CN109895411B - Web integral type bonding frock - Google Patents

Abstract

The invention discloses a web integrated bonding tool, which is used for a wind power blade mould and comprises a tool body, a placing supporting leg for supporting the tool body, a positioning groove for the placing supporting leg to penetrate through is formed in the wind power blade mould, a web bonding positioning structure for bonding and positioning the tool body and a web, a vacuum adsorption system for adsorbing the web onto the tool body during bonding, a web bonding gap control device for controlling the web gap, a web tool hoisting and balance adjusting device for hoisting and balance adjusting the web, a web internal rotating supporting leg for rotatably supporting the web, a web tip positioning device for positioning the web tip and the wind power blade mould, and a power supply control system electrically connected with the vacuum adsorption system. This web integral type bonding frock process is simple, convenient operation, and the security is higher, improves production efficiency, the effectual web bonding and the wind-powered electricity generation blade quality that has improved.

Description

Web integral type bonding frock

Technical Field

The invention relates to the technical field of wind power blade manufacturing, in particular to a wind power blade web integrated bonding tool.

Background

Wind energy has become one of the most promising projects for commercial promotion in the field of energy, and is rapidly developed at home and abroad at present. The wind energy blade plays a very important role in the wind energy power generation technology.

The wind power blade is taken as a core component of a unit, the wind power blade technology is one of core technologies of a wind power generation system, and the wind power blade is mainly formed by bonding a Suction Surface (SS) shell, a Pressure Surface (PS) shell and a web plate of the blade through adhesives. The web plate is also called a reinforcing rib and comprises a front edge web plate and a rear edge web plate which is arranged symmetrically with the front edge web plate. In the existing blade manufacturing process, the web bonding still adopts split type bonding, mainly through simple and easy location frock, then hangs the web into the casing respectively with hoisting equipment, and the process is loaded down with trivial details, and the risk is great, and the quality of product itself is difficult to guarantee. Therefore, in the production and manufacturing process of the blade, the bonding of the web plates is time-consuming, labor-consuming and poor in positioning effect, and meanwhile, the material loss is easily caused, so that the quality of the blade shell and the production period are greatly influenced.

Disclosure of Invention

The invention aims to provide a wind power blade web integrated web bonding positioning structure and a positioning method, and solves the problems that in the prior art, web positioning and bonding efficiency are low, labor intensity is high, and web bonding and positioning effects are influenced.

The invention discloses a web integrated bonding tool, which is used for a wind power blade mould and is characterized by comprising a tool body, a placing supporting leg, a vacuum adsorption system, a web bonding gap control device, a web tool hoisting and balance adjusting device, a web internal rotating supporting leg, a web tip positioning device and a power supply control system, wherein the placing supporting leg is used for supporting the tool body, the placing supporting leg is provided with a positioning groove for the placing supporting leg to penetrate through, the placing supporting leg is also used for bonding and positioning the wind power blade mould and a web, the vacuum adsorption system is used for adsorbing a web to the tool body during bonding, the web bonding gap control device is used for controlling the web gap, the web tool hoisting and balance adjusting device is used for hoisting and balance adjusting the web, the web internal rotating supporting leg is used for rotatably supporting the web, the.

Further, the web integrated bonding tool comprises a vacuum chuck, the vacuum chuck is mounted on a vacuum chuck mounting leg through a vacuum chuck mounting plate, the vacuum chuck mounting leg is mounted on the tool body through a vacuum chuck locking and positioning device, and a limiting structure used for limiting contact with a web is further arranged on the vacuum chuck mounting plate.

Further, the web integrated bonding tool comprises chord-direction placing supporting legs and axial placing supporting legs, wherein the chord-direction placing supporting legs and the axial placing supporting legs are used for chord-direction positioning and axial positioning of the tool body and the wind power blade die, and the chord-direction placing supporting legs and the axial placing supporting legs are respectively and fixedly connected with the wind power blade die.

Furthermore, the web integrated bonding tool comprises chord-direction positioning blocks for positioning the tool body in the chord direction, support legs are installed in the chord direction, and the chord-direction positioning blocks are installed on the upper parts of the chord-direction installation support legs; the lower part of the chord-direction installation supporting leg is provided with a chord-direction positioning pin, the chord-direction positioning supporting leg is provided with a chord-direction positioning groove matched with the chord-direction positioning pin, the chord-direction installation supporting leg is connected with the tool body in a positioning manner through the chord-direction positioning block, the chord-direction positioning supporting leg is fixedly connected with the wind power blade mold, and the chord-direction installation supporting leg is fixedly positioned with the chord-direction positioning pin and the chord-direction positioning groove through the chord-direction positioning supporting leg.

