, sliding in the raw material cavity 15 It is connected with pressuring plate 14, level-one dipping tank 44 is equipped with below the raw material cavity 15, is equipped with outer layer material chamber on the right side of the raw material cavity 15 16, lower section is equipped with level-one device for screwing up 39 in the rotation chamber 11, is equipped with second steepwater slot on the right side of the level-one device for screwing up 39 36, it is equipped with second level device for screwing up 24 on the right side of the second steepwater slot 36, is equipped with shaping mould 79 on the right side of the second level device for screwing up 24, When work, raw material becomes several fibre bundle outflows out of described raw material cavity 15 under the action of pressuring plate 14, passes through institute It states and reaches the level-one device for screwing up 39 after the dipping of level-one dipping tank 44 and become one fiber stick, the outer layer material chamber 16 provides The fibre bundle of outer layer covers passes through fiber stick and outer layer packet after the second level device for screwing up 24 by the second steepwater slot 36 It wraps up in and is tightened to together, finally formed under the action of described 79, obtain complete carbon fiber pultrusion plate material after cooling, pass through The motor 27 controls the stretching of fibre bundle and the molding of carbon fiber board, and whole process links together, improves production efficiency.

Preferably, the hydraulic device 12 has been connected by power hydraulic stem 13, and the hydraulic stem 13 and the pressuring plate 14 are solid Fixed connection is equipped with hole sizer 46 below the raw material cavity, is rotatably connected to the first horizontal axis 43 in the level-one dipping tank 44, and described the One horizontal axis 43 is fixedly connected with the first dipping wheel 42, and 44 right of level-one dipping tank is equipped with level-one mouth 45, the level-one mouth 45 It is inside rotatably connected to the second horizontal axis 40, second horizontal axis 40 is fixedly connected with the first guide wheel 41.

Preferably, 16 lower right of outer layer material chamber is equipped with aperture 17, and lower section is equipped with lumen 54, institute in the rotation chamber 11 It states 54 left wall of lumen and is rotatably connected to third horizontal axis 47, the third horizontal axis 47 is fixedly connected with first gear 48, and described first Gear 48 is engaged with the left gear axle sleeve 49 with 54 left wall of lumen rotation connection, rotation connection in the left gear axle sleeve 49 There are the first short axle 50 and the second short axle 52, first short axle 50 is fixedly connected with the first pinch roller 51, and second short axle 52 is solid Surely it is connected with the second pinch roller 53, the 4th horizontal axis 19 is rotatably connected in the lumen 54, the 4th horizontal axis 19 is fixedly connected with Second guide wheel 18,47 right end of third horizontal axis are fixedly connected with second gear 55.

Preferably, the second gear 55 is engaged with third gear 56, and the third gear 56 is fixedly connected with the 5th cross Axis 21, the 5th horizontal axis 21 are fixedly connected with the 4th gear 92, and the 4th gear 92 is engaged with the 5th gear 58, and described Five gears 58 are fixedly connected with the 6th horizontal axis 90 with 54 right wall of lumen rotation connection, and the 6th horizontal axis 90 is fixedly connected There is the 6th gear 59.

Preferably, the 7th horizontal axis 23 is rotatably connected in the second steepwater slot 36, the 7th horizontal axis 23 is fixedly connected There is the second dipping wheel 22, the 8th horizontal axis 37 is rotatably connected in the second steepwater slot 36, the 8th horizontal axis 37 is fixedly connected There is third guide wheel 38,36 right of second steepwater slot is rotatably connected to the 9th horizontal axis 61, and the 9th horizontal axis 61 is fixedly connected There is third guide wheel 62.

