CN107627498A - The preparation method of mould and wind electricity blade web component - Google Patents

Abstract

The invention discloses the preparation method of a kind of mould and wind electricity blade web component, mould includes die main body, and mould also includes：Two body flanges, two body flanges are respectively arranged at the both sides of die main body, and two body flanges with die main body formed with the first groove；First module and the second module, the first module and the second module are respectively arranged in two the first grooves, and the second groove is each formed between the first module and one of body flange and between the second module and another body flange.The preparation method of wind electricity blade web component is comprised the following steps using mould as above, preparation method：S1, die main body and second groove are irrigated so that wind electricity blade web component is made.The present invention realizes to be integrally formed between web body and upper and lower flange portion, and the quality of wind electricity blade web component is effectively ensured, reduces unnecessary maintenance, shortens the molding cycle of wind electricity blade, reduces the labor intensity of operating personnel.

Description

The preparation method of mould and wind electricity blade web component

Technical field

The present invention relates to a kind of mould.

The invention further relates to a kind of preparation method that wind electricity blade web component is made using the mould.

Background technology

At present, wind electricity blade web mold is generally adopted by former, and the web after shaping and demoulding is C fonts, this Web needs hand to paste lower flange or bonding gear glue groove over during web is glued, for increasing the bonding plane of web.But this Kind technique needs operating personnel's hand to paste lower flange over, and the quality of lower flange can be caused unstable, and the structure glue that web is glued is equal Even property is difficult to be protected, and various quality problems easily occurs, causes hand to be needed after having pasted lower flange to upper lower flange Repaired.Hand pastes lower flange over simultaneously and hand pastes the solidification after lower flange over and is required for taking a significant amount of time, and adds behaviour Make the labor intensity of personnel, increase the production cycle of wind electricity blade.

The content of the invention

The technical problem to be solved in the present invention can be caused to overcome existing wind electricity blade web to paste lower flange in hand The quality of upper lower flange is unstable, upper lower flange need to be repaired, add the labor intensity of operating personnel, increase wind-powered electricity generation A kind of the defects of production cycle of blade, there is provided preparation method of mould and wind electricity blade web component.

The present invention is that solve above-mentioned technical problem by following technical proposals：

A kind of mould, it includes die main body, and its feature is, the mould also includes：

Two body flanges, two body flanges are respectively arranged at the both sides of the die main body, and described in two Body flange is with the die main body formed with the first groove；

First module and the second module, first module and second module be respectively arranged at two it is described first recessed In groove, and between first module and one of them described body flange and second module and another described flange The second groove is each formed between template.

It is preferred that pressure is provided with lamellar body between two body flanges and first module and second module, The lamellar body is located at the bottom land of second groove.

It is preferred that first module and second module are formpiston, and first module and second mould The material of block is silica gel.

It is preferred that the die main body includes：

Base；

Platform, the platform extend from one end of the base towards away from the direction of the base；

Wherein, two body flanges, first module, second module are all connected to the top of the base Face, two body flanges are located at the both sides of the platform respectively.

It is preferred that the base is provided with several vacuum through holes.

A kind of preparation method of wind electricity blade web component, its feature are that wind electricity blade web component includes web Body, upper flange portion and lower flange portion, the upper flange portion and the lower flange portion are connected to the two of the web body End；

The preparation method utilizes mould as described above, and the preparation method comprises the following steps：

S1, the die main body and second groove are irrigated so that the wind electricity blade web component is made.

It is preferred that include step S11, the step S11 before the step S1 for flange layer of cloth is laid to institute On the inner side for stating the body flange in the first groove.

It is preferred that it is to connect the side for being stripped layer of cloth to include step S10, the step S10 before the step S11 The inner side of the body flange is connected to, and the demoulding layer of cloth bends and turns to the top of the body flange, the release cloth The opposite side of layer is connected to the flange layer of cloth.

It is preferred that also include step S12, the step S12 before the step S1 and after the step S11 Include：

S121, not porous release film laid in first groove and positioned at described in the inner side of the body flange On flange layer of cloth；

S122, first module and second module are respectively arranged in two first grooves and compress institute State the not bottom of porous release film and the flange layer of cloth；

S123, by described the body flange is not climbed at the top of porous release film and it be laid in first module or institute State on the second module and the die main body.