Further, the web integrated bonding tool comprises an axial positioning block for axially positioning the tool body, an axial installation supporting leg and an axial positioning supporting leg, wherein the axial positioning block is installed at the upper part of the axial installation supporting leg; the lower part of the axial installation supporting leg is provided with an axial positioning pin, the axial positioning supporting leg is provided with an axial positioning groove matched with the axial positioning pin, the axial installation supporting leg is fixedly connected with the tool body through an axial positioning block, the axial installation supporting leg is fixedly connected with the tool body, the axial orientation supporting leg is fixedly connected with the wind power blade mold, and the axial installation supporting leg is fixedly positioned through the axial positioning pin and the axial positioning groove.

Further, the web integrated bonding tool comprises a web bonding root positioning structure arranged on the tool body and comprising a web chordwise positioning aluminum plate, a web bonding axial positioning block arranged on the web chordwise positioning aluminum plate, wherein the web chordwise positioning aluminum plate is fixed to the positioning aluminum plate chordwise adjusting device through an aluminum profile assembling frame, and the positioning aluminum plate is subjected to position adjustment through the chordwise adjusting device.

Further, the web integrated bonding tool comprises a rotatable adjusting pressure plate, wherein the rotatable adjusting pressure plate is connected with the pressing support rod and is mounted on a mounting adjusting plate of the pressing support rod through an upper adjusting plate and a lower adjusting plate, and the rotatable adjusting pressure plate can rotatably move up and down along with the upper adjusting plate and the lower adjusting plate.

The web integrated bonding tool further comprises a web internal rotating supporting leg, wherein the web internal rotating supporting leg is movably connected with the web internal rotating supporting leg mounting plate, the web internal rotating supporting leg comprises a web internal supporting structure, a rotating supporting rod mounting plate for mounting the rotating supporting rod and a connecting rod integrally connected with the rotating supporting rod, the web internal supporting structure is arranged on the rotating supporting rod, the rotating supporting rod mounting plate is connected with the web internal rotating supporting leg mounting plate, the web internal rotating supporting leg further comprises an air cylinder, the air cylinder is pneumatic after a vacuum adsorption system sucks the web, the web is controlled to rotate by 0-90 degrees, and the air cylinder is electrically connected with the power supply control system.

Furthermore, the web integrated bonding tool comprises a web tip positioning device, a positioning aluminum plate supporting leg and a positioning aluminum plate adjusting mechanism, wherein the positioning aluminum plate positioning device comprises a positioning aluminum plate for positioning the A surface of the web, the positioning aluminum plate supporting leg is used for installing the positioning aluminum plate, the positioning aluminum plate adjusting mechanism is used for adjusting the upper height and the lower height of the positioning aluminum plate along the positioning aluminum plate supporting leg, and an angle-adjustable pressing plate is arranged on the positioning aluminum plate adjusting mechanism.

Further, the web integrated bonding tool comprises 10 placing support legs, 9 chord-direction placing support legs and 1 axial placing support leg, wherein at least part of the chord-direction placing support legs are symmetrically arranged, and the web bonding gap control devices are arranged in a group every 2 meters along the axial direction of the wind power blade mould.

Has the advantages that: compared with a web split type bonding tool, the web integrated bonding tool is simple in process, convenient to operate, high in safety, capable of improving production efficiency and effectively improving web bonding quality, and accordingly quality of wind power blades is guaranteed. The bonding gap can be accurately controlled by the web bonding gap control device 306, so that the waste of bonding glue amount is prevented; the vacuum adsorption system 302 is high in loading stability by adopting a customized sucker and can be customized according to the shape; the adjustable pressing plate can be matched with various web types and always keeps fit; the supporting legs are accurately positioned and convenient to operate, and can be folded, so that the space occupancy rate is reduced; the lifting points are optimized to be two, are arranged in front of and behind the web plate tool lifting and balance adjusting device and can be adjusted horizontally; the rotary supporting legs in the web plate are convenient to operate, and the web plate can be effectively prevented from sliding downwards; structurally utilize the aluminium alloy in a large number, effectively subtract heavy, and stable in structure.

Drawings

FIG. 1 is an assembly schematic diagram of a web integrated bonding tool, a web and a wind power blade die.

