CN215436186U - Lifting structure of wind power generation blade transport vehicle - Google Patents

Abstract

The utility model discloses a lifting structure of a wind power generation blade transport vehicle, which relates to the field of wind power generation blade transport vehicles and comprises a transport vehicle frame, a rotating frame and a lifting mechanism, wherein the rotating frame is arranged on the transport vehicle frame, the lifting mechanism is arranged on the rotating frame and comprises two groups of lifting parts and driving parts, and each group of lifting parts comprises a fixed frame and a lifting rod. This wind power generation blade transport vechicle elevation structure, rotate and make it cooperate with a plurality of spacing grooves in proper order through drive assembly drive swirl strip, make lifter rebound, can realize lifting the aerogenerator blade, avoid the blade tail of blade to drag subaerially, cause wearing and tearing to the blade easily, this wind power generation blade transport vechicle elevation structure, through the rubber frame, can realize support and protection to aerogenerator's blade, when avoiding aerogenerator's blade lie flat and place, the collision can appear, damage aerogenerator's blade.

Description

Lifting structure of wind power generation blade transport vehicle

Technical Field

The utility model relates to the technical field of wind power generation blade transport vehicles, in particular to a lifting structure of a wind power generation blade transport vehicle.

Background

At present, wind power generation is an important power generation means because the wind power generation is environment-friendly and does not need to consume ore energy, the wind power generation means that kinetic energy of wind is converted into electric energy, wind energy is clean and pollution-free renewable energy and is utilized by people for a long time, water pumping, surface grinding and the like are mainly realized through a windmill, people are interested in how to utilize wind to generate power, the development of the wind power generation is fierce in China, and the yield of wind power generation equipment is high.

The transporter is used for transporting related parts of wind power generation equipment, as the size of a blade of a wind power generator is larger, generally thirty-four meters or longer, a blade transporter provided with a hydraulic lifting device is generally used, and the transporter mainly aims at the difficult problem of transporting the blade in a mountain area, but the transporter lifts the blade of the wind power generator by changing the angle, the transportation time of the wind power generator is generally longer in the transportation process, if the hydraulic lifting cylinder is always in a lifting state, the consumption of the hydraulic lifting cylinder is large, the service life of the hydraulic lifting cylinder is influenced, when the transporter is in rest at night, the use of the hydraulic lifting cylinder can be stopped, but the blade tail of the blade of the wind power generator can be dragged to the ground, the blade is easy to be abraded, the existing transporter does not protect the blade of the wind power generator, so that when the blade of the wind power generator is laid down, a collision may occur, damaging the blades of the wind turbine.

SUMMERY OF THE UTILITY MODEL

The utility model provides a lifting structure of a wind power generation blade transport vehicle, which drives a vortex strip to rotate through a driving part and enables the vortex strip to be sequentially matched with a plurality of limiting grooves, so that a lifting rod moves upwards, the blade of a wind power generator can be lifted, the blade tail of the blade can be prevented from being dragged to the ground, the blade is easy to wear, the blade of the wind power generator can be supported and protected through a rubber frame, and the blade of the wind power generator can be prevented from being collided and damaged when being placed horizontally.

In order to achieve the purpose, the utility model is realized by the following technical scheme: a wind turbine blade transporter elevation structure, comprising:

a transportation frame;

the rotating frame is arranged on the transportation frame;

the lifting mechanism is arranged on the rotating frame and comprises two groups of lifting parts and driving parts, each group of lifting parts comprises a fixed frame and a lifting rod, each fixed frame is symmetrically arranged on the rotating frame, and the driving parts are arranged on the rotating frame;

the limiting grooves are arranged on one side of the outer wall of the lifting rod at equal intervals along the vertical direction; and

the vortex strips are arranged on the driving part, the driving part drives the vortex strips to rotate and enable the vortex strips to be matched with the limiting grooves in sequence, and the lifting rod can be limited while moving is achieved.

Further, the drive part includes drive assembly and installation component, drive assembly locates inner wall one side of rotatory frame, be equipped with two sets ofly, every group the installation component all locates the outer wall of fixed frame.