It is preferred that also include step S13, the step S13 before the step S1 and after the step S12 Include：

S131, by several, stiffeners are individually positioned in two second grooves down；

S132, core is laid on first module, second module and the die main body, the core position In the top of several lower stiffeners；

S133, stiffener on several is individually positioned in the both ends of the core and is pressed in the core and the method Between blue template.

It on the basis of common sense in the field is met, above-mentioned each optimum condition, can be combined, it is each preferably real to produce the present invention Example.

The positive effect of the present invention is：

The mould of the present invention and the preparation method of wind electricity blade web component, by the way that two the second groove encapsulatings are made Go out flange portion up and down, realize and be integrally formed between web body and upper and lower flange portion, wind electricity blade web component is effectively ensured Quality, unnecessary maintenance is reduced, shorten the molding cycle of wind electricity blade, reduce the labor intensity of operating personnel.

Brief description of the drawings

Fig. 1 is the structural representation of the mould of the embodiment of the present invention.

Fig. 2 is step S10~S12 of the preparation method of the wind electricity blade web component of embodiment of the present invention schematic diagram.

Fig. 3 is the partial enlarged drawing of part A in Fig. 2.

Fig. 4 is the step S13 of the preparation method of the wind electricity blade web component of embodiment of the present invention schematic diagram.

Fig. 5 is the partial enlarged drawing of part B in Fig. 4.

Description of reference numerals：

Die main body 1, base 11, vacuum through holes 111, platform 12

Body flange 2, the first groove 21, the second groove 22

First module 3

Second module 4

Lamellar body 5

Flange layer of cloth 6, layer of cloth 61 is stripped, not porous release film 62

Lower stiffener 7

Core 8, lower structure layer of cloth 81, upper structure layer of cloth 82

Upper stiffener 9

Embodiment

Below by embodiment mode and become apparent from intactly illustrating the present invention with reference to accompanying drawing, but therefore not incite somebody to action this Invention is limited among described scope of embodiments.

As shown in figure 1, the mould of the present invention, for making wind electricity blade web component.The mould include die main body 1, Two body flanges 2, the first module 3 and the second module 4, two body flanges 2 are respectively arranged at the both sides of die main body 1, and Two body flanges 2 are with die main body 1 formed with the first groove 21.First module 3 and the second module 4 are respectively arranged at two In first groove 21, and between the first module 3 and one of body flange 2 and the second module 4 and another body flange 2 Between be each formed with the second groove 22.

The preparation method of the wind electricity blade web component of the present invention utilizes above-mentioned mould, so as to which wind electricity blade web be made Component.The preparation method comprises the following steps：

S1, the groove 22 of die main body 1 and second is irrigated so that wind electricity blade web component is made.

In step S1, obtained wind electricity blade web component includes web body, upper flange portion and lower flange portion, Upper flange portion and lower flange portion are connected to the both ends of web body.By being filled to two the second grooves 22 in mould Glue realized and is integrally formed between web body and what lower flange portion of upper flange portion so that upper flange portion and lower flange portion be made out, The quality of wind electricity blade web component is effectively ensured, reduces unnecessary maintenance, shortens the molding cycle of wind electricity blade, reduces behaviour Make the labor intensity of personnel.

As shown in Figures 2 and 3, step S11 can be included before step S1, step S11 is to lay flange layer of cloth 6 On the inner side of body flange 2 in the first groove 21.

In step S11, it can effectively strengthen the structure in upper flange portion and lower flange portion by being provided with flange layer of cloth 6 Intensity, the quality of wind electricity blade web component is lifted, reduces unnecessary maintenance.Preferably, flange layer of cloth 6 can be glass fibers Wei Bu.

