CN208930768U - Wind turbine blade root preformed member is laid with production line automatically - Google Patents
Wind turbine blade root preformed member is laid with production line automatically Download PDFInfo
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- CN208930768U CN208930768U CN201821753857.0U CN201821753857U CN208930768U CN 208930768 U CN208930768 U CN 208930768U CN 201821753857 U CN201821753857 U CN 201821753857U CN 208930768 U CN208930768 U CN 208930768U
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Abstract
The utility model discloses a kind of wind turbine blade root preformed members to be laid with production line automatically, belong to paving cloth apparatus field, it is intended to provide a kind of production time that can reduce wind turbine blade root preformed member, the wind turbine blade root preformed member for improving production efficiency is laid with production line automatically, its drip irrigation device is as follows, a kind of wind turbine blade root preformed member is laid with production line automatically, it include: to cut station, conveying device and paving cloth structure, wherein, the paving cloth structure includes forming surface and loading surface, the forming surface fixed setting, the through slot being pierced by for forming surface is offered on the loading surface;The loading surface carries out straight reciprocating motion perpendicular to plane where itself;When the loading surface carries cloth, the forming surface highest point is non-bulging in the loading surface;When the forming surface forms cloth, the forming surface is pierced by loading surface, and cloth pasting is in the forming surface and completely disengages the loading surface.The utility model is suitable for automatic paving cloth.
Description
Technical field
The utility model relates to spread cloth equipment, in particular to wind turbine blade root preformed member is laid with production line automatically.
Background technique
Wind turbine blade root is made of cylinder, so per a piece of cloth be made of standard rectangular, only every cloth
The length of material is different, and traditional production method is by the cloth cut is manually stacked semicircle according to cloth length one by one
Pattern tool on, after the semi-circular preformed member stacked is laid on gel-injection mould by loop wheel machine, the semi-circular preformed member of two pieces
It bonds to form cylindrical blade root by glue, when the mode of manual work increases the production of wind turbine blade root preformed member
Between, reduce production efficiency.
In view of above-mentioned technical problem, the designer be based on being engaged in the application of such product engineering for many years practical experience abundant and
Professional knowledge, and cooperate the utilization of scientific principle, is actively subject to research and innovation, to found a kind of wind turbine blade root preformed member from
It is dynamic to be laid with production line, make it with more practicability.
Utility model content
First purpose of the utility model is to provide a kind of wind turbine blade root preformed member and is laid with production line automatically, makes pre-
The advantages of molded part one-pass molding has the production time that can reduce preformed member, improves production efficiency.
The above-mentioned technical purpose of the utility model has the technical scheme that
A kind of wind turbine blade root preformed member is laid with production line automatically, comprising:
Station is cut, for carrying and cutting cloth;
Conveying device, for conveying the cloth cut on station;
Spread cloth structure, laying and molding for preformed member;
Wherein, the paving cloth structure includes forming surface and loading surface, and the forming surface or the loading surface are fixedly installed, institute
State the through slot for offering on loading surface and being pierced by for forming surface;
The loading surface or the forming surface are perpendicular to plane progress straight reciprocating motion where the loading surface;
When the loading surface carries cloth, the forming surface highest point is non-bulging in the loading surface;
When the forming surface forms cloth, the forming surface is pierced by loading surface, cloth pasting in the forming surface and
Completely disengage the loading surface.
Further, the forming surface includes one or more than one at profile bar, and described be longitudinal section at profile bar is half
Circular strip structure.
Further, more than one at profile bar when described, be connected described is arranged in parallel at profile bar.
Further, the loading surface is located at through slot region equipped with several support bars, and each support bar is located at adjacent
Intersection construction is formed in the space that the molding item is formed.
Further, the area of the through slot is 2/3 or less the area of the loading surface.
