CN207954432U - Wind-powered blade mold system - Google Patents

Abstract

The utility model is suitable for wind electricity blade manufacturing technology field, provide a kind of wind-powered blade mold system, including upper mold, lower mold and locating flange, upper mold includes upper mold ontology, lower mold includes the lower die ontology fastened with upper mold ontology, locating flange includes upper flange component and lower flange component, upper mold further includes upper hydraulic cylinder, the cylinder body of upper hydraulic cylinder is connected with upper mold ontology, the piston rod of upper hydraulic cylinder is connected with upper flange component, lower mold further includes lower hydraulic cylinder, the cylinder body of lower hydraulic cylinder is connected with lower die ontology, the piston rod of lower hydraulic cylinder is connected with lower flange component.Wind-powered blade mold system provided by the utility model between upper mold and upper flange component by being arranged upper driving hydraulic cylinder, driving hydraulic cylinder under being arranged between lower mold and lower flange component, locating flange is set to install or detach with upper mold and lower mold by hydraulic-driven, it is easy to operate, improve wind electricity blade production efficiency.

Description

Wind-powered blade mold system

Technical field

The utility model belongs to wind electricity blade manufacturing technology field, is to be related to a kind of wind-powered blade mold more specifically System.

Background technology

Wind-power electricity generation receives social concerns more and more as a kind of clean energy resource.Wind electricity blade is filled using mold It notes, covers mode, i.e. positioning mode during blade forming in blade root and host connecting portion generally use pre-embedded bolt Bolt sleeve is embedded in root of blade end face by orchid, by stud connection blade and wind-powered electricity generation host after molding.

Wind-powered blade mold system include upper mold, with the symmetrically arranged lower die of upper mold and for root of blade end face it is molding Locating flange, upper die and lower die snap together, and several location holes for positioning bolt set are equipped on locating flange.Because There is certain gradient, in addition to needing after removing upper mold, also to be needed so after the completion of wind electricity blade is perfused for root of blade end face Locating flange is also separated with lower die with overhead traveling crane, otherwise directly wind electricity blade is removed from lower die and locating flange and can be damaged Hinder root of blade end face.But installed every time with overhead traveling crane or to remove locating flange cumbersome, reduce wind electricity blade production Efficiency.

Utility model content

The purpose of this utility model is to provide a kind of wind-powered blade mold systems, it is intended to solve wind-powered electricity generation leaf in the prior art The locating flange of sheet mold system need overhead traveling crane cooperation installation or remove and cause it is cumbersome, reduce wind electricity blade production The technical issues of efficiency.

To achieve the above object, the technical solution adopted in the utility model is：Wind-powered blade mold system, including upper mold Have, set on the lower mold of the upper mold lower part and set on the upper mold and described lower mold one end and for root of blade end The molding locating flange in face, the upper mold include upper mold ontology, and the lower mold includes being fastened with the upper mold ontology Lower die ontology, the upper mold ontology and the lower die ontology are part symmetrical above and below, and the locating flange includes presenting It is lower symmetrically to abut the upper flange component being arranged and lower flange component, it is set respectively on the upper flange component and the lower flange component It further includes for driving in the horizontal direction to have several location holes for being distributed and being used for positioning bolt set in semi-circular, the upper mold Upper hydraulic cylinder of the upper flange component far from or close to the upper mold, the cylinder body of the upper hydraulic cylinder and the upper mold sheet Body is connected, and the piston rod of the upper hydraulic cylinder is connected with the upper flange component, and the lower mold further includes for along level side To driving the lower hydraulic cylinder of the lower flange component far from or close to the lower mold, the cylinder body of the lower hydraulic cylinder with it is described under Die ontology is connected, and the piston rod of the lower hydraulic cylinder is connected with the lower flange component.

Further, the lower mold further includes the lower metal framework set on the lower mold body lower part.

Further, the lower flange component is equipped with the second pilot hole, and the lower metal framework is equipped with and described the Two pilot holes are oriented to the second guide rod of cooperation.

Further, the upper mold further includes the upper metal framework set on the upper mold body upper part.