Fig. 2 is a structural schematic diagram of a web integrated bonding tool.

Fig. 3 and 2 are schematic structural diagrams (partially enlarged) of a web bonding root positioning structure 301 of the web integrated bonding tool.

Fig. 4 and 2 are schematic structural diagrams (partially enlarged) of a vacuum adsorption system 302 of the web integrated bonding tool.

Fig. 5 and fig. 2 are schematic structural diagrams (partially enlarged) of chord-wise positioning support legs 3034 in the web bonding positioning structure 303 of the web integrated bonding tool.

Fig. 6 and 2 show schematic structural diagrams (partially enlarged) of chord-wise placement of the support leg 304 in the web bonding positioning structure 303 of the web integrated bonding tool.

Fig. 7 is a schematic view (partially enlarged) of an axial positioning support leg 305 of the web integrated bonding tool.

Fig. 8 is a schematic structural view (partially enlarged view) of a web bonding gap control device 306 of the web integrated bonding tool.

Fig. 9 is a schematic structural view (partially enlarged view) of a web tool hoisting and balance adjusting device 307 of the web integrated bonding tool.

Fig. 10 and fig. 2 show a schematic structural view (partially enlarged view) of the web inner rotating support leg 308 of the web integrated bonding tool.

Fig. 11 and 2 are schematic structural diagrams (partially enlarged) of a web tip positioning structure 309 of the web integrated bonding tool.

Reference numerals: 1. a wind power blade mold; 2. a web; 3. a web integrated bonding tool; 301 bonding a web plate with a root positioning structure; 3011. positioning the aluminum plate in the chord direction of the web plate; 3012. a web plate axial positioning block; 3013. an aluminum profile assembling frame; 3014. positioning the aluminum plate chord direction adjusting device; 302. a vacuum adsorption system; 3021. the vacuum chuck is provided with supporting legs; 3022. locking the positioning device; 3023. a vacuum chuck mounting plate; 3024. customizing a limiting aluminum plate; 3025. a vacuum chuck; 303. a web bonding positioning structure; 3031. installing support legs in the chord direction; 3032. a chord-wise positioning pin; 3033. a chord-direction positioning groove; 3034. a chord-wise positioning support leg; 304. support legs are placed in the chord direction; 3041. the rotary supporting leg mounting plate is arranged in the web plate; 3042. positioning the supporting leg; 3043. a rotating support structure; 305. axially positioning the support leg; 3051. axially installing a supporting leg; 3052. an axial positioning pin; 3053. an axial positioning groove; 3054. axially placing the support legs; 306. a web bonding gap control device; 3061. pressing the support rod downwards; 3062. the adjusting plate is arranged on the pressing support rod; 3063. adjusting the mounting plate up and down; 3064. rotating the adjustable pressure plate; 307. a web plate tool hoisting and balance adjusting device; 308. a web internal rotation support leg; 3081. a rotating support bar mounting plate; 3082. rotating the support rod; 3083. the rotating support rod is an integrated connecting rod; 3084. an internal web support structure; 309. a web tip positioning device; 3091. positioning the aluminum plate supporting legs; 3092. positioning an aluminum plate adjusting mechanism; 3093. positioning the aluminum plate; 3094. the angle adjustable clamp plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in figures 1-11, the web integrated bonding tool 3 of the invention is used for a wind power blade mould 1, and comprises a tool body and a placing supporting leg for supporting the tool body, wherein the wind power blade mould 1 is provided with a positioning groove for the placing supporting leg to pass through, the placing supporting leg comprises a chordwise placing supporting leg 304 and an axial placing supporting leg 305 for positioning the tool body and the wind power blade mould in chordwise and axial directions, the placing supporting leg is also used for bonding and positioning the wind power blade mould and a web, a vacuum adsorption system 302 for adsorbing the web 2 on the tool body during bonding, a web bonding gap control device 306 for controlling the gap of the web 2, a web tool hoisting and balance adjusting device 307 for hoisting and balance adjusting the web 2, and a web internal rotating supporting leg 308 for rotatably supporting the web 2, a web tip positioning device 309 for positioning the tip of the web 2 and the wind power blade mould 1, and a power supply control system electrically connected with the vacuum adsorption system 302.

Further, the web integrated bonding tool 3 provided by the invention comprises a vacuum chuck 3025, wherein the vacuum chuck 3025 is mounted on a vacuum chuck mounting leg 3021 through a vacuum chuck mounting plate 3023, the vacuum chuck mounting leg 3021 is mounted on the tool body through a locking and positioning device 3022, and a customized limiting aluminum plate 3024 for limiting the contact with the web is further arranged on the vacuum chuck mounting plate 3023.