Further, the loading surface is installed in support construction, the support construction include orthogonal crossbeam and
Longitudinal beam;
The both ends of the crossbeam are fixedly connected at the both ends of profile bar respectively, and one end of the longitudinal beam is fixed at profile bar
Connection, the other end are fixedly connected with crossbeam.
Further, supporting beam is equipped between the adjacent longitudinal beam, adjacent supports beam is symmetrical arranged, the supporting beam,
Longitudinal beam and crossbeam form more three-legged structures.
Further, the loading surface carries out straight reciprocating motion perpendicular to plane where itself specifically: the bearing material
Face is equipped with the elevating mechanism for driving loading surface lifting, and the elevating mechanism is installed in rack, and the elevating mechanism includes silk
The both ends of thick stick and screw, the screw rod are connect with gantry rotation respectively, and the screw is installed on loading surface, are pacified in the rack
Power source equipped with driving screw rod rotation.
Further, the loading surface is equipped with guide rod, and the both ends of the guide rod are fixedly connected with rack respectively.
Further, the conveying device includes robot and the suction cloth structure being connected with robot;
The suction cloth structure includes taking cloth frame and positioned at the needle piercing and sucking disk taken in cloth frame, the needle piercing and sucking disk rectangular array point
It is distributed in and takes in cloth frame.
Further, the station that cuts includes one or more than one cuts platform;
The stage+module that cuts has belt drive structure, and the belt drive structure drives cloth to be moved to cropped area;
The stage+module that cuts has portal frame, and it is past that the length direction that the portal frame cuts platform described in carries out straight line
Multiple movement;
Guillotine is installed, the guillotine carries out linear reciprocation along the length direction of the portal frame on the portal frame
Movement.
The utility model has the following beneficial effects:
Cloth is unreeled to station is cut, and is cut station and is cut to cloth, and conveying device conveys the cloth cut
To the top of paving cloth structure, then cloth is successively layed on loading surface, after the completion of all numbers of plies are laid with, loading surface band
Cloth decline together, cloth is formed with molding face contact, when forming surface is pierced by loading surface, cloth pasting in forming surface and
Loading surface is completely disengaged, one-pass molding is carried out to multilayer cloth, the production time of preformed member is reduced, improves production efficiency.
When loading surface carries cloth, forming surface highest point is non-bulging to avoid interference of the forming surface to cloth in loading surface,
Cloth is set to be laid on loading surface without swelling, so that cloth be made to obtain good tiling effects.In forming surface to cloth
When material molding, forming surface is pierced by loading surface, and cloth pasting is in forming surface and completely disengages the loading surface, avoids loading surface pair
The interference at cloth both ends, enables cloth to fit in forming surface completely, so that cloth be made to obtain good molding effect.
Second purpose of the utility model is to provide the control that a kind of wind turbine blade root preformed member is laid with production line automatically
Method processed can be realized cloth and unreel, cuts, conveys, is laid with and form automatically, the production of automation, continuous productive process mode,
Significantly improve production efficiency.
A kind of wind turbine blade root preformed member is laid with the control method of production line automatically, comprising the following steps:
1.1 unreel: unwinding device actively unreels forward cloth, cuts platform one end and unreeling shaft far from paving cloth structure
The distance between formed cloth Chu Buduan, cut platform conveyer belt rotation, drive cloth move forward in cropped area;
1.2 cut: being calculated by dimension of picture to be cut, guillotine corresponds to cloth according to the shape of figure to be cut and cutting out
The coordinate in region is cut, so that figure boundary rectangle central point to be cut is fallen on cropped area center line, along figure to be cut
Each cutting line cloth is cut;
1.3 take cloth: by the calculating of main control computer, controlling robot drive and cloth frame is taken to enter cropped area, pass through machine
The movement of people changes, so that taking cloth frame central point Chong Die with the cloth boundary rectangle central point cut, unlatching takes cloth in cloth frame
Expect all needle piercing and sucking disks covered, cloth is picked up;
1.4 stack: by the calculating of main control computer, controls robot drive and cloth frame and cloth is taken to enter above loading surface,
It according to the stacking pitch requirements of adjacent cloth, controls robot and drives the adjustment for taking cloth frame to carry out respective direction, behind in-position
It closes needle and adopts glassware, cloth can be overlayed in tooling;
1.5 tooling deformation: after the completion of cloth all stacks, loading surface starts to move down, and is layed on loading surface
Cloth is moved down with moving down for loading surface, and when touching forming surface, cloth starts to be formed along forming surface, until at
Type face is pierced by loading surface, and cloth pasting is in forming surface and completely disengages loading surface;
1.6 sizings: the cloth that deformation is completed in pre-setting agent is added and carries out shaping.