Further, drive assembly includes positive and negative motor, rolling disc, rotation axis and rotary disk, positive and negative motor locates inner wall one side of revolving frame rolling disc, rotation axis and rotary disk all are equipped with two, every the outer wall of rotation axis is located to the equal cover of rolling disc, every the rotary disk is all fixed to be set up in the one end of rotation axis, one of them the rotation axis is fixed to be set up in positive and negative motor's output.

Further, every group the installation component all includes a mounting bracket and an installation section of thick bamboo, the installation section of thick bamboo is fixed to be set up in the outer wall top of mounting bracket, the mounting bracket passes through the bolt and installs in the outer wall of fixed frame, an installation section of thick bamboo and rotation axis normal running fit.

Further, every the inner wall one side of fixed frame is all fixed and is provided with the slide rail, every the outer wall one side of lifter is close to bottom edge and all fixedly is provided with the sliding block, every the sliding block all with slide rail sliding fit.

Furthermore, every the outer wall top of lifter all fixedly is provided with the rubber frame, every the outer wall of fixed frame is all fixed the backup pad that is provided with near bottom edge all around.

Further, the outer wall bottom of rotatory frame is all fixed and is provided with the axis of rotation, the fixed mounting panel that is provided with in transportation frame top, the axis of rotation rotates to inlay the outer wall top of locating the mounting panel.

The utility model provides a lifting structure of a wind power generation blade transport vehicle. The method has the following beneficial effects:

(1) this wind power generation blade transport vechicle elevation structure rotates and makes it cooperate with a plurality of spacing grooves in proper order through drive unit drive swirl strip for lifter rebound can realize lifting the aerogenerator blade, avoids the leaf tail of blade to drag subaerially, causes wearing and tearing easily to the blade.

(2) This wind power generation blade transport vechicle elevation structure through the rubber frame, can realize the support and the protection to aerogenerator's blade, when avoiding aerogenerator's blade flat to lie to place, can appear colliding, damages aerogenerator's blade.

Drawings

FIG. 1 is a front view of the present invention;

FIG. 2 is a front view of the rotating frame of the present invention;

FIG. 3 is a partial cross-sectional view of the rotating frame of the present invention;

FIG. 4 is an exploded view of the lift mechanism of the present invention;

fig. 5 is a rear view of the rotating disk of the present invention.

In the figure: 1. a transportation frame; 2. rotating the frame; 3. a lifting mechanism; 301. a fixing frame; 302. a lifting rod; 303. a positive and negative motor; 304. rotating the disc; 305. a rotating shaft; 306. rotating the disc; 307. a mounting frame; 308. mounting the cylinder; 4. a limiting groove; 5. a vortex strip; 6. a slide rail; 7. a slider; 8. a rubber frame; 9. a support plate; 10. a rotating shaft; 11. and (7) mounting the 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.

Examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are illustrative and intended to be illustrative of the utility model and are not to be construed as limiting the utility model.

Referring to fig. 1-5, the present invention provides a technical solution: a wind turbine blade transporter elevation structure, comprising:

a transport carriage 1;

the rotating frame 2 is arranged on the transport vehicle frame 1;

the lifting mechanism 3 is arranged on the rotating frame 2, the lifting mechanism 3 comprises two groups of lifting parts and driving parts, each group of lifting parts comprises a fixed frame 301 and a lifting rod 302, each fixed frame 301 is symmetrically arranged on the rotating frame 2, and the driving parts are arranged on the rotating frame 2;

a plurality of limiting grooves 4 are formed in the outer wall side of the lifting rod 302, and the plurality of limiting grooves 4 are arranged at equal intervals in the vertical direction; and

the vortex strips 5 are arranged on the driving part, the driving part drives the vortex strips 5 to rotate and enable the vortex strips to be matched with the limiting grooves 4 in sequence, and the lifting rod 302 can be limited while the lifting rod 302 moves.

