KR101044014B1 - Device for carrying a windforce generator wing - Google Patents

Abstract

The present invention relates to a wind turbine blade conveying apparatus, and in particular, a disk-shaped lower fixing plate, an upper rotating plate rotatably coupled to an upper portion of the lower fixing plate, and coupled to flow in an upper portion of the upper rotating plate and wind turbine wing It includes a body portion that is coupled to the coupling portion is fixed, the rotating portion for rotating the wing around the coupling portion of the wind turbine blade coupled to the body portion, and a control unit for adjusting the rotational force of the upper rotating plate, the body portion and the rotating portion It is composed.

The present invention as described above, first, the wind turbine blade coupled to the body portion through the upper rotating plate and the body portion and the control cylinder connecting it even during transport to mount the wind turbine blades in the vehicle to rotate in the vertical, horizontal or horizontal direction. By doing so, it is possible to flexibly respond to the sudden slope change or the change of direction of the road to achieve stable and convenient wind turbine blade conveying work.

Secondly, by freely rotating through the rotating part while the wind turbine blade is fixed to the body part, the wind turbine blade mounted on the upper part of the vehicle is prevented from flowing according to the direction of the wind so that the wind turbine blade is driven by the strong wind. It is possible to prevent generator blades from being damaged.

Third, the wind turbine blades can be transported up and down through the adjustment cylinders without the need for excessive civil works even on narrow roads or in lush mountain roads, so that the wind turbine blades can be transported without removing obstacles. It can efficiently carry out the rotor blade transport.

Fourth, by maintaining the circular state coupled to the wind power generator without removing the wind turbine blades mounted on the vehicle can achieve an efficient wind power generator installation work when installing the wind power generator.

Wind power generator

Description

Wind Turbine Wing Carrier {DEVICE FOR CARRYING A WINDFORCE GENERATOR WING}

The present invention relates to a wind turbine blade conveying apparatus, and more particularly, it can be conveniently mounted on a vehicle and transported while maintaining the original shape of the wind turbine blade coupled to the wind turbine, even when mounted on a vehicle The present invention relates to a wind turbine blade conveying device capable of flexibly and efficiently transporting wind turbine blades because it can flexibly respond to a sudden gradient change or direction change of a road.

In general, the wind turbine refers to a device that can obtain electricity by rotating the windmill by the wind.

Such a wind power generator is generally composed of a support frame serving as a prop, a blade coupled to the support frame and rotated by wind, and a generator generating electricity by rotation of the blade.

In order to install such a wind power generator, there are geopolitical elements (such as wind speed, wind direction conditions or factors causing gusts or turbulence in the installation area), construction elements (obstructions or barriers around the installation area). Whether the installation site soil is able to withstand large loads, whether the drainage of the soil is a smooth component), the power linkage network (easiness of various conditions for system transport and construction) In order to install the wind turbine according to the installation location of the wind turbine, it is common to first install the wind turbine blades after the support frame is firmly fixed in the ground or on the ground.

For example, after transporting and installing the support frame serving as the post to the place to be installed is to carry and combine the wind turbine blades coupled thereto.

That is, as shown in Figure 1, the conventional wind turbine blade transport is carried on the road after mounting the wind turbine blades (3) consisting of a coupling portion (3b) and the wing portion (3a) on the top of the vehicle (1). It will be transported to the place you want to install.

However, such a conventional wind turbine blade conveying operation has a problem that it is difficult to flexibly respond to a sudden slope change or direction change of the road, if the place of installation of the wind generator is a place where a lot of natural terrain such as mountains or rivers In order to prevent the wind turbine blades mounted on the natural terrain, there was a problem of carrying out the transportation work after widening the narrow road or carrying out a civil engineering work to remove the natural terrain.

In addition, there is a problem that the wind turbine blades can be damaged by being bent by the strong wind even while carrying the wind turbine blades mounted on the vehicle.

In addition, in order to overcome the above problems, even when the wind turbine blades are separated, transported, and recombined, the work time is increased due to the inefficiency of the wind turbine wing transport operation, and the levee cost for manpower and other works is increased. There was a problem.

