CN217371647U - Automatic grinding equipment for root end of wind power blade - Google Patents

Abstract

The utility model discloses an automatic grinding equipment of wind-powered electricity generation blade root, it includes locating support, rotary driving mechanism and grinding unit, the locating support includes a plurality of extending structure, a plurality of extending structure's one end connect in rotary driving mechanism's stiff end, a plurality of extending structure's the other end supports and leans on the internal face in wind-powered electricity generation blade root, so that rotary driving mechanism's rotation axis with the central line of wind-powered electricity generation blade root is located same straight line, rotary driving mechanism connect in grinding unit and being used for the drive grinding unit rotary motion, so that grinding unit grinds wind-powered electricity generation blade's root end face. Is convenient to operate and control and is very convenient to use. Meanwhile, the method is suitable for various blade types and has wide application range; and the accurate fixation is effectively realized, the stability of the automatic grinding equipment for the root end of the wind power blade is greatly improved, and the flatness of the end face is ensured.

Description

Automatic grinding equipment for root end of wind power blade

Technical Field

The utility model relates to an automatic grinding device of wind-powered electricity generation blade root end.

Background

Wind blades are one of the most important parts of a wind generating set, and the connection of the blades and a hub is very important. Therefore, the flatness of the root end of the blade is ensured to meet the standard, the connecting part of the blade and the hub is tightly combined, and the reduction of the gap between the blade and the hub is particularly important. Most of wind power blades are made of glass fiber reinforced epoxy resin as a main material through vacuum infusion molding. At the present stage, two different types of blades with root end structures are respectively of a punching type and a pre-buried bolt sleeve blade type. For the punched blade profile, the blade cannot be cut neatly in the blade cutting process. To pre-buried bolt cover leaf type, the bolt cover is put into one by one, then pours into the shaping back, and whole round is unevenness also, just so leads to blade root terminal surface irregularity, and the ubiquitous partial terminal surface plane degree phenomenon not up to standard of existing greatly increased blade root bolt fracture's risk influences the generating efficiency of blade, has also shortened the life of blade simultaneously.

In the prior art, grinding equipment is required to grind the end faces of the roots of the blades subjected to drilling and cutting or the pre-buried blades. However, the existing grinding equipment is large equipment fixed on the ground, and because the weight of the rotary large arm is large, in the traditional transmission mode of a main shaft and a bearing, the bearing bears overlarge overturning load, so that the dynamic balance effect of the rotary large arm is poor, the plane of the main shaft and the plane of the rotary large arm are not vertical easily after long-term use, and the planeness of the end face of the blade root of the blade after being polished is not up to the standard.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming the above-mentioned not enough of current existence, the utility model provides an automatic grinding device of wind-powered electricity generation blade root end.

The utility model discloses a realize through following technical scheme:

the utility model provides an automatic grinding equipment of wind-powered electricity generation blade root end, it includes locating support, rotary driving mechanism and grinding unit, the locating support includes a plurality of extending structure, a plurality of extending structure's one end connect in rotary driving mechanism's stiff end, a plurality of extending structure's the other end supports and leans on the internal face in wind-powered electricity generation blade root, so that rotary driving mechanism's rotation axis with the central line of wind-powered electricity generation blade root is located same straight line, rotary driving mechanism connect in grinding unit and be used for the drive grind unit rotary motion, so that grinding unit grinds the root end face of wind-powered electricity generation blade.

Further, extending structure includes the linking arm and adjusts the landing leg, the one end of linking arm connect in rotary drive mechanism's stiff end, the other end of linking arm connect in adjust the landing leg, the linking arm with adjust connecting portion have between the landing leg, through adjust connecting portion in order to realize adjust the landing leg edge on the linking arm the hookup location is adjusted to the radial direction of wind-powered electricity generation blade root.

Furthermore, adjust connecting portion and be a plurality of connecting hole, a plurality of the connecting hole is followed the radial direction interval of wind-powered electricity generation blade root set up in the linking arm and/or on adjusting the landing leg, adjust the landing leg through connecting hole detachably connect in the linking arm.

Further, extending structure can swing connect in rotary drive mechanism's stiff end, the locating support still includes a plurality of fixed part and a plurality of and waves the lead screw, a plurality of fixed part, a plurality of wave lead screw and a plurality of extending structure one-to-one, fixed part fixed connection in rotary drive mechanism's stiff end, wave lead screw threaded connection in fixed part, just wave the lead screw effort in extending structure is last, so that extending structure can follow wind-powered electricity generation root of blade's axial direction luffing motion is adjusted.