Further, the web integrated bonding tool 3 comprises chord-direction placing supporting legs 304 and axial placing supporting legs 305 which are used for chord-direction positioning and axial positioning of a tool body and a wind power blade die, and the chord-direction placing supporting legs 304 and the axial placing supporting legs 305 are fixedly connected with the wind power blade die 1 respectively.

Further, the web integrated bonding tool 3 of the invention is characterized in that the chordwise placement support leg 304 comprises a chordwise positioning block for positioning the chordwise direction of the tool body, the chordwise installation support leg 3031 and the chordwise positioning support leg 3034 are mounted on the upper part of the chordwise installation support leg 3031; a chord-direction positioning pin 3032 is arranged at the lower part of the chord-direction mounting support leg 3031, a chord-direction positioning groove 3033 matched with the chord-direction positioning pin 3032 is arranged on the chord-direction positioning support leg 3034, the chord-direction mounting support leg 3031 is connected with the tool body in a positioning manner through the chord-direction positioning block, the chord-direction mounting support leg 3031 is fixedly connected with the wind power blade mold 1, and the chord-direction mounting support leg 3031 and the chord-direction positioning support leg 3034 are fixedly positioned through the chord-direction positioning pin 3032 and the chord-direction positioning groove 3033.

Further, the web integrated bonding tool 3 provided by the invention is characterized in that the axially placed support leg 3051 comprises an axial positioning block for axially positioning the tool body, an axially installed support leg 3051 and an axially placed support leg 3054, wherein the axial positioning block is installed at the upper part of the axially installed support leg 3051; the axial direction installation supporting leg 3051 lower part is provided with axial locating pin 3052, be provided with on the axial direction placement supporting leg 3054 with axial direction locating pin 3052 matches axial direction locating slot 3053, axial direction installation supporting leg 3051 passes through the axial direction locating piece with frock body fixed connection, the axial direction placement supporting leg 3054 with 1 fixed connection of wind-powered electricity generation blade mould, axial direction installation supporting leg 3051 with the axial direction placement supporting leg 3054 passes through axial direction locating pin 3052 and axial direction locating slot 3053 fix a position fixedly.

Further, the web integrated bonding tool provided by the invention is characterized in that the web bonding root positioning structure 301 is arranged on the tool body and comprises a web chordwise positioning aluminum plate 3011 and a web bonding axial positioning block 3012, the web bonding axial positioning block 3012 is arranged on the web chordwise positioning aluminum plate 3011, the web chordwise positioning aluminum plate 3011 is fixed on the positioning aluminum plate chordwise adjusting device 3014 through an aluminum profile assembling frame 3013, and the positioning aluminum plate is subjected to position adjustment through the chordwise adjusting device 3014. The web bonding root positioning structure 301 may be disposed on the chord-wise positioning support leg, or may be disposed on the tool body near the chord-wise positioning support leg.

Further, the web integrated bonding tool 3 comprises a web bonding gap control device 306, wherein the web bonding gap control device 306 comprises a rotatable adjusting pressure plate 3064, the rotatable adjusting pressure plate 3064 is connected with a downward pressing support rod 3061, the lower pressing support rod is mounted on a downward pressing support rod mounting adjusting plate 3062 through an upper adjusting plate 3063 and a lower adjusting plate 3063, and the rotatable adjusting pressure plate 3064 can rotatably move up and down along with the upper adjusting plate 3063.

Further, the web integrated bonding tool 3 of the invention further comprises a web internal rotating support leg 308, the web inner rotating support leg 308 is movably connected to the web inner rotating support leg mounting plate 3041, the web inner rotation support legs 308 include a web inner support structure 3084, a rotation support bar 3082, a rotation support bar mounting plate 3081 for mounting the rotation support bar, a connecting bar 3083 integrally connected with the rotation support bar, the web inner support structure 3084 is arranged on the rotary support bar 3082, the rotary support bar mounting plate 3081 is connected with the web inner rotary support leg mounting plate 3041, the web inner rotary support leg 308 further comprises an air cylinder, pneumatically after the vacuum suction system 302 sucks up the web 2, the web 2 is controlled to rotate at 0 ° to 90 °, and the cylinder is electrically connected to the power supply control system.

