CN107351158A

CN107351158A - Blade of wind-driven generator liner cystosepiment beveler

Info

Publication number: CN107351158A
Application number: CN201710767607.6A
Authority: CN
Inventors: 张旭鹏; 陈刚
Original assignee: Shandong Ying Nine Amperex Technology Ltd
Current assignee: Shandong Ying Nine Amperex Technology Ltd
Priority date: 2017-08-30
Filing date: 2017-08-30
Publication date: 2017-11-17

Abstract

A kind of blade of wind-driven generator liner cystosepiment beveler, including base, conveying mechanism and chamfer mechanism, it is characterized in that：Conveying mechanism and chamfer mechanism are installed on base；The conveying mechanism includes drive roll, driven roll, conveyer belt and transmission device, and conveyer belt is connected between drive roll and driven roll, and one end of drive roll is connected with transmission device, and transmission device is fixedly mounted on base；The chamfer mechanism includes chamfering frame, guide rail, chamfering frame travel mechanism, chamfering drive mechanism and dip angle adjusting mechanism, guide rail is arranged on base top, chamfering frame travel mechanism is provided with guide rail, chamfering frame is arranged on guide rail and is connected with chamfering frame travel mechanism, chamfering drive mechanism is arranged on chamfering frame and is provided with saw blade, and dip angle adjusting mechanism is additionally provided with chamfering frame.The chamfering machine structure is simple, realizes the chamfering cutting of liner cystosepiment, simple in construction, chamfering effect is good, efficiency high, and easy to adjust.

Description

Blade of wind-driven generator liner cystosepiment beveler

Technical field

It is used to be pasted in the wall of blade inner chamber in blade of wind-driven generator production process the present invention relates to a kind of The equipment for serving as a contrast cystosepiment chamfering, belongs to liner cystosepiment chamfering and breaks a point technical field.

Background technology

Blade is the most basic and part of most critical in wind-driven generator, directly affects the conversion efficiency of wind energy.Wind at present Power generator blade mainly has：1. girder steel glass fibre covering blade, shaped steel does longeron, steel plate does and bubble is filled out in the framework of girt strip Foam plastics, fiberglass covering is cladded with, is typically used on large-scale wind driven generator；2. fiberglass blade, in intensity height, weight Gently, ageing-resistant fiberglass (abbreviation GFRP, penetrates into the different glass fibre of length with plastics such as epoxy resin, unsaturated-resins Or carbon fiber and the reinforced plastics made) surface wrap glass fibre and epoxy resin is applied, other parts filling foamed plastics, bubble Foam main function in blade is to reduce leaf quality while its stability is ensured, blade is increased while rigidity is met Big wind catching area.It is polyvinyl chloride (PVC, also referred to as crosslinked PVC) for the most commonly used foam of wind power generation blade core；③ Carbon fiber composite blading, carbon fibre composite blade stiffness are two to three times of fiberglass composite blading, but expensive.

Fiberglass blade is the main blade that wind-driven generator uses.Mold closing vacuum impregnation is current large-scale wind driven generator The conventional production technology of blade, is coated with fiberglass on the mould of coating silica gel, design outline and laying as requested first Number, laying is carried out using laying machine, being then impregnated with technology using vacuum aided injects basic resin in blade inner chamber, then to solidification Blade afterwards carries out grinding and buffing.

Inject before basic resin, to be attached on the wall of blade inner chamber in the fiberglass blade inner chamber of laying shaping One layer of interior lining panel.As shown in figure 1, the interior lining panel is to be adhered to by polyvinyl chloride foam sheet material on glass fabric 1, then will Polyvinyl chloride foam 2 on glass fabric 1 cuts into fritter, in order to the wall configuration one when attaching with blade inner chamber Cause, but glass fabric 1 can not be cut off.Because the wall configuration of blade inner chamber is irregular, some places need relatively thin Polyvinyl chloride foam 2 fritter, even inclined plane, as shown in Figure 1, this requires to carry out chamfering to polyvinyl chloride foam plate Processing.Artificial treatment, waste time and energy, labor intensity is big.

Although the current beveler with various structures, is to be used for metal parts or rigid non-metallic component mostly, And the angle and chamfer amount of chamfering can not be adjusted, the cystosepiment that soft pliable rises is not suitable for.

The content of the invention

The present invention is for deficiency existing for the liner cystosepiment chamfering technology of existing blade of wind-driven generator, there is provided Yi Zhongjie Structure is simple, chamfering effect is good, efficiency high blade of wind-driven generator liner cystosepiment beveler.

The blade of wind-driven generator liner cystosepiment beveler of the present invention, using following technical proposals：

The beveler, including base, conveying mechanism and chamfer mechanism, conveying mechanism and chamfer mechanism are installed in base On, conveying mechanism is in the front of chamfer mechanism；The conveying mechanism includes drive roll, driven roll, conveyer belt and transmission device, Conveyer belt is connected between drive roll and driven roll, one end of drive roll is connected with transmission device, and transmission device is fixedly mounted on On base；The chamfer mechanism includes chamfering frame, guide rail, chamfering frame travel mechanism, chamfering drive mechanism and dip angle adjusting mechanism, Guide rail is arranged on base top, and chamfering frame travel mechanism is provided with guide rail, and chamfering frame is arranged on guide rail and moved with chamfering frame Motivation structure is connected, and chamfering drive mechanism is arranged on chamfering frame and is provided with saw blade, and Inclination maneuver machine is additionally provided with chamfering frame Structure.