In the mould of the present invention, the first module 3 and the second module 4 in the first groove 21 can be formpiston, And first the material of module 3 and the second module 4 can be silica gel, be easy to the demoulding to the first module 3 and the second module 4, protect Demonstrate,prove the quality of wind electricity blade web component.It is recessed can be first not placed in first for the first module 3 and the second module 4 in step s 11 In groove 21, it is easy to the setting of flange layer of cloth 6.

It can press between two modules 3 of body flange 2 and first and the second module 4 and be located at provided with lamellar body 5, i.e. lamellar body 5 In first groove 21, and the lamellar body 5 is located at the bottom land of the second groove 22.In step s 11, the bottom of flange layer of cloth 6 is located at piece The top of body 5, the top of flange layer of cloth 6 turn to the top of body flange 2, are pressed from both sides using fixture in the place at interval of one meter or so Fasten so that flange layer of cloth 6 is connected with the top of body flange 2.

Die main body 1 can include base 11, platform 12, and platform 12 is connected to the top of base 11, and platform 12 from One end of base 11 extends towards away from the direction of base 11.Two body flanges 2, the first module 3, the second module 4 are all connected to The top surface of base 11, two body flanges 2 are located at the both sides of platform 12 respectively.

In the preparation method of the wind electricity blade web component of the present invention, step can be included before step S11 S10, step S10 are the inner side that the side for being stripped layer of cloth 61 is connected to body flange 2, and are stripped layer of cloth 61 and bend and turn to method The top of blue template 2, the opposite side of demoulding layer of cloth 61 are connected to flange layer of cloth 6.

In step S10, the bottom of demoulding layer of cloth 61 is aligned in the junction between body flange 2 and die main body 1, The top of demoulding layer of cloth 61 will turn to the top of body flange 2, and flange layer of cloth 6 and demoulding layer of cloth 61 pass through fixture and body flange 2 top is connected.Effectively flange layer of cloth 6 and demoulding layer of cloth 61 are fixed, by setting demoulding layer of cloth 61 to be easy to wind-powered electricity generation It is stripped between blade web component and body flange 2.Preferably, glue spraying is sprayed in the inner side of body flange 2, then re-layed de- Mould layer of cloth 61.

Step S12 can also be included before step S1 and after step s 11, step S12 includes：

S121, not porous release film 62 laid in the first groove 21 and positioned at the method cloth made of orchid of the inner side of body flange 2 On layer 6；

S122, the first module 3 and the second module 4 are respectively arranged in two the first grooves 21 and compress isolation not with holes The bottom of film 62 and flange layer of cloth 6；

S123, the top of not porous release film 62 is climbed over into body flange 2 and is laid in the first module 3 or the second module 4 With on die main body 1.

In step S12, it can effectively strengthen the company of not porous release film 62 by the first module 3 and the second module 4 Connect intensity, effectively avoid when making wind electricity blade web component not porous release film 62 produce skew buckling phenomena.It is meanwhile logical Cross and be provided without the demoulding that hole barrier film 62 is easy to wind electricity blade web component.The quantity of first module 3 and the second module 4 can be with To be multiple, the gap between two neighboring first module 3 or two neighboring second module 4 must not exceed 2mm.

As shown in Figure 4 and Figure 5, step S13, step S13 can also be included before step S1 and after step s 12 Include：

S131, by several, stiffeners 7 are individually positioned in two the second grooves 22 down；

S132, core 8 is laid on the first module 3, the second module 4 and die main body 1, core 8 is located under several The top of stiffener 7；

S133, stiffener on several 9 is individually positioned in the both ends of core 8 and be pressed in core 8 and body flange 2 it Between.

In step S13, the quantity of lower stiffener 7 and upper stiffener 9 can be multiple, by lower stiffener 7 and upper Stiffener 9 can effectively strengthen the structural strength of wind electricity blade web component.Preferably, lower stiffener 7 and upper stiffener 9 Think triangular strip, a wedge angle of triangular strip is inserted into the gap between core 8 and body flange 2, and one side of triangular strip is supported It is against body flange 2.Triangular strip can be fixed on layer of cloth using glue spraying, spliced between adjacent triangular strip and laid, and adjacent Gap between triangular strip is less than 2mm, between adjacent triangular strip resin nail can be used to be fixed and connect.