Further, in step 1.5, inductive switch is fixedly installed at the both ends of loading surface motion path.
The utility model has the following beneficial effects:
The control method that wind turbine blade root preformed member provided by the utility model is laid with production line automatically can be realized
Cloth is unreeled automatically, cuts, conveys, is laid with and formed, the production of automation, continuous productive process mode, significantly improve production
Efficiency.
Detailed description of the invention
Fig. 1 is in embodiment 1 for embodying the position that wind turbine blade root preformed member is laid with production line each section automatically
Schematic diagram;
Fig. 2 is in embodiment 1 for embodying needle piercing and sucking disk and taking the positional diagram of cloth frame;
Fig. 3 is in embodiment 1 for embodying the connection relationship diagram between paving each component of cloth structure;
Fig. 4 is to be laid with production line control flow chart automatically for embodying wind turbine blade root preformed member in embodiment 2.
In figure, 1, paving cloth structure;11, forming surface;111, at profile bar;12, loading surface;121, support bar;122, guide rod;
2, conveying device;21, robot;22, cloth structure is inhaled;221, cloth frame is taken;222, needle piercing and sucking disk;3, through slot;4, elevating mechanism;
41, lead screw;42, screw;5, rack;51, power source;6, support construction;61, crossbeam;62, longitudinal beam;63, supporting beam;7, pacify
Assembling platform;8, platform is cut;81, cropped area;82, portal frame;821, guillotine.
Specific embodiment
The utility model is described in further detail below in conjunction with attached drawing.
Wherein identical components are presented with like reference characters.It should be noted that word used in the following description
Language "front", "rear", "left", "right", "up" and "down" refer to the direction in attached drawing, word " bottom surface " and " top surface ", "inner" and
"outside" refers respectively to the direction towards or away from geometric center of specific component.
Embodiment 1: a kind of wind turbine blade root preformed member is laid with production line automatically, as shown in Figure 1, including cutting work
Position, for carrying and cutting cloth;Conveying device 2, for conveying the cloth cut on station;Cloth structure 1 is spread, for preforming
The laying and molding of part.
As shown in Figure 1, cut station include one or it is more than one cut platform 8, platform 8 is cut in the present embodiment to be had
It two, cuts platform 8 and is provided with drive mechanism, belt drive structure drives cloth to be moved to cropped area 81.Cut the peace of platform 8
Equipped with portal frame 82, portal frame 82 carries out straight reciprocating motion along the length direction for cutting platform 8.Sanction is installed on portal frame 82
Cut machine 821, guillotine 821 carries out straight reciprocating motion along the length direction of portal frame 82, and the structure of straight reciprocating motion can be with
It is realized by screw structure, this is the prior art, and details are not described herein.
As shown in Figure 1, conveying device 2 includes robot 21 and the suction cloth structure 22 being connected with robot 21, cloth structure is inhaled
22 include take cloth frame 221 and positioned at the needle piercing and sucking disk 222(taken in cloth frame 221 referring to fig. 2), 222 rectangular array of needle piercing and sucking disk point
It is distributed in and takes in cloth frame 221.The cloth cut is delivered to above paving cloth structure 1 by conveying device 2 from cropped area 81.