In this embodiment: through transportation frame 1, can realize the transportation to the wind power generation blade, through rotatory frame 2, can realize the protection to elevating system 3, through fixed frame 301 and lifter 302, can realize lifting to the wind power generation blade, avoid the leaf tail of blade to drag subaerially, cause wearing and tearing to the blade easily, the inside of fixed frame 301 is all inlayed in sliding to the outer wall of every lifter 302, through spacing groove 4 and vortex strip 5, also can carry on spacingly to lifter 302 when can realizing that lifter 302 removes.

Specifically, the drive part includes drive assembly and installation component, and drive assembly locates inner wall one side of rotatory frame 2, is equipped with two sets ofly, and the outer wall of fixed frame 301 is all located to every group installation component.

In this embodiment: through drive assembly, can realize the drive to vortex strip 5 for vortex strip 5 rotates, through the installation component, can realize the support to drive assembly.

Specifically, the driving assembly comprises a positive and negative motor 303, two rotating discs 304, two rotating shafts 305 and two rotating discs 306, the rotating discs 304, the two rotating shafts 305 and the two rotating discs 306 are arranged on one side of the inner wall of the rotating frame 2, each rotating disc 304 is sleeved on the outer wall of each rotating shaft 305, each rotating disc 306 is fixedly arranged at one end of each rotating shaft 305, and one rotating shaft 305 is fixedly arranged at the output end of the positive and negative motor 303.

In this embodiment: through positive and negative motor 303, can drive two rotation axis 305 and rotate, the structure and the principle of positive and negative motor 303 belong to prior art, do not describe here in detail, its model can be selected according to the in-service use condition, through rolling disc 304, can make two rotation axis 305 equidirectional rotations, two rolling discs 304 are connected through the belt, through rotating disc 306, can realize the installation to vortex strip 5, vortex strip 5 is fixed to be set up in outer wall one side of rotating disc 306, positive and negative motor 303, rolling disc 304, rotation axis 305 and rotating disc 306 all are the slope setting, a groove has been seted up to the outer wall of fixed frame 301, can make vortex strip 5 and spacing groove 4 cooperate.

Specifically, each group of mounting assemblies comprises a mounting frame 307 and a mounting cylinder 308, the mounting cylinder 308 is fixedly arranged on the top of the outer wall of the mounting frame 307, the mounting frame 307 is mounted on the outer wall of the fixing frame 301 through bolts, and the mounting cylinders 308 are in running fit with the rotating shaft 305.

In this embodiment: the support of the rotary shaft 305 is achieved by means of a mounting block 307 and a mounting cylinder 308, the mounting cylinder 308 being arranged intermediate the rotary disc 306 and the rotary disc 304.

Specifically, the inner wall one side of every fixed frame 301 all fixedly is provided with slide rail 6, and outer wall one side of every lifter 302 is close to bottom edge all fixedly and is provided with sliding block 7, every sliding block 7 all with slide rail 6 sliding fit.

In this embodiment: through slide rail 6 and sliding block 7, the removal of lifter 302 can be convenient for, avoids sliding block 7 to appear the phenomenon of blocking.

Specifically, the top of the outer wall of each lifting rod 302 is fixedly provided with a rubber frame 8, and the periphery of the outer wall of each fixed frame 301, which is close to the bottom edge, is fixedly provided with a supporting plate 9.

In this embodiment: through rubber frame 8, two rubber frames 8 are relative settings, and rubber frame 8's transversal L shape of personally submitting, can realize support and the protection to aerogenerator's blade, when avoiding aerogenerator's blade flat to lie and placing, the collision can appear, damage aerogenerator's blade, through backup pad 9, can play the support to fixed frame 301, increase the stability of fixed frame 301, for preventing that the aerogenerator blade from dropping, the mountable rope is fixed the aerogenerator blade on rubber frame 8.

Specifically, the outer wall bottom of swivel frame 2 is all fixed and is provided with axis of rotation 10, and 1 top of transportation frame is fixed and is provided with mounting panel 11, and axis of rotation 10 rotates to inlay and locates the outer wall top of mounting panel 11.

In this embodiment: through axis of rotation 10 and mounting panel 11, the outer wall top center department of mounting panel 11 sets up slottedly, can realize placing axis of rotation 10 for rotatory frame 2 can be adjusted the angle of wind power generation blade.