Further, the upper flange component is equipped with the first pilot hole, and the upper metal framework is equipped with and described the One pilot hole is oriented to the first guide rod of cooperation.

Further, further include for and meanwhile overturn the switching mechanism of the upper mold and the upper flange component, it is described Switching mechanism is connected with the upper mold and the upper flange component respectively.

Further, further include for and meanwhile overturn the switching mechanism of the upper mold and the upper flange component, it is described Switching mechanism is connected with the upper mold and the upper flange component respectively, and the upper mold further includes being set to the upper mold The upper metal framework of body upper part.

Further, the upper hydraulic cylinder and the lower hydraulic cylinder are respectively provided with two, and the two upper hydraulic cylinders are divided into The both sides of the upper mold ontology, the two lower hydraulic cylinders are divided into the both sides of the lower die ontology.

Wind-powered blade mold system provided by the utility model compared with prior art, by upper mold and upper flange structure Upper driving hydraulic cylinder is set between part, and driving hydraulic cylinder under being arranged between lower mold and lower flange component makes locating flange can Avoid the prior art fixed using overhead traveling crane installation or separation either to be detached with upper mold and the installation of lower mold by hydraulic-driven Position flange, it is easy to operate, improve wind electricity blade production efficiency.

Description of the drawings

It, below will be to embodiment or the prior art in order to illustrate more clearly of the technical scheme in the embodiment of the utility model Attached drawing needed in description is briefly described, it should be apparent that, the accompanying drawings in the following description is only that this practicality is new Some embodiments of type for those of ordinary skill in the art without having to pay creative labor, can be with Obtain other attached drawings according to these attached drawings.

Fig. 1 is the schematic diagram for the wind-powered blade mold system that the utility model embodiment provides；

Wherein, each reference numeral in figure：

1, upper mold ontology；2, lower die ontology；3, upper flange component；31, location hole；4, lower flange component；5, upper liquid Cylinder pressure；6, lower hydraulic cylinder；7, upper metal framework；8, lower metal framework；9, the first guide rod；10, the second guide rod.

Specific implementation mode

In order to make technical problem to be solved in the utility model, technical solution and advantageous effect be more clearly understood, with Lower combination accompanying drawings and embodiments, the present invention will be further described in detail.It should be appreciated that specific reality described herein It applies example to be only used to explain the utility model, is not used to limit the utility model.

It should be noted that term " length ", " width ", " height ", " thickness ", "upper", "lower", "front", "rear", The orientation or positional relationship of the instructions such as "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outside", " head ", " tail " is It is based on the orientation or positional relationship shown in the drawings, is merely for convenience of describing the present invention and simplifying the description, rather than indicate Or imply that signified device or element must have a particular orientation, with specific azimuth configuration and operation, therefore cannot understand For limitations of the present invention.

It should also be noted that, unless otherwise clearly defined and limited, " installation ", " connected ", " connection ", " fixation ", Terms such as " settings " shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or integral；It can be with It is mechanical connection, can also be electrical connection；It can be directly connected, can also can be indirectly connected through an intermediary two The interaction relationship of connection or two elements inside a element.For the ordinary skill in the art, Ke Yigen Understand the concrete meaning of above-mentioned term in the present invention according to concrete condition.

In addition, term " first ", " second " are used for description purposes only, it is not understood to indicate or imply relative importance Or implicitly indicate the quantity of indicated technical characteristic.Define " first " as a result, the feature of " second " can be expressed or Implicitly include one or more this feature." multiple ", " several " are meant that two in the description of the present invention, Or it is more than two, unless otherwise specifically defined.

Fig. 1 is referred to, now the embodiment of wind-powered blade mold system provided by the utility model is illustrated.Wind-powered electricity generation leaf Sheet mold system, including upper mold, set on the lower mold of upper mold lower part and set on upper mold and lower mold one end and it is used for leaf The molding locating flange in piece root end face.Upper mold includes upper mold ontology 1, and lower mold includes being fastened with upper mold ontology 1 Lower die ontology 2, upper mold ontology 1 and lower die ontology 2 are part symmetrical above and below, and locating flange includes being set in abutting symmetrical above and below The upper flange component 3 and lower flange component 4 set, upper flange component 3 and lower flange component 4 are symmetrical components.1 He of upper mold ontology Lower die ontology 1 forms the filling cavity for form with locating flange.