As shown in figure 3, paving cloth structure 1 includes forming surface 11 and loading surface 12, forming surface 11 or loading surface 12 are fixedly installed,
The through slot 3 being pierced by for forming surface 11 is offered on loading surface 12.Loading surface 12 or forming surface 11 are put down perpendicular to where loading surface 12
Face carries out straight reciprocating motion.
As shown in figure 3, here, the first situation is the fixed setting of forming surface 11, and loading surface 12 is perpendicular to flat where itself
Face carries out straight reciprocating motion;Second situation is the fixed setting of loading surface 12, and forming surface 11 is put down perpendicular to where loading surface 12
Face carries out straight reciprocating motion;The common ground of the two can generate mutual movement between loading surface 12 and forming surface 11, wherein
When loading surface 12 carries cloth, 11 highest point of forming surface is non-bulging in loading surface 12;When forming surface 11 forms cloth, at
Type face 11 is pierced by loading surface 12, and cloth pasting is in forming surface 11 and completely disengages loading surface 12.Wherein, cloth is carried in loading surface 12
When material, 11 highest point of forming surface is non-bulging in loading surface 12, and forming surface 11 is avoided so that cloth is laid in the interference of cloth
Without swelling on loading surface 12, so that cloth be made to obtain good tiling effects.When forming surface 11 forms cloth, molding
Face 11 is pierced by loading surface 12, and cloth pasting is in forming surface 11 and completely disengages loading surface 12, avoids loading surface 12 to cloth two
The interference at end enables cloth to fit in forming surface 11 completely, so that cloth be made to obtain good molding effect.The difference of the two
Point is that required total height is height where forming surface 11 to the first situation at the time of molding, and second situation is required total at the time of molding
Height is height where twice of forming surface 11.In the following part of specification, by taking the first situation as an example, to wind electricity blade root
Portion's preformed member is laid with production line automatically and is illustrated.
As shown in figure 3, loading surface 12 carries out straight reciprocating motion perpendicular to plane where itself specifically: loading surface 12
Left and right ends are respectively equipped with the elevating mechanism 4 for driving loading surface 12 to go up and down, and elevating mechanism 4 is installed in rack 5, elevating mechanism 4
Including lead screw 41 and screw 42, the both ends of lead screw 41 are rotatablely connected with rack 5 respectively, and screw 42 is installed on loading surface 12, machine
The power source 51 that driving lead screw 41 rotates is installed, the power source 51 in the present embodiment can use servo motor, be convenient on frame 5
The movement velocity and displacement of loading surface 12 are controlled;Ordinary motor can also be used, setting stroke in rack 5 is incorporated in and opens
It closes, travel switch is located at the both ends of 12 motion path of loading surface, the control to 12 position of loading surface can be realized.
As shown in figure 3, being worn to guarantee that 12 up and down motion path of loading surface is more accurate in 12 left and right ends of loading surface
Have guide rod 122, the axis direction of guide rod 122 is parallel with the axis direction of lead screw 41, the both ends of guide rod 122 respectively with machine
Frame 5 is fixedly connected.
As shown in figure 3, forming surface 11 is including one or more than one at profile bar 111, it is longitudinal section for partly at profile bar 111
Circular strip structure, it is more than one as profile bar 111, it is adjacent to be arranged in parallel at profile bar 111.Loading surface 12 is located at 3rd area of through slot
Domain is equipped with several support bars 121, and each support bar 121, which is located in the adjacent space formed at profile bar 111, forms intersection construction.At
Profile bar 111 is used in cloth forming process, support and molding to cloth, and support bar 121 is used for during cloth bearing material,
Cloth is supported, it is made to obtain good tiling effects, support bar 121 and the intersection construction formed at profile bar 111, it can
Enough relative motions for not influencing loading surface 12 and forming surface 11, and one-pass molding can be carried out to soft cloth, have and reduces wind
The advantages of production time of electric root of blade preformed member, raising production efficiency.When loading surface 12 carries cloth, forming surface 11
Highest point is non-bulging in loading surface 12, it is preferred that when loading surface 12 carries cloth, 11 highest point of forming surface and bearing material piece are neat
Flat, since cloth is made of standard rectangular, only the length of every cloth is different, therefore, cloth when stacking among it is most thick, at
The power that 11 center of type face is born is maximum.Above-mentioned preferred embodiment, making into profile bar 111 and support bar 121, there is collaboration to increase
The effect of effect support bar 121 and can be supported jointly cloth at profile bar 111 during 12 bearing material of loading surface, increase
The load of 12 center position of loading surface, to make loading surface 12 be not easy to collapse to center, and then cloth can obtain
Good tiling effects, while extending the service life of loading surface 12.