Further, the web integrated bonding tool 3 provided by the invention comprises a web tip positioning device 309, a positioning aluminum plate 3093 and a positioning aluminum plate adjusting mechanism 3092, wherein the positioning aluminum plate positioning device 309 comprises a positioning aluminum plate 3093 for positioning the A surface of the web, a positioning aluminum plate supporting leg 3091 for mounting the positioning aluminum plate 3093, and the positioning aluminum plate adjusting mechanism is used for adjusting the vertical height of the positioning aluminum plate 3093 along the positioning aluminum plate supporting leg 3091, and is provided with an angle-adjustable pressing plate 3094.

Further, the web integrated bonding tool 3 provided by the invention comprises 10 placing support legs, 9 chord-wise placing support legs 304, 1 axial placing support leg 305, and at least part of the chord-wise placing support legs 304 are symmetrically arranged.

Further, according to the web integrated bonding tool 3, the web bonding gap control devices 306 are arranged in a group every 2 meters along the axial direction of the wind turbine blade mold 1.

Specifically, the web integrated bonding tool 3 is characterized in that firstly, the web integrated bonding tool 3 and a wind power blade mold 1 are positioned by using chord-wise placing support legs 304 and axial placing support legs 305, a web 2 is hoisted on a web 2 web tool hoisting and balance adjusting device 307 (one device can be arranged at each of the front hoisting point and the rear hoisting point) during bonding, the web 2 and the web integrated bonding tool 3 are fixed by using a vacuum adsorption system 302, bonding gaps between the webs 2 are controlled by limiting through a web bonding gap control device 306 (a group can be configured at intervals of 2 meters along the axial direction of the wind power blade mold 1) above the webs 2, and after the hoisting is completed, 10 placing support legs are placed into positioning grooves on the wind power blade mold 1 to freely fall (the placing support legs can be folded and retracted when not used).

The web internal rotating supporting legs 308 control the web 2 to rotate at 0-90 degrees through the air cylinder after the vacuum adsorption system 302 sucks the web 2, and the web internal rotating supporting legs 308 are supported inside the web 2 and supplement the action of the vacuum chuck 3025, so that the positioning accuracy is improved, and the web 2 can be prevented from sliding downwards.

Has the advantages that: compared with a web split type bonding tool, the web integrated bonding tool is simple in process, convenient to operate, high in safety, capable of improving production efficiency and effectively improving web bonding quality, and accordingly quality of wind power blades is guaranteed. The bonding gap can be accurately controlled by the web bonding gap control device, so that the waste of bonding glue amount is prevented; the vacuum adsorption system adopts a customized sucker, has high loading stability and can be customized according to the shape; the adjustable pressing plate can be matched with various web types and always keeps fit; the supporting legs are accurately positioned and convenient to operate, and can be folded, so that the space occupancy rate is reduced; the lifting points are optimized to be two, are arranged in front of and behind the web plate tool lifting and balance adjusting device and can be adjusted horizontally; the rotary supporting legs in the web plate are convenient to operate, and the web plate can be effectively prevented from sliding downwards; structurally utilize the aluminium alloy in a large number, effectively subtract heavy, and stable in structure.

Finally, it should be pointed out that: the above examples are only for illustrating the technical solutions of the present invention, and are not limited thereto. Those of ordinary skill in the art will understand that: modifications can be made to the technical solutions described in the foregoing embodiments, or some technical features may be equivalently replaced; such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (10)

1. The utility model provides a web integral type bonding frock for wind-powered electricity generation blade mould, a serial communication port, including the frock body for support the supporting leg of placing of frock body, be provided with on the wind-powered electricity generation blade mould and be used for place the supporting leg and pass the constant head tank of placing, it still is provided with the web bonding root location structure that is used for the bonding location of frock body and web to place the supporting leg, is used for adsorbing the vacuum adsorption system on the frock body with the web during bonding, is used for controlling the web bonding clearance controlling means in web clearance, is used for web frock hoist and mount and balance adjustment's web hoist and balance adjustment device for the inside rotating support leg of web rotation support, is used for web point portion positioner of web point portion and wind-powered electricity generation blade mould location, and with the power control system that the vacuum adsorption.

2. The tool for bonding the web plates integrally according to claim 1, wherein the vacuum adsorption system comprises a vacuum chuck, the vacuum chuck is mounted on a vacuum chuck mounting leg through a vacuum chuck mounting plate, the vacuum chuck mounting leg is mounted on the tool body through a vacuum chuck locking and positioning device, and a limiting structure for limiting contact with the web plates is further arranged on the vacuum chuck mounting plate.