The base includes chassis, front wallboard and rear wall plate, and front wallboard and rear wall plate are arranged on the front and rear sides of chassis.Before Wallboard and rear wall plate are used to be provided with drive roll and driven roll.

Shield is provided with left and right sides of conveyer belt on the base.

Vacuum absorption device is provided with the base below conveyer belt, adsorption hole is distributed with conveyer belt.It is described Vacuum absorption device includes vaccum suction pipe, suction nozzle is distributed with vaccum suction pipe, vaccum suction pipe is connected with vacuum source.When cystosepiment is put When on conveyer belt, vaccum suction pipe is adsorbed liner cystosepiment on the conveyor belt by the adsorption hole being distributed on conveyer belt, is prevented Liner cystosepiment is turned up in chamfering.

The chamfering frame travel mechanism uses spiral travel mechanism, including leading screw and nut, leading screw and nut thread Connection, leading screw are arranged on guide rail both ends, and nut is fixedly connected on chamfering frame, and leading screw front end is provided with adjustment handwheel.

The dip angle adjusting mechanism includes little gear and gear wheel, and little gear and gear wheel engagement, little gear pass through small tooth Wheel shaft is arranged on chamfering frame, and gear wheel is arranged on chamfering frame by Large Gear Shaft and is fixedly connected with chamfering drive mechanism.

During above-mentioned beveler operation, the inclination angle of saw blade is adjusted by dip angle adjusting mechanism, reaches the chamfer angle of requirement.It is logical Cross the position that chamfering frame travel mechanism makes chamfering frame and saw blade thereon is moved to requirement.Cystosepiment is placed on conveyer belt, led to Vacuum absorption device is crossed to adsorb cystosepiment on the conveyor belt.Start conveying mechanism, cystosepiment moves with conveyer belt.Start Chamfering drive mechanism rotates saw blade.Cystosepiment is cut to chamfering when passing through saw blade.

The present invention is simple in construction, realizes the chamfering cutting of liner cystosepiment, and simple in construction, chamfering effect is good, efficiency high, It is and easy to adjust.

Brief description of the drawings

Fig. 1 is the chamfering structure schematic diagram of blade of wind-driven generator liner cystosepiment of the present invention.

Fig. 2 is the structural representation of blade of wind-driven generator liner cystosepiment beveler of the present invention.

Fig. 3 is the A direction views in Fig. 1.

Fig. 4 is the B direction views in Fig. 1.

In figure：In figure：1. glass fabric, 2. cystosepiments, 3. chassis, 4. shields, 5. drive rolls, 6. conveyer belts, 7. quilts Dynamic roller, 8. rear wall plates, 9. vaccum suction pipes, 10. saw blades, 11. gear wheels, 12. Large Gear Shafts, 13. pinion shafts, 14. little gears, 15th, chamfering motor, 16. chamfering framves, 17. adjustment handwheels, 18. guide rails, 19. front wallboards, 20. front aprons, 21. rear baffles, 22. subtract Fast machine, 23. leading screws.

Embodiment

As shown in Figure 2, Figure 3 and Figure 4, blade of wind-driven generator liner cystosepiment beveler of the invention, including base, Conveying mechanism and chamfer mechanism, conveying mechanism and chamfer mechanism are installed on base, before conveying mechanism is in chamfer mechanism Side.Base includes chassis 3 and is separately positioned on the front wallboard 19 and rear wall plate 8 of the front and rear sides of chassis 3.

Referring to Fig. 2 and Fig. 3, conveying mechanism includes drive roll 5, driven roll 7, conveyer belt 6 and transmission device.The He of drive roll 5 Driven roll 7 is separately mounted to the left and right sides of front wallboard 19 and rear wall plate 8, conveyer belt is connected between drive roll 5 and driven roll 7 6.On chassis 3 shield 4 is provided with the left and right sides of conveyer belt 6.One end of drive roll 5 is connected with transmission device, transmission dress Put and use reductor 22, reductor 22 is fixedly mounted on rear wall plate 8 (referring to Fig. 3).In order to prevent the bubble of softness in chamfering Foam plate purses up, and the lower section of conveyer belt 6 is provided with vacuum absorption device.Therefore, it is respectively arranged with the front and rear sides of conveyer belt 6 The front apron 20 and rear baffle 21 being fixedly connected on chassis 3, make to form one between conveyer belt 6, front apron 20 and rear baffle 21 Individual relative confined space, while adsorption hole (being not drawn into figure) is distributed with conveyer belt 6.Set in relative confined space true Suction pipe 9, vaccum suction pipe 9 can be fixed on front apron 20 or rear baffle 21 and is connected with external vacuum source, on vaccum suction pipe 9 Some suction nozzles are distributed with.When cystosepiment is placed on conveyer belt 6, vaccum suction pipe 9 passes through conveyer belt in relative confined space air-breathing The adsorption hole being distributed on 6 adsorbs cystosepiment on conveyer belt 6, and cystosepiment moves with conveyer belt 6, complete by chamfer mechanism Into chamfering.