Several be distributed in semi-circular and for positioning bolt set is respectively equipped on upper flange component 3 and lower flange component 4 Location hole 31, abutted when upper flange component 3 and lower flange component 4 together with after, in semi-circular distribution on upper flange component 3 It is several for fixed that several location holes and several location holes 31 being distributed in semi-circular on lower flange component 4 just constitute a whole circle The location hole 31 of position bolt sleeve.Upper mold further includes the upper hydraulic cylinder 5 for driving upper flange component 3 in the horizontal direction, upper liquid The cylinder body of cylinder pressure 5 is connected with upper mold ontology 1, and the piston rod of upper hydraulic cylinder 5 is connected with upper flange component 3, and lower mold further includes Lower hydraulic cylinder 6 for driving lower flange component in the horizontal direction, the cylinder body of lower hydraulic cylinder 6 are connected with lower die ontology 2, lower liquid The piston rod of cylinder pressure 6 is connected with lower flange component 4.

When removing wind electricity blade after the completion of perfusion, upper method can be respectively driven first with upper hydraulic cylinder 5 and lower hydraulic cylinder 6 Blue component 3 and lower flange component 4 are detached with upper mold ontology 1 and lower die ontology 2, are then made using overhead traveling crane or switching mechanism Then upper mold and upper flange component 3 further take out wind electricity blade, whole operation process is more previous simultaneously with lower mold separation Compared to easier, and equally will not damaged blade root end face.When needing perfusion, first with overhead traveling crane or switching mechanism So that upper mold is snapped together with lower mold, while upper flange component 3 and lower flange component 4 being made to abut, utilizes upper hydraulic pressure later Cylinder 5 and lower hydraulic cylinder 6 respectively drive upper flange component 3 and lower flange component 4 close to upper mold ontology 1 and lower die ontology 2, and Upper flange component 3 and lower flange component 4 is set to abut installation with upper mold ontology 1 and lower die ontology 2 respectively, material is thus formed The filling cavity of form.

The utility model embodiment provide wind-powered blade mold system compared with prior art, by upper mold with it is upper Upper driving hydraulic cylinder is set between flange component, and driving hydraulic cylinder under being arranged between lower mold and lower flange component makes positioning Flange can either be detached by hydraulic-driven and upper mold and the installation of lower mold avoid the prior art using overhead traveling crane installation or It is located separately flange, it is easy to operate, improve wind electricity blade production efficiency.

Further, Fig. 1 is referred to, lower mold further includes the lower metal framework 8 set on 2 lower part of lower die ontology, lower gold It can be that lower die tool ontology 2 provides a supporting role to belong to frame 8.Preferably, lower hydraulic cylinder 6 passes through lower metal framework 8 and lower mold Ontology 2 is connected.

Further, Fig. 1 is referred to, lower flange component 4 is equipped with the second pilot hole, and lower metal framework 8 is equipped with and the Two pilot holes are oriented to the second guide rod 9 of cooperation, can be lower hydraulic cylinder 6 by the way that the second pilot hole and the second guide rod 9 is arranged Driving lower flange component 4 provides guiding role in the horizontal direction.

Further, Fig. 1 is referred to, upper mold further includes the upper metal framework 7 set on 1 top of upper mold ontology, overhead traveling crane Suspension hook can catch on metal framework 7, can be that hanged upper mold and upper flange component 3 provide facility in this way.Preferably, on Hydraulic cylinder 5 is connected by upper metal framework 7 with upper mold ontology 1.

Further, Fig. 1 is referred to, upper flange component 3 is equipped with the first pilot hole, and upper metal framework 7 is equipped with and the One pilot hole is oriented to the first guide rod 10 of cooperation, can be upper liquid cylinder pressure by the way that the first pilot hole and the first guide rod 10 is arranged 5 drive upper flange component 3 to provide guiding role in the horizontal direction.