The present invention has been made to solve the above-mentioned problems, the wind turbine blade conveying device to conveniently transport the wind turbine blades by fixedly installed in the upper portion of the vehicle when carrying the wind turbine blade operation, wind power It is configured to rotate the generator wing in the vertical, horizontal or horizontal direction to provide a wind turbine blade transport device that can achieve a stable and convenient wind turbine blade transport operation by responding to the sudden inclination change of the road or the change of direction.

In addition, another object of the present invention is to reduce unnecessary construction costs by allowing the wind turbine blades to be transported without removing obstacles by moving the wind turbine blades up and down without the need for excessive civil works even in narrow roads or lush mountain roads. It is to provide a wind turbine blade transport device that can efficiently achieve the wind turbine blade transport operation.

In order to achieve the above object, the present invention provides a disk-shaped lower fixing plate, an upper rotating plate rotatably coupled to an upper portion of the lower fixing plate, a coupling portion of a wind turbine blade coupled to be fluidly coupled to an upper portion of the upper rotating plate, It includes a fixed body portion, and comprises a rotating portion for rotating the wing around the coupling portion of the wind turbine blade coupled to the body portion, and a control unit for adjusting the rotational force of the upper rotating plate, the body portion and the rotating portion.

In this case, the lower fixing plate includes a motor having one end in close contact with one side of the upper rotating plate and connected to the control unit and an electric wire, and forming a coupling hole at an inner central portion thereof and fixed to the bearing, wherein the upper rotating plate is attached to the bearing. A rotating shaft coupled to the outer circumference in close contact with the motor, a gear coupled to be rotatably corresponding to the rotation of the motor about the rotating shaft, and an adjustment cylinder connected to the body portion, wherein a through hole is provided at an upper surface thereof. It may be configured to be provided with a fixed frame formed to be fluidly coupled through the lower end and the fastening member of the body portion.

In addition, the body portion is provided with a through hole corresponding to the through hole of the fixed frame, the lower body to which one side of the control cylinder is coupled, the outer body integrally formed on the upper portion of the lower body in a cylindrical shape, and the outer The inner body is rotatably coupled to a portion in close contact with the inside of the body, the inner body having a seating groove is formed in the coupling portion of the wind turbine blade fitted to the inside, the rotating portion of the outer body and the inner body It may be configured to include a motor that is installed to be positioned between, and the connecting rod coupled to the inner body to transfer the rotational force of the motor.

In addition, the end of the seating groove of the inner body is further formed with an inclined portion extending outward in the longitudinal direction, the inclined portion fixing pin to maintain a state in which the coupling portion of the wind turbine blade inserted into the seating groove is firmly inserted This can be further combined.

In addition, one side of the lower fixing plate may be further provided with a plurality of vehicle coupling members formed with a through hole penetrating the inner groove and formed therein for easy fixing on the upper portion of the vehicle.

The upper rotating plate may further include a plurality of through holes in a radial direction, and the lower fixing plate may further include a coupling hole at a position corresponding to the through hole, and may be coupled to the through hole and the coupling hole between the upper rotating plate and the lower fixing plate. The fastening pins may be further coupled to rotate the upper rotating plate so that the positions of the through holes and the coupling holes form the same vertical line, and thus mutual flow is suppressed.

In addition, a plurality of bearings may be further interposed between the lower fixing plate and the upper rotating plate, and the bearings used in the wind turbine blade conveying device are preferably thrust bearings.

The present invention as described above can obtain the following effects.

First, while the wind turbine blade is mounted on the vehicle, the wind turbine blade coupled to the body portion is rotated up, down, or horizontally through the upper rotating plate, the body portion, and the adjustment cylinder connecting the same, and thus the road is steeply inclined. It can respond flexibly to change or change of direction and achieve stable and convenient wind turbine blade conveying work.

Secondly, by freely rotating through the rotating part while the wind turbine blade is fixed to the body part, the wind turbine blade mounted on the upper part of the vehicle according to the direction of the wind is prevented from flowing to the flow of the wind turbine blade by the strong wind Damage to the wind turbine blades can be prevented.

Third, the wind turbine blades can be transported up and down through the adjustment cylinders without the need for excessive civil works even on narrow roads or in lush mountain roads, so that the wind turbine blades can be transported without removing obstacles. Generator wing transportation can be done efficiently.