During the use, install the wind power generation blade on transport vehicle frame 1 earlier, when the transport vechicle needs to have a rest night, preceding positive and negative motor 303 that moves, under the help of rolling disc 304 and belt, make vortex strip 5 on the rolling disc 306 rotate, vortex strip 5 its cooperatees with a plurality of spacing grooves 4 in proper order, drive lifter 302 rises, make rubber frame 8 paste on the outer wall of wind power generation blade, and fix with the rope and close hydraulic lifting cylinder, can alleviate the pressure of wind power generation blade to hydraulic lifting cylinder, avoid the blade tail of blade to drag subaerially simultaneously, cause wearing and tearing easily to the blade, under the protection of L shape rubber frame 8, can avoid when the blade of aerogenerator lies flat and places, can appear colliding, damage aerogenerator's blade.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and equivalent alternatives or modifications according to the technical solution of the present invention and the inventive concept thereof should be covered by the scope of the present invention.

Claims (7)

1. The utility model provides a wind power generation blade transport vechicle elevation structure which characterized in that includes:

a transport carriage (1);

the rotating frame (2) is arranged on the transportation vehicle frame (1);

the lifting mechanism (3) is arranged on the rotating frame (2), the lifting mechanism (3) comprises two groups of lifting parts and driving parts, each group of lifting parts comprises a fixed frame (301) and a lifting rod (302), each fixed frame (301) is symmetrically arranged on the rotating frame (2), and the driving parts are arranged on the rotating frame (2);

a plurality of limiting grooves (4) are formed, and the limiting grooves (4) are arranged on one side of the outer wall of the lifting rod (302) at equal intervals along the vertical direction; and

the vortex strips (5) are arranged on the driving part, the driving part drives the vortex strips (5) to rotate and enable the vortex strips to be matched with the limiting grooves (4) in sequence, and the lifting rod (302) can be limited while the lifting rod (302) moves.

2. The wind-power blade transporting vehicle lifting structure according to claim 1, wherein: the drive part includes drive assembly and installation component, drive assembly locates inner wall one side of rotatory frame (2), be equipped with two sets ofly, every group the outer wall of fixed frame (301) is all located to the installation component.

3. The wind-power blade transporting vehicle lifting structure according to claim 2, wherein: drive assembly includes positive and negative motor (303), rolling disc (304), rotation axis (305) and rotary disk (306), the inner wall one side of revolving frame (2) is located in positive and negative motor (303) rolling disc (304), rotation axis (305) and rotary disk (306) all are equipped with two, every the outer wall of rotation axis (305) is all located in rolling disc (304) cover, every rotary disk (306) all fixed the one end that sets up in rotation axis (305), one of them rotation axis (305) fixed the output that sets up in positive and negative motor (303).

4. A wind-powered blade transportation vehicle elevation structure of claim 3, wherein: every group the installation component all includes mounting bracket (307) and installation section of thick bamboo (308), installation section of thick bamboo (308) are fixed to be set up in the outer wall top of mounting bracket (307), mounting bracket (307) pass through the bolt and install in the outer wall of fixed frame (301), installation section of thick bamboo (308) and rotation axis (305) normal running fit.

5. The wind-power blade transporting vehicle lifting structure according to claim 4, wherein: every inner wall one side of fixed frame (301) all is fixed and is provided with slide rail (6), every outer wall one side of lifter (302) is close to bottom edge and all fixedly is provided with sliding block (7), every sliding block (7) all with slide rail (6) sliding fit.

6. The wind-power blade transporting vehicle lifting structure according to claim 5, wherein: every the outer wall top of lifter (302) all fixedly is provided with rubber frame (8), every the outer wall of fixed frame (301) is all fixed near bottom edge all around and is provided with backup pad (9).

7. The wind-power blade transporting vehicle lifting structure according to claim 6, wherein: the outer wall bottom of rotatory frame (2) all fixedly is provided with axis of rotation (10), fixed mounting panel (11) that are provided with in transportation frame (1) top, axis of rotation (10) are rotated and are inlayed the outer wall top of locating mounting panel (11).

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