Preferably, the 6th gear 59 is engaged with right gear axle sleeve 63, is rotatably connected in the right gear axle sleeve 63 Third short axle 65 and the 4th short axle 66, the third short axle 65 and 66 branch of the 4th short axle are fixedly connected with third pinch roller 64 and Four pinch rollers 67, the 6th horizontal axis 90 are fixedly connected with the first helical gear 60, and first helical gear 60 is engaged with the second helical teeth Wheel 68, second helical gear 68 are fixedly connected with right horizontal axis 93, and the right horizontal axis 93 is arranged with 11 lower right of rotation chamber The rotation connection of 94 inner wall of discharging chamber, the right horizontal axis 93 is fixedly connected with third helical gear 84, and the right horizontal axis 93 is fixed to be connected It is connected to upper sprocket wheel 85, the upper sprocket wheel 85 is sequentially connected with chain 86, and the chain 86 is sequentially connected with lower sprocket 87, under described Sprocket wheel 87 is fixedly connected with the upper horizontal axis 70 with the discharging chamber 94 rotation connection, and the upper horizontal axis 70 is fixedly connected with gear 88, the gear 88 is engaged with lower gear 89, the lower gear 89 be fixedly connected with under discharging chamber rotation connection Horizontal axis 71, the upper horizontal axis 70 and the lower horizontal axis 71 have been respectively fixedly connected with transmission wheel 69 and lower transmission wheel 72.

Preferably, the motor 27 has been connected by power output shaft 30, and the output shaft 30 is fixedly connected with sector bevel gears 26,26 interval of sector bevel gears is engaged with the 4th helical gear 28, and the 4th helical gear 28 is fixedly connected with and described turn The upper right axis 29 of dynamic 11 right wall of chamber rotation connection, the upper right axis 29 are fixedly connected with cam 31, and the output shaft 30 is fixed to be connected Sprocket wheel 25 before being connected to, the preceding sprocket wheel 25 are sequentially connected with chain 81, and the upper chain 81 is sequentially connected with rear sprocket wheel 82, institute It states rear sprocket wheel 82 and is fixedly connected with the vertical pivot 33 being rotatablely connected with rotation 11 lower wall of chamber, the vertical pivot 33 is fixedly connected with fan Shape gear 83.

Preferably, 94 upper wall of discharging chamber is fixedly connected with connecting rod 34, and the connecting rod 34 is fixedly connected with feeler lever 80, institute It states 94 upper wall of discharging chamber and slidably connects telescopic rod 32, the telescopic rod 32 is fixedly connected with the shaping mould 79, the shaping mould Lower section is equipped with conveyer belt 75, and the conveyer belt 75 is sequentially connected with left belt wheel 74 and right belt wheel 77, and the left belt wheel 74 is fixed to be connected It is connected to the left-small-axis 73 with 94 inner wall of discharging chamber rotation connection, the right belt wheel 77 is fixedly connected with and the discharging chamber 94 The right-small-axis 76 of inner wall rotation connection, is fixedly connected with spring 78 below the feeler lever 80, the spring 78 is fixedly connected State shaping mould 79.

It is suitable for one of this paper the life of wind electricity blade girder carbon fiber pultrusion plate below in conjunction with Fig. 1 to Fig. 6 The use step for producing equipment is described in detail:

1, carbon fiber material starts the hydraulic device 12 after heating in the raw material cavity 15, and the hydraulic stem 13 pushes down on The pressuring plate 14, carbon fiber by the hole sizer 46 become several fibre bundles by the level-one dipping tank 44 dipping after bypass The first dipping wheel 42, further around excessively described first guide wheel 41, is tightened into fibre under the action of level-one device for screwing up 39 Tie up stick, fiber stick contacts at the third guide wheel 38 with cladding material, together after the second steepwater slot 36 impregnates around The second dipping wheel 22 is crossed, tightens using the second level device for screwing up 24, is finally formed by the shaping mould 79.

2, start the motor 27, the output shaft 30 is driven to rotate, while the sector bevel gears 26 being driven to rotate, warp Crossing intermediate transmission drives the sector gear 83 to rotate, when the sector gear 83 is engaged with the third helical gear 84, drive The right horizontal axis 93 rotates, and drives the left gear axle sleeve 49 to rotate by intermediate transmission, while driving the right gear axle sleeve 63 rotations, while the upper transmission wheel 69 and the lower transmission wheel 72 being driven to rotate, band kinetodesma stick moves forward.