Further, the locating support still includes expanding structure, expanding structure set up in rotary drive mechanism's stiff end, a plurality of expanding structure's tip all connect in expanding structure's surface.

Furthermore, the expansion structure comprises an expansion body and an air supply unit, the end parts of the telescopic structures are connected to the outer surface of the expansion body, an air containing cavity is formed in the expansion body, an air inlet is formed in the outer surface of the expansion body, and the air supply unit is connected to the air inlet and communicated with the air containing cavity.

Further, the automatic grinding equipment for the root end of the wind power blade further comprises a control device, wherein the control device is electrically connected with a switch and the number of rotation turns of the rotary driving mechanism.

Furthermore, the automatic grinding equipment for the root end of the wind power blade further comprises a balance bar, the rotary driving mechanism is connected to one end of the balance bar and used for driving the balance bar to rotate, and the other end of the balance bar extends outwards along the direction far away from the grinding unit.

Further, wind-powered electricity generation blade root end automatic grinding equipment still includes dust extraction, dust extraction includes dust absorption pipe and dust catcher, the dust absorption pipe set up in grind on the unit, just the one end opening orientation of dust absorption pipe grind the unit with the contact site of root terminal surface, dust catcher detachably connect in the other end of dust absorption pipe.

Furthermore, the number of the telescopic structures is three, and the three telescopic structures are uniformly arranged on the circumference of the rotary driving mechanism at intervals.

The beneficial effects of the utility model reside in that:

the utility model discloses an automatic grinding device of wind-powered electricity generation blade root end drives through rotary driving mechanism and grinds the unit rotation in order to realize grinding, the operation control of being convenient for, it is very convenient to use. Meanwhile, the length of the positioning support can be adjusted through a plurality of telescopic structures so as to tightly abut against the inner wall surface of the root of the wind power blade, so that the wind power blade is suitable for various blade types and has a wide application range; and the accurate fixation is effectively realized, the stability of the automatic grinding equipment for the root end of the wind power blade is greatly improved, and the flatness of the end face is ensured.

Drawings

Fig. 1 is the utility model discloses wind-powered electricity generation blade root end automatic grinding equipment's schematic diagram.

Description of reference numerals:

grinding unit 1

Rotary drive mechanism 2

Positioning support 3

Telescopic structure 31

Connecting arm 311

Adjustable leg 312

Attachment hole 313

Expansion structure 32

Balance bar 4

Dust suction pipe 5

Wind turbine blade root 10

Detailed Description

The following description of the embodiments refers to the accompanying drawings, which are included to illustrate specific embodiments in which the invention may be practiced.

As shown in fig. 1, this embodiment discloses an automatic grinding equipment of wind-powered electricity generation blade root end, this automatic grinding equipment of wind-powered electricity generation blade root end is including grinding unit 1, rotary driving mechanism 2 and locating support 3, locating support 3 includes a plurality of extending structure 31, the stiff end in rotary driving mechanism 2 is connected to the one end of a plurality of extending structure 31, the other end of a plurality of extending structure 31 supports and leans on in the internal face of wind-powered electricity generation blade root 10, so that rotary driving mechanism 2's rotation axis and wind-powered electricity generation blade root 10's central line are located same straight line, rotary driving mechanism 2 connects in grinding unit 1 and is used for driving 1 rotary motion of grinding unit, so that grinding unit 1 grinds wind-powered electricity generation blade's root end face.

The rotary driving mechanism 2 provides driving force and acts on the grinding unit 1, so that the grinding unit 1 can be attached to abut against the end face of the root of the wind power blade and rotate, and the end face of the root of the wind power blade is ground. The grinding unit 1 is driven to rotate by the rotary driving mechanism 2 to realize grinding, so that the operation and control are convenient, and the use is very convenient. Meanwhile, the plurality of telescopic structures 31 can be stretched to adjust the length and abut against the inner wall surface of the wind power blade root 10, and the positioning support 3 can adjust the length through the plurality of telescopic structures 31 to tightly abut against the inner wall surface of the wind power blade root 10, so that the wind power blade root 10 is suitable for various blade types and has a wide application range; and the accurate fixation is effectively realized, the stability of the automatic grinding equipment for the root end of the wind power blade is greatly improved, and the flatness of the end face is ensured.