Referring to Fig. 2 and Fig. 4, chamfer mechanism include chamfering frame 16, guide rail 18, chamfering frame travel mechanism, chamfering drive mechanism, Saw blade 10 and dip angle adjusting mechanism.Guide rail 18 is arranged on the top of chassis 3, and chamfering frame travel mechanism is provided with guide rail 18. Corner bracket 16 is installed on the track 18 and is connected with chamfering frame travel mechanism.Chamfering frame travel mechanism uses spiral moving machine Structure, including leading screw 23 and nut, leading screw 23 are connected with nut thread, and leading screw 23 is arranged on the both ends of guide rail 18, and nut is fixedly connected On chamfering frame 16, the front end of leading screw 23 is provided with adjustment handwheel 17.Chamfering drive mechanism is arranged on chamfering frame 16, using chamfering Motor 15, saw blade 10 are arranged on the motor shaft of chamfering motor 15.Dip angle adjusting mechanism is additionally provided with chamfering frame 16, the inclination angle Adjustment mechanism includes little gear 14 and gear wheel 11, and little gear 14 and gear wheel 11 engage, and little gear 14 passes through pinion shaft 13 On chamfering frame 16, gear wheel 11, which is arranged on chamfering frame 16 and fixed with chamfering motor 15 by Large Gear Shaft 12, to be connected Connect.By rotation pinion axle 13, little gear 14 is set to drive gear wheel 11 to rotate, chamfering motor 15 rotates with gear wheel 11, from And change the inclination angle of saw blade 10, to cut out the chamfering of different angle.

The running of above-mentioned beveler is as described below：

The inclination angle of saw blade 10 is adjusted by rotation pinion 14, reaches the chamfer angle of requirement.Adjustment handwheel 17 is rotated, is made Chamfering frame 16 and saw blade 10 thereon are moved to the position of requirement.Cystosepiment is placed on conveyer belt 6, and positioned at the right side of saw blade 10 Side.The relative confined space air-breathing being coiled into by vaccum suction pipe 9 to conveyer belt 6, by cystosepiment absorption on conveyer belt 6.Start Reductor 22 runs conveyer belt 6, and cystosepiment moves with conveyer belt 6.Start chamfering motor 15, saw blade 10 rotates.Foam When plate passes through saw blade 10 chamfering is cut in the side of whole plate.

Claims

1. a kind of blade of wind-driven generator liner cystosepiment beveler, including base, conveying mechanism and chamfer mechanism, its feature It is：Conveying mechanism and chamfer mechanism are installed on base, and conveying mechanism is in the front of chamfer mechanism；The conveying mechanism bag Drive roll, driven roll, conveyer belt and transmission device are included, conveyer belt, one end of drive roll are connected between drive roll and driven roll It is connected with transmission device, transmission device is fixedly mounted on base；The chamfer mechanism includes chamfering frame, guide rail, chamfering frame and moved Motivation structure, chamfering drive mechanism and dip angle adjusting mechanism, guide rail are arranged on base top, chamfering frame moving machine are provided with guide rail Structure, chamfering frame are arranged on guide rail and are connected with chamfering frame travel mechanism, and chamfering drive mechanism is arranged on chamfering frame and installed There is saw blade, dip angle adjusting mechanism is additionally provided with chamfering frame.

2. blade of wind-driven generator liner cystosepiment beveler according to claim 1, it is characterized in that：The base bag Chassis, front wallboard and rear wall plate are included, front wallboard and rear wall plate are arranged on the front and rear sides of chassis.

3. blade of wind-driven generator liner cystosepiment beveler according to claim 1, it is characterized in that：On the base Shield is provided with left and right sides of conveyer belt.

4. blade of wind-driven generator liner cystosepiment beveler according to claim 1, it is characterized in that：On the base Vacuum absorption device is provided with below conveyer belt, adsorption hole is distributed with conveyer belt.

5. blade of wind-driven generator liner cystosepiment beveler according to claim 4, it is characterized in that：The vacuum is inhaled Adsorption device includes vaccum suction pipe, suction nozzle is distributed with vaccum suction pipe, vaccum suction pipe is connected with vacuum source.

6. blade of wind-driven generator liner cystosepiment beveler according to claim 1, it is characterized in that：The chamfering frame Travel mechanism uses spiral travel mechanism, including leading screw and nut, leading screw to be connected with nut thread, and leading screw is arranged on guide rail Both ends, nut are fixedly connected on chamfering frame, and leading screw front end is provided with adjustment handwheel.

7. blade of wind-driven generator liner cystosepiment beveler according to claim 1, it is characterized in that：Adjust at the inclination angle Complete machine structure includes little gear and gear wheel, and little gear and gear wheel engagement, little gear are arranged on chamfering frame by pinion shaft, Gear wheel is arranged on chamfering frame by Large Gear Shaft and is fixedly connected with chamfering drive mechanism.