Preferably, the second guide rod 9 and the first guide rod 10 are respectively provided with the limited block of limit, can thus limit Surely the stroke of upper hydraulic cylinder 5 and lower hydraulic cylinder 6, also just defines the stroke of upper flange component 3 and lower flange component 4.

Further, Fig. 1 is referred to, upper hydraulic cylinder 5 and lower hydraulic cylinder 6 are respectively provided with two, and two upper hydraulic cylinders 5 set up separately In upper mold ontology 1 (left and right) both sides, two lower hydraulic cylinders 6 are divided into lower die ontology 2 (left and right) both sides.Preferably, first Pilot hole and the first guide rod 10, which are also respectively provided with, occupies two sets of both sides, and the second pilot hole and the second guide rod 9 also have respectively There are occupy both sides two sets.

Further, Fig. 1 is referred to, the wind-powered blade mold system that the utility model embodiment provides further includes for same When overturn upper mold and upper flange component 3 switching mechanism (not shown), switching mechanism respectively with upper mold and upper flange component 3 It is connected.Upper mold and upper flange component 3 can be detached with lower mold and lower flange component 4 simultaneously using ad hoc switching mechanism Or be installed together, the operation of overhead traveling crane is saved, more convenient and raising efficiency.

The above is only the preferred embodiment of the utility model only, is not intended to limit the utility model, all at this All any modification, equivalent and improvement etc., should be included in the utility model made by within the spirit and principle of utility model Protection domain within.

Claims (8)

1. wind-powered blade mold system, including upper mold, set on the upper mold lower part lower mold and be set to the upper mold With described lower mold one end and for the molding locating flange in root of blade end face, the upper mold includes upper mold ontology, institute It includes the lower die ontology fastened with the upper mold ontology to state lower mold, and the upper mold ontology and the lower die ontology are Part symmetrical above and below, the locating flange include in it is symmetrical above and below abut setting upper flange component and lower flange component, it is described on Several location holes for being distributed and being used for positioning bolt set in semi-circular are respectively equipped on flange component and the lower flange component, It is characterized in that：The upper mold further includes for driving the upper flange component separate in the horizontal direction or close to the upper mold Upper hydraulic cylinder, the cylinder body of the upper hydraulic cylinder is connected with the upper mold ontology, the piston rod of the upper hydraulic cylinder with it is described Upper flange component is connected, and the lower mold further includes for driving the lower flange component separate in the horizontal direction or close to described The lower hydraulic cylinder of lower mold, the cylinder body of the lower hydraulic cylinder are connected with the lower die ontology, the piston rod of the lower hydraulic cylinder It is connected with the lower flange component.

2. wind-powered blade mold system as described in claim 1, it is characterised in that：The lower mold further include be set to it is described under The lower metal framework of die ontology lower part.

3. wind-powered blade mold system as claimed in claim 2, it is characterised in that：The lower flange component is led equipped with second Xiang Kong, the lower metal framework are equipped with the second guide rod that cooperation is oriented to second pilot hole.

4. wind-powered blade mold system as described in any one of claims 1 to 3, it is characterised in that：The upper mold further includes Set on the upper metal framework of the upper mold body upper part.

5. wind-powered blade mold system as claimed in claim 4, it is characterised in that：The upper flange component is led equipped with first Xiang Kong, the upper metal framework are equipped with the first guide rod that cooperation is oriented to first pilot hole.

6. wind-powered blade mold system as claimed in claim 4, it is characterised in that：Further include being used for while overturning the upper mold Tool and the upper flange component switching mechanism, the switching mechanism respectively with the upper mold and the upper flange component phase Even.

7. wind-powered blade mold system as described in any one of claims 1 to 3, it is characterised in that：Further include being used for while turning over Turn the upper mold and the upper flange component switching mechanism, the switching mechanism respectively with the upper mold and the upper method Blue component is connected.

8. wind-powered blade mold system as described in any one of claims 1 to 3, it is characterised in that：The upper hydraulic cylinder and institute It states lower hydraulic cylinder and is respectively provided with two, the two upper hydraulic cylinders are divided into the both sides of the upper mold ontology, the two lower hydraulic pressure Cylinder is divided into the both sides of the lower die ontology.