Fourth, by maintaining the circular state coupled to the wind power generator without removing the wind turbine blades mounted on the vehicle can achieve an efficient wind power generator installation work when installing the wind power generator.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings as follows.

Prior to the above description, a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings. First of all, in adding reference numerals to the components of each drawing, it should be noted that the same reference numerals are used as much as possible even if displayed on different drawings. In addition, the terms described below are defined in consideration of the functions of the present invention, which may vary depending on the intention or custom of the user, the operator. Therefore, definitions of these terms should be made based on the contents throughout the specification.

1 is a schematic view showing a conventional wind turbine blade conveying operation, Figure 2 is a side sectional view showing a wind turbine blade conveying apparatus according to the present invention, Figure 3 is a wind turbine blade conveying apparatus of the present invention is coupled to a vehicle In addition, Figure 4 is a side view showing a state in which the coupling portion of the wind turbine blade is inserted and fixed to the body portion in accordance with the present invention, Figure 5 is a wind turbine coupled to the body portion in accordance with the present invention It is a side view showing the action of the wing is moved up and down through the adjustment cylinder, Figure 6 is a side cross-sectional view showing the action of the wind turbine blade coupled to the body portion by the rotation of the present invention, Figure 7 8 is a plan view showing the left and right flow of the wind turbine blades coupled to the body by the upper rotary plate, Figure 8 is to suppress the flow of the upper rotary plate and the lower fixed plate of the present invention It is a cross-sectional side view showing the state in which the retaining pin is coupled.

First, the configuration will be described with reference to FIGS. 2 to 6.

The present invention is a disk-shaped lower fixing plate 100, the upper rotating plate 200 is rotatably coupled to the upper portion of the lower fixing plate 100, and coupled to the upper portion of the upper rotating plate 200 and the wind turbine blades (3) the coupling portion (3b) comprises a body portion 300 is inserted and fixed, the wing portion (3) around the coupling portion (3b) of the wind turbine blade (3) coupled to the body portion 300 It comprises a rotating unit 400 for rotating the 3a), and the control unit 500 for adjusting the rotational force of the upper rotary plate 200, the body 300 and the rotating unit 400.

The lower fixing plate 100 is installed in close contact with the outer periphery of the upper rotating plate 200 of the rotating shaft of the motor 110 is connected through the control unit 500 and the wire (L), the coupling hole 120 in the inner center Is formed and the coupling hole 120 is fixed to the bearing (B).

The upper rotating plate 200 is installed to the rotation shaft 210 is coupled to the bearing (B) of the lower fixing plate 100, the outer periphery in close contact with the motor 110 is rotated to correspond to the rotation of the motor 110. However, the gear 220 rotated about the rotation shaft 210 is configured to be engaged with the motor 110.

In addition, a plurality of control cylinders 230 connected to the body portion 300 is fixedly installed on the upper surface, and a through hole 241 is formed at a position adjacent to the control cylinder 230 to form the body portion 300. The fixing frame 240 is coupled to the lower end through the fastening member (P) is provided is configured to be movable with the body portion (300).

At this time, the body portion 300 is provided with a through hole 331 formed to correspond to the through hole 241 of the fixing frame 240 provided on the upper surface of the upper rotating plate 200 is the fastening member (P) A lower body 330 coupled to the fixed frame 240 to be fluidly coupled to and coupled to the other side of the control cylinder 230 having one side fixed to the upper rotating plate 200;

An upper body 310 having a cylindrical shape is integrally formed on an upper portion of the lower body 330, and a coupling part 3b of the wind turbine blade 3 is inserted into the outer body 310. The inner body 320 provided with a seating groove 321 may be installed to be rotatable through a bearing B at a portion in close contact with the inner side of the outer body 310.

At this time, the rotating unit 400 is installed on one side of the outer body 310.

The rotation unit 400 is coupled to the motor 420 and the inner body 320 is installed so as to be located between the outer body 310 and the inner body 320 to transmit the rotational force of the motor 420 Consists of a connecting rod 410.

The motor 420 is connected to the control unit 500 through the wire (L) to adjust the rotational force of the motor 420 according to the control of the control unit (L).