The automatic grinding equipment for the root end of the wind power blade further comprises a control device, and the control device is electrically connected to a switch and the number of rotation turns of the rotary driving mechanism 2. The control device controls the switch and the number of rotation turns of the rotary driving mechanism 2, so that the grinding unit 1 can automatically stop rotating after being ground in place on the whole end face of the wind power blade root 10, and finally the flatness of the whole end face is obtained. The precise operation control is realized, and the use is very convenient.

The automatic grinding equipment for the root end of the wind power blade further comprises a balance bar 4, the rotary driving mechanism 2 is connected to one end of the balance bar 4 and used for driving the balance bar 4 to rotate, and the other end of the balance bar 4 extends outwards along the direction far away from the grinding unit 1. The balance bar 4 and the grinding unit 1 are respectively arranged to extend in opposite directions, and the balance bar 4 and the grinding unit 1 are both caused to rotate together by the driving of the rotary driving mechanism 2. Can realize balanced effect to grinding unit 1 and rotary drive mechanism 2 through balancing pole 4, further avoided wind-powered electricity generation blade root end automatic grinding equipment to produce skew dislocation phenomenon at the in-process that uses, guaranteed the terminal surface plane degree of wind-powered electricity generation blade root 10.

In the present embodiment, the telescopic structure 31 includes a connecting arm 311 and an adjusting leg 312, one end of the connecting arm 311 is connected to the fixed end of the rotation driving mechanism 2, the other end of the connecting arm 311 is connected to the adjusting leg 312, an adjusting connection portion is provided between the connecting arm 311 and the adjusting leg 312, and the adjusting connection portion is used for adjusting the connecting position of the adjusting leg 312 on the connecting arm 311 along the radial direction of the wind power blade root 10. The connecting arm 311 is connected and arranged on the rotary driving mechanism 2, and the adjusting supporting leg 312 adjusts the connecting position through adjusting the connecting part, so that the length of the telescopic structure 31 can be telescopically adjusted along the radial direction of the wind power blade root 10, and various blade types can be ensured to be suitable.

The adjusting connecting portion is a plurality of connecting holes 313, the connecting holes 313 are arranged on the connecting arm 311 and/or the adjusting supporting leg 312 at intervals along the radial direction of the wind power blade root 10, and the adjusting supporting leg 312 is detachably connected to the connecting arm 311 through the connecting holes 313. The connecting position of the adjusting supporting leg 312 connected to the connecting arm 311 is adjusted through a plurality of connecting holes 313, so that the adjusting is very convenient and the structure is simple.

The number of the telescopic structures 31 is three, and the three telescopic structures 31 are uniformly arranged in the circumferential direction of the rotary driving mechanism 2 at intervals. The telescopic structure 31 on the upper portion supports against the top surface in the wind power blade root portion 10, and the left telescopic structure 31 and the right telescopic structure 31 support against the left end and the right end of the bottom in the wind power blade root portion 10 respectively.

Extending structure 31 can swing and connect in the stiff end of rotary driving mechanism 2, locating support 3 still includes that a plurality of fixed part and a plurality of wave the lead screw, a plurality of fixed part, a plurality of wave lead screw and a plurality of extending structure 31 one-to-one, fixed part fixed connection is in rotary driving mechanism 2's stiff end, wave lead screw threaded connection in fixed part, and wave lead screw effort on extending structure 31, so that extending structure 31 can follow the axial direction forward and backward swing regulation of wind-powered electricity generation blade root 10. Shaking the lead screw through the rotation and will leaning on effort on extending structure 31 for extending structure 31 can be followed the axial direction fore-and-aft swing of wind-powered electricity generation root of blade portion 10 and adjusted, guarantees that the plane at three extending structure 31 place is the perpendicular to ground plane.

The positioning support 3 further comprises an expansion structure 32, the expansion structure 32 is arranged at the fixed end of the rotary driving mechanism 2, and the end parts of the plurality of telescopic structures 31 are connected to the outer surface of the expansion structure 32. Expansion structure 32 will expand and effort on extending structure 31 for extending structure 31 can remove and closely support along radial direction and lean on the internal face in wind-powered electricity generation blade root 10, has further strengthened the accurate fixed of the automatic grinding equipment of wind-powered electricity generation blade root end, has effectively avoided the automatic grinding equipment of wind-powered electricity generation blade root end to produce skew dislocation phenomenon at the in-process that uses, has improved the stability of the automatic grinding equipment of wind-powered electricity generation blade root end greatly.