3, when fiber stick reaches 79 lower section of shaping mould, the sector bevel gears 26 are nibbled with the 4th helical gear 28 It closes, drives the rotation of cam 31 to contact with the telescopic rod 32, the telescopic rod 32 moves down, and drives the shaping mould 79 Move down, the 79 extrusion fiber stick of shaping mould and cut off obtain complete carbon fiber pultrusion plate material, then it is described convex Wheel 31 is no longer contacted with the telescopic rod 32, and the shaping mould 79 moves up under spring force, and the feeler lever 80 is opposite It is moved down in the shaping mould 79, pushes in the shaping mould 79 material to move down and fall on the conveyer belt 75.

The beneficial effects of the present invention are: the present invention makes carbon fiber material become fibre bundle by increasing pressure, by core Cladding material dipping is wrapped up again after layer raw material dipping, effectively raises the intensity of material, and the present invention passes through machine driving for carbon Fiber is perpendicular to be tightened, and is stretched in transmission, and again by shaping mould finally, whole process is carried out continuously, and improves production effect Rate.

In the above manner, those skilled in the art can be made within the scope of the invention according to operating mode it is various Change.

Claims (8)

1. a kind of suitable for the wind electricity blade girder production equipment of carbon fiber pultrusion plate, including fuselage, it is characterised in that:

Top is equipped with rotation chamber in the fuselage, and the rotation chamber upper right wall is fixedly connected with motor, rotation chamber upper left wall It is fixedly connected with hydraulic device, the rotation chamber lower right is equipped with raw material cavity, slidably connects pressuring plate in the raw material cavity, institute It states and is equipped with level-one dipping tank below raw material cavity, outer layer material chamber is equipped on the right side of the raw material cavity, lower section is equipped with one in the rotation chamber Grade device for screwing up, the level-one device for screwing up right side are equipped with second steepwater slot, tighten on the right side of the second steepwater slot equipped with second level Device, the second level device for screwing up right side are equipped with shaping mould；

When work, raw material becomes several fibre bundle outflows out of described raw material cavity under the action of the pressuring plate, passes through institute It states and reaches the level-one device for screwing up after level-one dipping tank dipping and become one fiber stick, the outer layer material chamber provides outer layer packet The fibre bundle wrapped up in is tightened to one by fiber stick after the second level device for screwing up and outer layer covers by the second steepwater slot It rises, is finally formed under the action of described, complete carbon fiber pultrusion plate material is obtained after cooling；

By the stretching of the motor control fibre bundle and the molding of carbon fiber board, whole process links together, improves life Produce efficiency.

2. it is as described in claim 1 a kind of suitable for the wind electricity blade girder production equipment of carbon fiber pultrusion plate, it is special Sign is: the hydraulic device has been connected by power hydraulic stem, and the hydraulic stem is fixedly connected with the pressuring plate, the raw material cavity Lower section is equipped with hole sizer, is rotatably connected to the first horizontal axis in the level-one dipping tank, first horizontal axis is fixedly connected with the first leaching Stain wheel, level-one dipping tank right are equipped with level-one mouth, are rotatably connected to the second horizontal axis, second horizontal axis in the level-one mouth It is fixedly connected with the first guide wheel.

3. it is as described in claim 1 a kind of suitable for the wind electricity blade girder production equipment of carbon fiber pultrusion plate, it is special Sign is: outer layer material chamber lower right is equipped with aperture, and lower section is equipped with lumen in the rotation chamber, and the lumen left wall rotation connects It is connected to third horizontal axis, the third horizontal axis is fixedly connected with first gear, and the first gear is engaged with and the lumen left wall The left gear axle sleeve of rotation connection is rotatably connected to the first short axle and the second short axle in the left gear axle sleeve, and described first is short Axis is fixedly connected with the first pinch roller, and second short axle is fixedly connected with the second pinch roller, is rotatably connected to the 4th in the lumen Horizontal axis, the 4th horizontal axis are fixedly connected with the second guide wheel, and the third horizontal axis right end is fixedly connected with second gear.