In particular, the inclined portion (321a) is further provided at the end of the seating groove 321 of the inner body 320, in order to maintain a firmly coupled state of the wind turbine blades (3) inserted into the seating groove (321). The fixing pin 340 is further coupled to the inclined portion 321a.

Accordingly, in the state in which the coupling part 3b of the wind turbine blade 3 inserted into the seating groove 321 is inserted into the seating groove 321, the seating recess 321 and the seating groove 321 are fixed by the fixing pin 340. Maintaining a strong adhesion will be able to maintain a firmly coupled state.

In addition, one side of the lower fixing plate 100, when coupled with the upper portion of the vehicle 1 is provided with a plurality of vehicle coupling members 130 to secure the coupling state.

The vehicle coupling member 130 is preferably configured to be formed on the same horizontal line as the lower end of the lower fixing plate 100, the groove 131 is formed on the inside to facilitate the fixing on the upper portion of the vehicle (1), The through hole 132 is provided at the center of the recess 131.

2, 3, 6, and 8, a plurality of through holes 200-1 are further formed in the radial direction of the upper rotating plate 200, and the through-holes are provided in the lower fixing plate 100. Further forming a plurality of coupling holes (100-1) in the position corresponding to the ball (200-1) when the upper rotating plate 200 and the lower fixing plate 100 when the upper rotating plate 200 is the lower fixing plate ( When the position of the through hole 200-1 and the coupling hole 100-1 is rotated by the motor 110 provided at 100 to form the same vertical line, as shown in FIG. 8, the through hole 200. -1) and the coupling pin 600 is inserted into and coupled to the coupling hole 100-1 to maintain a state in which the flow of the lower fixing plate and the upper rotating plate is suppressed.

In addition, the portion of the lower fixing plate 100 and the upper rotating plate 200 to be in close contact with each other, as shown in Figures 2 and 3, may be installed so that a plurality of bearing (B) is further interposed.

As described above, the configuration of the wind turbine blade conveying apparatus of the present invention has been described.

By the way, the bearing (B) of the wind turbine blade conveying device is preferably to use a thrust bearing in order to flexibly respond to the load of the wind turbine blade (3).

In addition, the motor 110 of the lower fixing plate 100, the motor 420 and the adjustment cylinder 230 of the rotating part 400 is configured to be connected to the control unit 500 through the wire, the control unit 500 is a control knob (Not shown) and the power switch (not shown) is configured so that the user can use conveniently.

In this case, the adjustment knob (not shown) and the power switch (not shown) of the adjustment cylinder 230 and the control unit 500 applied to the present invention are applied to a conventional control cylinder and a conventional control unit for controlling a motor or a cylinder. And since it is the same as the detailed description thereof will be omitted.

In addition, as shown in Figures 3 and 6, when the wind turbine blade transporting device is fixed to the upper portion of the vehicle 1, the vehicle coupling member 130 provided on the lower fixing plate 100 is wrapped around the vehicle (1). ) May be firmly coupled to the upper portion of the vehicle 1 through fastening members P and P-1 coupled to the through holes 132 of the vehicle coupling member 130. .

In addition, a bearing B installed to be interposed between the lower fixing plate 100 and the upper rotating plate 200 and a bearing B to which the rotating shaft 210 of the upper rotating plate 200 is coupled use thrust bearings. Preferably, it is preferable to install and configure the oil (O) provided for the smooth rotation of the upper rotary plate 200 through the thrust bearing as shown in FIG.

Referring to the operation of the present invention configured as described above are as follows.

First, as shown in FIGS. 4 and 6, the wind turbine blade 3 is coupled to the seating groove 321 of the inner body 320 in a state in which the wind turbine blade transport device is fixedly installed on the upper portion of the vehicle 1. The part 3b is inserted and positioned so that the wing part 3a is seated on the upper part of the auxiliary support 2 connected to the rear of the vehicle 1.

In order to prevent the wing portion 3b of the wind turbine blade 3 from being caught by obstacles or other natural features in the above state, the control cylinder 230 connected to the control unit 500 and the wires L are operated in FIG. 5. As described above, the rear of the body 300 is adjusted to rise, and at the same time, the wing 3a of the wind turbine blade 3 coupled to the body 300 is raised.