The expansion structure 32 comprises an expansion body and an air supply unit, the end parts of the plurality of telescopic structures 31 are connected to the outer surface of the expansion body, an air containing cavity is formed in the expansion body, an air inlet is formed in the outer surface of the expansion body, and the air supply unit is connected to the air inlet and communicated with the air containing cavity. The air supply unit is used for providing an air source, so that air enters the expansion body through the air inlet, the expansion body expands to enable the telescopic structure 31 to be tightly abutted against the inner wall surface of the wind power blade root 10, and the use is very convenient.

Wind-powered electricity generation blade root end automatic grinding equipment still includes dust extraction, and dust extraction includes dust absorption pipe 5 and dust catcher, and dust absorption pipe 5 sets up on grinding unit 1, and the one end opening orientation of dust absorption pipe 5 grinds the contact site of unit 1 and root terminal surface, and dust catcher detachably connects in the other end of dust absorption pipe 5. Dust extraction will be used for absorbing the dust after grinding, and the unit 1 and the root end face contact and grind between, inhale the dust to dust absorption pipe 5 in through the suction that dust absorption pipe 5 produced, have effectively improved the construction environment, improved personnel's operating comfort.

The automatic grinding equipment of wind-powered electricity generation blade root end of this embodiment is before using, and on installing the support with the template along with that corresponds according to corresponding leaf profile, ensure that after the support installation, lift by crane the wind-powered electricity generation blade and place the support. After the wind power blade is placed in the ground, the distance between the end face of the root end of the wind power blade and the first support is ensured to be 1m (each blade profile is different, and specifically, the distance is designed according to each blade profile), then the end face of the wind power blade is hung down from the middle of the blade root end face die-closing seam by using a hanging hammer and falls on a landmark (the landmark is well done on the ground in advance after the blade is placed according to a 3D model simulation blade), and the corresponding deviation is met. After the two items are ensured to be qualified, the wind power blade can be determined to be qualified to carry out the next work. In order to ensure that the attitude of the wind power blade is fixed when the automatic grinding equipment for the root end of the wind power blade grinds the wind power blade, the whole plane of the end face of the blade root is vertical to the ground plane, each section of the corresponding blade is selected, and a corresponding support for grinding the blade is designed and developed; meanwhile, in order to ensure that the detachable leaf-shaped bracket can be suitable for various leaf shapes, the corresponding bracket is designed to be detachable and can be switched into other leaf shapes at any time.

Later with wind-powered electricity generation blade root end automatic grinding equipment hoist and use the shallow to push into wind-powered electricity generation blade root 10, then adjust locating support 3, strut three extending structure 31, make it withstand wind-powered electricity generation blade root 10's internal face completely, open expanding structure 32 and effort on three extending structure 31, make locating support 3 locking be located in wind-powered electricity generation blade root 10, let compressing tightly firmly on wind-powered electricity generation blade root 10 of three extending structure 31 through pressure, move away shallow and suspender. The automatic grinding equipment for the root end of the wind power blade is developed to be movable, is directly attached to the inside of the blade to work, and saves occupied space.

The grinding unit 1 is respectively rotated to the positions of the three telescopic structures 31, the distance from a grinding stone to the end face of a blade root is measured, the distance between the end face near the upper telescopic structure 31 and the grinding stone is taken as a target value, the forward movement or the backward movement of the left telescopic structure 31 and the right telescopic structure 31 at the lower part is adjusted by adjusting the shaking lead screw, the distance between the end face near the left telescopic structure 31 and the near the end face of the left telescopic structure 31 and the distance between the end face near the right telescopic structure 31 and the grinding stone are ensured to be consistent with the target value by adjusting the left telescopic structure 31 and the right telescopic structure 31, the tolerance is +/-0.5 mm, so that the grinding unit 1 rotates by one circle and is a plane parallel to the end face of the blade root, then the grinding unit 1 is started to be debugged by one circle, whether the pressure of the expansion structure 32 is normal or not is judged, if no problem exists, the dust collection device is opened, the number of grinding circles of the grinding unit 1 is input through a control device, and the grinding unit can be automatically stopped as long as the whole end face is ensured to be ground, the grinding unit 1 is withdrawn.