Structure layer of cloth 82 and lower structure layer of cloth 81, the structure under laying can be equipped with respectively in the levels of core 8 During layer of cloth 81, it can be overlapped between the both ends of lower structure layer of cloth 81 and flange layer of cloth 6.Effectively lifting wind electricity blade web group The quality of part.

Structure layer of cloth 82 and laying vacuum system carry out priming by vacuum in laying on core 8.It can be set on base 11 There are several vacuum through holes 111, can enter vacuum adsorbed technique by vacuum through holes 111.Wherein, in wind electricity blade web group On the leading edge web of part, mozzle can be then placed into die cavity center along butt to the tip of wind electricity blade web component. On the trailing edge web of wind electricity blade web component, mozzle is arranged on PS faces, and apart from lightning conductor 50-80mm.

Although the embodiment of the present invention is the foregoing described, it will be appreciated by those of skill in the art that this is only For example, protection scope of the present invention is to be defined by the appended claims.Those skilled in the art without departing substantially from On the premise of the principle and essence of the present invention, various changes or modifications can be made to these embodiments, but these changes and Modification each falls within protection scope of the present invention.

Claims (10)

1. a kind of mould, it includes die main body, it is characterised in that the mould also includes：

Two body flanges, two body flanges are respectively arranged at the both sides of the die main body, and two flanges Template is with the die main body formed with the first groove；

First module and the second module, first module and second module are respectively arranged at two first grooves It is interior, and between first module and one of them described body flange and second module and another described flange mould The second groove is each formed between plate.

2. mould as claimed in claim 1, it is characterised in that two body flanges and first module and described the Pressure is provided with lamellar body between two modules, and the lamellar body is located at the bottom land of second groove.

3. mould as claimed in claim 1, it is characterised in that first module and second module are formpiston, and The material of first module and second module is silica gel.

4. mould as claimed in claim 1, it is characterised in that the die main body includes：

Base；

Platform, the platform extend from one end of the base towards away from the direction of the base；

Wherein, two body flanges, first module, second module are all connected to the top surface of the base, and two The individual body flange is located at the both sides of the platform respectively.

5. mould as claimed in claim 4, it is characterised in that the base is provided with several vacuum through holes.

6. a kind of preparation method of wind electricity blade web component, it is characterised in that wind electricity blade web component includes web sheet Body, upper flange portion and lower flange portion, the upper flange portion and the lower flange portion are connected to the both ends of the web body；

The preparation method utilizes mould as claimed in claim 1, and the preparation method comprises the following steps：

S1, the die main body and second groove are irrigated so that the wind electricity blade web component is made.

7. the preparation method of wind electricity blade web component as claimed in claim 6, it is characterised in that before the step S1 Include step S11, the step S11 for flange layer of cloth is laid to the inner side of the body flange in first groove On.

8. the preparation method of wind electricity blade web component as claimed in claim 7, it is characterised in that the step S11 it Before include step S10, the step S10 is the inner side that the side for being stripped layer of cloth is connected to the body flange, and described Demoulding layer of cloth bends and turns to the top of the body flange, and the opposite side of the demoulding layer of cloth is connected to the flange layer of cloth.

9. the preparation method of wind electricity blade web component as claimed in claim 7, it is characterised in that before the step S1 And also including step S12 after the step S11, the step S12 includes：

S121, not porous release film laid in first groove and positioned at the flange of the inner side of the body flange On layer of cloth；

S122, first module and second module are respectively arranged in two first grooves and described in compressing not The bottom of porous release film and the flange layer of cloth；

S123, by described the body flange is not climbed at the top of porous release film and it be laid in first module or described In two modules and the die main body.

10. the preparation method of wind electricity blade web component as claimed in claim 9, it is characterised in that the step S1 it Preceding and also include step S13 after the step S12, the step S13 includes：

S131, by several, stiffeners are individually positioned in two second grooves down；

S132, core is laid on first module, second module and the die main body, if the core positioned at The top of the dry lower stiffener；

S133, stiffener on several is individually positioned in the both ends of the core and is pressed in the core and the flange mould Between plate.