As shown in figure 3, the area of through slot 3 is the 2/3 of the area of loading surface 12 hereinafter, by control through slot 3 and loading surface
12 area ratio remains the area of loading surface 12 in the area of through slot 3 to control the load that loading surface 12 is able to bear
2/3 hereinafter, can select the area ratio of through slot 3 Yu loading surface 12, according to the actual layer number of cloth and total weight to guarantee
In the case where meeting use, cost is reduced as much as possible.
As shown in figure 3, loading surface 12 is installed in support construction 6, support construction 6 includes orthogonal crossbeam 61 and indulges
To beam 62.The both ends of crossbeam 61 are fixedly connected with the both ends at profile bar 111 respectively, and one end of longitudinal beam 62 is consolidated at profile bar 111
Fixed connection, the other end are fixedly connected with crossbeam 61, and specifically, longitudinal beam 62 is equipped at least one, when longitudinal beam 62 is equipped with one
When, longitudinal beam 62 is located at the center of crossbeam 61, when longitudinal beam 62 is equipped with two or two or more, outermost two
Longitudinal beam 62 is located at the 1/4 of crossbeam 61 and 3/4 position.61 pairs of the crossbeam both ends at profile bar 111 are supported, longitudinal beam
62 pairs are effectively supported at 111 different location of profile bar, increase the maximum load that can bear at profile bar 111, to make into
Profile bar 111 is not susceptible to deform, and prolongs its service life.Supporting beam 63, adjacent supports beam 63 are equipped between adjacent longitudinal beam 62
It is symmetrical arranged, supporting beam 63, longitudinal beam 62 and crossbeam 61 form more three-legged structures, and supporting beam 63 effectively props up longitudinal beam 62
Support, supporting beam 63, longitudinal beam 62 and crossbeam 61 form more three-legged structures, make the stable structure of support construction 6 itself, further increase
6 pairs of the support construction booster actions at profile bar 111.
As shown in figure 3, support construction 6 is removably attachable to mounting platform 7 towards the side of loading surface 12.Here, it props up
Support structure 6 can be permanently affixed on mounting platform 7, be such as integrally formed on mounting platform 7, can also be by being detachably fixed
Mode is fixed on mounting platform 7, such as is attached or be fixed on mounting platform 7 by screw connector.Such as using it is above-mentioned can
The fixed form of disassembly is used for a long time in flat modification tooling, after being worn at profile bar 111, can be tieed up by the later period
The mode of profile bar 111 is protected or be replaced with, the possibility for damaging cloth because corroding generation burr at profile bar 111 is reduced, thus into
One step guarantees the Forming Quality of flat modification tooling.
As shown in figure 3, mounting platform 7 is removably attachable in rack 5.Here, mounting platform 7 can be permanently affixed at
It in rack 5, is such as integrally formed in rack 5, can also be fixed in rack 5 by being detachably fixed mode, such as attached or logical
The connectors such as screw are crossed to be fixed in rack 5.