The grinding is completed, the flatness of the whole end face needs to be checked, according to the original 3D model of the blade, the whole end face of the blade root in the model forms a standard plane, the plane is moved forwards by a certain distance integrally, according to the plane, standard plane check plates are manufactured at the two ends of the blade root respectively, and finally the FSC laser detection device is used for checking the flatness of the end face after grinding. After the wind power blade root end automatic grinding equipment finishes grinding, the ground end face is cleaned, one of the FSC laser detection devices is placed on a blade root standard sheet panel, and the other one of the FSC laser detection devices measures the flatness of each hole, so that the flatness of the whole end face is finally obtained.

The above disclosure is only for the purpose of illustrating the preferred embodiments of the present invention and should not be construed as limiting the scope of the present invention, therefore, all equivalent variations of the present invention are intended to be covered by the present invention.

Claims (10)

1. The utility model provides an automatic grinding equipment of wind-powered electricity generation blade root end, its characterized in that, it includes locating support, rotary driving mechanism and grinding unit, the locating support includes a plurality of extending structure, a plurality of extending structure's one end connect in rotary driving mechanism's stiff end, a plurality of extending structure's the other end supports and leans on the internal face in wind-powered electricity generation blade root, so that rotary driving mechanism's rotation axis with the central line of wind-powered electricity generation blade root is located same straight line, rotary driving mechanism connect in grinding unit and being used for the drive grinding unit rotary motion, so that grinding unit grinds wind-powered electricity generation blade's root end face.

2. The automatic grinding equipment for the root end of the wind power blade as claimed in claim 1, wherein the telescopic structure comprises a connecting arm and an adjusting leg, one end of the connecting arm is connected to the fixed end of the rotary driving mechanism, the other end of the connecting arm is connected to the adjusting leg, an adjusting connecting portion is arranged between the connecting arm and the adjusting leg, and the adjusting connecting portion is used for adjusting the connecting position of the adjusting leg on the connecting arm along the radial direction of the root end of the wind power blade.

3. The automatic grinding device for the root end of the wind power blade as claimed in claim 2, wherein the adjusting connection portion is a plurality of connection holes, the plurality of connection holes are arranged on the connecting arm and/or the adjusting support leg at intervals along the radial direction of the root end of the wind power blade, and the adjusting support leg is detachably connected to the connecting arm through the connection holes.

4. The automatic grinding device for the root end of the wind power blade according to claim 1, wherein the telescopic structure is swingably connected to a fixed end of the rotary driving mechanism, the positioning bracket further comprises a plurality of fixed portions and a plurality of shaking lead screws, the plurality of fixed portions, the plurality of shaking lead screws and the plurality of telescopic structures are in one-to-one correspondence, the fixed portions are fixedly connected to the fixed end of the rotary driving mechanism, the shaking lead screws are in threaded connection with the fixed portions, and the shaking lead screws exert forces on the telescopic structures, so that the telescopic structures can be adjusted by swinging back and forth along the axial direction of the root end of the wind power blade.

5. The automatic grinding device for the root end of the wind turbine blade as claimed in claim 1, wherein the positioning support further comprises an expansion structure, the expansion structure is arranged at the fixed end of the rotary driving mechanism, and the end parts of a plurality of the telescopic structures are connected to the outer surface of the expansion structure.

6. The automatic grinding device for the root end of the wind turbine blade as claimed in claim 5, wherein the expansion structure comprises an expansion body and an air supply unit, the end parts of a plurality of the telescopic structures are connected to the outer surface of the expansion body, an air containing cavity is formed in the expansion body, an air inlet is formed in the outer surface of the expansion body, and the air supply unit is connected to the air inlet and communicated with the air containing cavity.

7. The automatic wind blade root end grinding apparatus according to claim 1, wherein the automatic wind blade root end grinding apparatus further comprises a control device electrically connected to a switch and a number of rotations of the rotation driving mechanism.

8. The automatic wind blade root end grinding device according to claim 1, further comprising a balance bar, wherein the rotary driving mechanism is connected to one end of the balance bar and is used for driving the balance bar to rotate, and the other end of the balance bar extends outwards in a direction away from the grinding unit.

9. The automatic wind-power blade root end grinding device according to claim 1, further comprising a dust suction device, wherein the dust suction device comprises a dust suction pipe and a dust collector, the dust suction pipe is arranged on the grinding unit, an opening at one end of the dust suction pipe faces a contact position of the grinding unit and the end surface of the root portion, and the dust collector is detachably connected to the other end of the dust suction pipe.

10. The automatic grinding device for the root end of the wind power blade as claimed in claim 1, wherein the number of the telescopic structures is three, and the three telescopic structures are uniformly arranged in the circumferential direction of the rotary driving mechanism at intervals.

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