4. it is as described in claim 1 a kind of suitable for the wind electricity blade girder production equipment of carbon fiber pultrusion plate, it is special Sign is: the second gear is engaged with third gear, and the third gear is fixedly connected with the 5th horizontal axis, the 5th horizontal axis Be fixedly connected with the 4th gear, the 4th gear is engaged with the 5th gear, the 5th gear be fixedly connected with it is described in 6th horizontal axis of chamber right wall rotation connection, the 6th horizontal axis are fixedly connected with the 6th gear.

5. it is as described in claim 1 a kind of suitable for the wind electricity blade girder production equipment of carbon fiber pultrusion plate, it is special Sign is: the 7th horizontal axis is rotatably connected in the second steepwater slot, the 7th horizontal axis is fixedly connected with the second dipping wheel, institute It states and is rotatably connected to the 8th horizontal axis in second steepwater slot, the 8th horizontal axis is fixedly connected with third guide wheel, the second steepwater Slot right is rotatably connected to the 9th horizontal axis, and the 9th horizontal axis is fixedly connected with third guide wheel.

6. it is as described in claim 1 a kind of suitable for the wind electricity blade girder production equipment of carbon fiber pultrusion plate, it is special Sign is: the 6th gear is engaged with right gear axle sleeve, is rotatably connected to third short axle and the 4th in the right gear axle sleeve Short axle, the third short axle and the 4th short axle branch are fixedly connected with third pinch roller and the 4th pinch roller, and the 6th horizontal axis is fixed It is connected with the first helical gear, first helical gear is engaged with the second helical gear, and second helical gear is fixedly connected with right cross The discharging cavity wall of axis, the right horizontal axis and rotation chamber lower right setting is rotatablely connected, and the right horizontal axis is fixedly connected with Third helical gear, the right horizontal axis are fixedly connected with upper sprocket wheel, and the upper sprocket wheel is sequentially connected with chain, and the chain drive connects It is connected to lower sprocket, the lower sprocket is fixedly connected with the upper horizontal axis with discharging chamber rotation connection, and the upper horizontal axis is fixed to be connected It is connected to gear, the gear is engaged with lower gear, and the lower gear is fixedly connected with and discharging chamber rotation connection Lower horizontal axis, the upper horizontal axis and the lower horizontal axis have been respectively fixedly connected with transmission wheel and lower transmission wheel.

7. it is as described in claim 1 a kind of suitable for the wind electricity blade girder production equipment of carbon fiber pultrusion plate, it is special Sign is: the motor power is connected with output shaft, and the output shaft is fixedly connected with sector bevel gears, the sector bevel gears Interval is engaged with the 4th helical gear, and the 4th helical gear is fixedly connected with the upper right with the rotation chamber right wall rotation connection Axis, the upper right axis are fixedly connected with cam, and the output shaft is fixedly connected with preceding sprocket wheel, and the preceding sprocket wheel is sequentially connected with Chain, the upper chain are sequentially connected with rear sprocket wheel, and the rear sprocket wheel is fixedly connected with and the rotation chamber lower wall is rotatablely connected Vertical pivot, the vertical pivot is fixedly connected with sector gear.

8. it is as described in claim 1 a kind of suitable for the wind electricity blade girder production equipment of carbon fiber pultrusion plate, it is special Sign is: the discharging chamber upper wall is fixedly connected with connecting rod, and the connecting rod is fixedly connected with feeler lever, the discharging chamber upper wall sliding It is connected with telescopic rod, the telescopic rod is fixedly connected with the shaping mould, is equipped with conveyer belt, the conveyer belt below the shaping mould It is sequentially connected with left belt wheel and right belt wheel, the left belt wheel is fixedly connected with small with a left side for the discharging cavity wall rotation connection Axis, the right belt wheel are fixedly connected with the right-small-axis with the discharging cavity wall rotation connection, are fixedly connected below the feeler lever There is spring, the spring is fixedly connected with the shaping mould.