As shown in Figure 1, cloth is unreeled to station is cut, cut station and cloth is cut, conveying device 2 is to cutting
Cloth be delivered to paving cloth structure 1 top, then cloth is successively layed on loading surface 12, when all numbers of plies have been laid with
Cheng Hou, loading surface 12 decline together with cloth, and cloth is contacted with forming surface 11 and formed, when forming surface 11 is pierced by loading surface
12, cloth pasting is in forming surface 11 and completely disengages loading surface 12, carries out one-pass molding to multilayer cloth, reduces preformed member
Production time improves production efficiency.
Embodiment 2: a kind of wind turbine blade root preformed member is laid with the control method of production line automatically, such as Fig. 1 to Fig. 3 institute
Show, comprising the following steps:
1.1 unreel: unwinding device actively unreels forward cloth, cuts the one end of platform 8 far from paving cloth structure 1 and unreels
The distance between axis forms the Chu Buduan of cloth, cuts the conveyer belt rotation of platform 8, cloth is driven to move forward to cropped area
In 81;
1.2 cut: being calculated by dimension of picture to be cut, guillotine 821 corresponds to cloth according to the shape of figure to be cut
In the coordinate of cropped area 81 so that figure boundary rectangle central point to be cut is fallen on 81 center line of cropped area, along to
The each cutting line for cutting figure cuts cloth;
1.3 take cloth: by the calculating of main control computer, controlling the drive of robot 21 and cloth frame 221 is taken to enter cropped area 81, lead to
The movement variation for crossing robot 21 is opened so that taking 221 central point of cloth frame Chong Die with the cloth boundary rectangle central point cut
All needle piercing and sucking disks 222 that cloth has covered in cloth frame 221 are taken, cloth is picked up;
1.4 stack: by the calculating of main control computer, controlling the drive of robot 21 and cloth frame 221 and cloth is taken to enter loading surface
12 tops control robot 21 and drive the tune for taking cloth frame 221 to carry out respective direction according to the stacking pitch requirements of adjacent cloth
It is whole, needle is closed behind in-position and adopts glassware, cloth can be overlayed in tooling;
1.5 tooling deformation: after the completion of cloth all stacks, loading surface 12 starts to move down, and is layed in loading surface 12
On cloth moving down and move down with loading surface 12, when touching forming surface 11, cloth starts to carry out along forming surface 11
Molding, until forming surface 11 is pierced by loading surface 12, cloth pasting is in forming surface 11 and completely disengages loading surface 12;
1.6 sizings: the cloth that deformation is completed in pre-setting agent is added and carries out shaping.
In step 1.5, it is fixedly installed inductive switch at the both ends of 12 motion path of loading surface, inductive switch can be adopted
With travel switch or infrared inductor, the position of loading surface 12 can be precisely controlled, carry cloth in loading surface 12
When material, 11 highest point of forming surface is non-bulging in loading surface 12;When forming surface 11 forms cloth, forming surface 11 is pierced by loading surface
12, cloth pasting is in forming surface 11 and completely disengages loading surface 12.
The control method that wind turbine blade root preformed member provided by the utility model is laid with production line automatically can be realized
Cloth is unreeled automatically, cuts, conveys, is laid with and formed, the production of automation, continuous productive process mode, significantly improve production
Efficiency.
This specific embodiment is only the explanation to the utility model, is not limitations of the present invention, ability
Field technique personnel can according to need the modification that not creative contribution is made to the present embodiment after reading this specification, but
As long as all by the protection of Patent Law in the scope of the claims of the utility model.
Claims (8)
1. a kind of wind turbine blade root preformed member is laid with production line automatically characterized by comprising
Station is cut, for carrying and cutting cloth;
Conveying device (2), for conveying the cloth cut on station;
It spreads cloth structure (1), laying and molding for preformed member;
Wherein, the paving cloth structure (1) includes forming surface (11) and loading surface (12), the forming surface (11) or the loading surface
(12) it is fixedly installed, offers the through slot (3) being pierced by for forming surface (11) on the loading surface (12);
The loading surface (12) or the forming surface (11) are perpendicular to plane progress linear reciprocation fortune where the loading surface (12)
It is dynamic;
When the loading surface (12) carry cloth, forming surface (11) highest point is non-bulging in the loading surface (12);
When the forming surface (11) forms cloth, the forming surface (11) is pierced by loading surface (12), and cloth pasting is in described
Forming surface (11) and completely disengage the loading surface (12).