3. The web integrated bonding tool according to claim 1, wherein the placing support legs comprise chord-wise placing support legs and axial placing support legs, the chord-wise placing support legs and the axial placing support legs are used for chord-wise positioning and axial positioning of the tool body and the wind power blade die, and the chord-wise placing support legs and the axial placing support legs are fixedly connected with the wind power blade die respectively.

4. The tool for bonding the web plates integrally according to claim 3, wherein the chord-wise placing support legs comprise chord-wise positioning blocks for chord-wise positioning of the tool body, chord-wise mounting support legs and chord-wise positioning support legs are mounted on the upper portions of the chord-wise mounting support legs; the lower part of the chord-direction installation supporting leg is provided with a chord-direction positioning pin, the chord-direction positioning supporting leg is provided with a chord-direction positioning groove matched with the chord-direction positioning pin, the chord-direction installation supporting leg is connected with the tool body in a positioning manner through the chord-direction positioning block, the chord-direction positioning supporting leg is fixedly connected with the wind power blade mold, and the chord-direction installation supporting leg is fixedly positioned with the chord-direction positioning pin and the chord-direction positioning groove through the chord-direction positioning supporting leg.

5. The tool for bonding the web plates integrally according to claim 3, wherein the axially placed supporting leg comprises an axial positioning block for axially positioning the tool body, an axially installed supporting leg and an axially positioned supporting leg, and the axial positioning block is installed at the upper part of the axially installed supporting leg; the lower part of the axial installation supporting leg is provided with an axial positioning pin, the axial positioning supporting leg is provided with an axial positioning groove matched with the axial positioning pin, the axial installation supporting leg is fixedly connected with the tool body through an axial positioning block, the axial positioning supporting leg is fixedly connected with the wind power blade die, and the axial installation supporting leg is fixedly positioned with the axial positioning supporting leg through the axial positioning pin and the axial positioning groove.

6. The tool of claim 1, wherein the web bonding root positioning structure is disposed on the tool body and comprises a web chord-wise positioning aluminum plate, a web bonding axial positioning block is disposed on the web chord-wise positioning aluminum plate, the web bonding axial positioning block is fixed on the web chord-wise positioning aluminum plate, the web chord-wise positioning aluminum plate is fixed on a positioning aluminum plate chord-wise adjusting device through an aluminum profile assembling frame, and the web chord-wise positioning aluminum plate is subjected to position adjustment through the positioning aluminum plate chord-wise adjusting device.

7. The web integrated bonding tool according to claim 1, wherein the web bonding gap control device comprises a rotatable adjusting pressing plate, the rotatable adjusting pressing plate is connected with the pressing support rod and is installed on a mounting adjusting plate of the pressing support rod through an upper adjusting plate and a lower adjusting plate, and the rotatable adjusting pressing plate can rotatably follow the upper adjusting plate and the lower adjusting plate to move up and down.

8. The web integrated bonding tool according to claim 1, further comprising web internal rotation support legs, wherein the web internal rotation support legs are movably connected with the web internal rotation support leg mounting plate, the web internal rotation support legs comprise web internal support structures and rotation support rods, the rotation support rod mounting plate is used for mounting the rotation support rods, and the connection rods are integrally connected with the rotation support rods, the web internal support structures are arranged on the rotation support rods, the rotation support rod mounting plate is connected with the web internal rotation support leg mounting plate, the web internal rotation support legs further comprise air cylinders, the air cylinders are pneumatically driven after a vacuum adsorption system sucks the web, the control web is rotated by 0-90 degrees, and the air cylinders are electrically connected with the power control system.

9. The web integrated bonding tool of claim 1, wherein the web tip positioning device comprises a positioning aluminum plate for positioning an A surface of the web, a positioning aluminum plate supporting leg for mounting the positioning aluminum plate, a positioning aluminum plate adjusting mechanism for adjusting the upper and lower heights of the positioning aluminum plate supporting leg, and an angle-adjustable pressing plate is arranged on the positioning aluminum plate adjusting mechanism.

10. The web integrated bonding tool according to claim 3, wherein the number of the placing support legs is 10, the number of the chord-direction placing support legs is 9, the number of the axial placing support legs is 1, at least part of the chord-direction placing support legs are symmetrically arranged, and the web bonding gap control device is arranged in a group every 2 meters along the axial direction of the wind power blade mold.

Images