2. wind turbine blade root preformed member according to claim 1 is laid with production line automatically, which is characterized in that it is described at
Type face (11) includes one or more than one at profile bar (111), and described be longitudinal section at profile bar (111) is semicircular strip
Structure.
3. wind turbine blade root preformed member according to claim 2 is laid with production line automatically, which is characterized in that when described
It is more than one at profile bar (111), it is adjacent described to be arranged in parallel at profile bar (111).
4. wind turbine blade root preformed member according to claim 3 is laid with production line automatically, which is characterized in that described to hold
Charge level (12) is located at through slot (3) region equipped with several support bars (121), each support bar (121) be located at it is adjacent it is described at
Intersection construction is formed in the space that profile bar (111) is formed.
5. wind turbine blade root preformed member according to claim 2 is laid with production line automatically, which is characterized in that described to hold
Charge level (12) is installed on support construction (6), and the support construction (6) includes orthogonal crossbeam (61) and longitudinal beam
(62);
The both ends of the crossbeam (61) are fixedly connected with the both ends at profile bar (111) respectively, one end of the longitudinal beam (62) with
It is fixedly connected at profile bar (111), the other end is fixedly connected with crossbeam (61).
6. wind turbine blade root preformed member according to claim 5 is laid with production line automatically, which is characterized in that adjacent institute
It states and is equipped with supporting beam (63) between longitudinal beam (62), adjacent supports beam (63) is symmetrical arranged, the supporting beam (63), longitudinal beam
(62) more three-legged structures are formed with crossbeam (61).
7. wind turbine blade root preformed member according to claim 1 is laid with production line automatically, which is characterized in that described defeated
Sending device (2) includes robot (21) and the suction cloth structure (22) being connected with robot (21);
Suction cloth structure (22) includes taking cloth frame (221) and positioned at the needle piercing and sucking disk (222) taken on cloth frame (221), the needle
Piercing and sucking disk (222) rectangular array, which is distributed in, to be taken on cloth frame (221).
8. wind turbine blade root preformed member according to claim 1 is laid with production line automatically, which is characterized in that the sanction
Cutting position includes one or more than one cuts platform (8);
The platform (8) that cuts is provided with drive mechanism, and the belt drive structure drives cloth to be moved to cropped area (81);
The platform (8) that cuts is equipped with portal frame (82), and the portal frame (82) is along the length direction for cutting platform (8)
Carry out straight reciprocating motion;
It is equipped with guillotine (821) on the portal frame (82), length side of the guillotine (821) along the portal frame (82)
To progress straight reciprocating motion.
Priority Applications (1)
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CN201821753857.0U CN208930768U (en) | 2018-10-26 | 2018-10-26 | Wind turbine blade root preformed member is laid with production line automatically |
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CN201821753857.0U CN208930768U (en) | 2018-10-26 | 2018-10-26 | Wind turbine blade root preformed member is laid with production line automatically |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109130246A (en) * | 2018-10-26 | 2019-01-04 | 常州市新创智能科技有限公司 | Wind turbine blade root preformed member is laid with production line and control method automatically |
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2018
- 2018-10-26 CN CN201821753857.0U patent/CN208930768U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109130246A (en) * | 2018-10-26 | 2019-01-04 | 常州市新创智能科技有限公司 | Wind turbine blade root preformed member is laid with production line and control method automatically |
CN109130246B (en) * | 2018-10-26 | 2023-04-14 | 常州市新创智能科技有限公司 | Automatic laying production line for wind power blade root preformed piece and control method |
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