In this case, even in narrow roads and lush mountain roads, wind turbine blades can be safely transported without the need for excessive civil engineering work, and can be transported safely, thus reducing unnecessary construction costs and efficiently carrying out wind turbine wing transportation work. It will be possible.

6, the motor 420 and the motor 420 of the rotating part 400 connected to the control unit 500 so as to correspond to the direction of the wind even when the wind blows strongly while the wind turbine blades 3 are transported. Rotating the inner body 320 is connected to the connecting rod 410 through the connecting rod 410 connected to) can be prevented from being damaged by bending the wing portion (3a) of the wind turbine blade (3) even under strong wind. Will be.

In addition, as shown in FIGS. 7 and 8, even when the direction of the road 700 changes rapidly, the lower fixing plate 100 includes an upper rotating plate 200 rotatably installed on the upper portion of the lower fixing plate 100. The gear 220 coupled to the motor 110 and one side of the motor 110 is coupled to the rotation of the motor 110 through the coupling of the upper rotating plate 200 provided on the outer circumference thereof. 7 rotates and rotates the direction of the wind turbine blades 3 coupled to the body part 300 in accordance with the rotation of the upper rotary plate 200, as shown in Figure 7 by flowing the upper rotary plate 200 sudden direction of the road It will be able to respond flexibly to change.

In this case, in particular, in order to continuously maintain the rotated state of the upper rotating plate 200, as shown in Figure 8, the coupling hole 100-1 of the lower fixing plate 100 and the through hole 200- of the upper rotating plate It is to be able to suppress the flow of the lower fixing plate 100 and the upper rotary plate 200 through the fastening pin 600 coupled to 1).

In the above, the upper, lower, left, right and the rotation of the wind turbine blade is inserted into the body by the body portion, the rotating portion, the adjustment cylinder, the upper rotary plate and fixed to the central axis of the body portion in each device. It is described to flow in one direction by way of example, but is not limited to this, it can be flowed to the left at the same time as the synergistic action, can be flowed to the right at the same time as descending and wind turbine blades coupled to the various body parts according to the user's control operation It can be adjusted by changing the flow direction.

Therefore, as described above, the wind turbine blade conveying apparatus of the present invention will be able to efficiently carry out the wind turbine blade conveying operation by safely and conveniently transport the wind turbine blades.

While the invention has been shown and described with respect to particular embodiments, it is to be understood that various changes and modifications can be made in the art without departing from the spirit or scope of the invention as provided by the following claims. It will be obvious to those of ordinary skill.

1 is a schematic diagram showing a conventional wind turbine blade transport operation.

Figure 2 is a side cross-sectional view showing a wind turbine blade transport apparatus according to the present invention.

Figure 3 is a side cross-sectional view showing a state in which the present invention wind turbine blade carrier coupled to the vehicle.

Figure 4 is a side view showing a state in which the coupling portion of the wind turbine blade is inserted and fixed to the body portion in accordance with the present invention.

Figure 5 is a side view showing the action of the wind turbine blade coupled to the body portion in accordance with the present invention, the up and down flow through the adjustment cylinder.

Figure 6 is a side cross-sectional view showing the action of the wind turbine blade coupled to the body portion by the rotating unit of the present invention.

Figure 7 is a plan view showing the left and right flow of the wind turbine blades coupled to the body portion by the upper rotating plate of the present invention.

Figure 8 is a side cross-sectional view showing a state in which the fastening pin is coupled to suppress the flow of the upper rotating plate and the lower fixing plate of the present invention.

          <Code Description of Main Parts of Drawing>

1: vehicle 2: auxiliary base

3: wind turbine wing 3a: wing section

3b: coupling part 100: lower fixing plate

110,420: motor 120: coupling hole

130: vehicle coupling member 131: groove

132,200-1,241,331: Through hole 200: Upper rotating plate

210: rotating shaft 220: gear

230: adjustment cylinder 240: fixing member

300: body 310: outer body

320: inner body 321: seating groove

321a: inclined portion 330: lower body

340: fixed pin 400: rotating part

410: connecting rod 500: control unit

600: fastening pin 700: road

  B: Bearing L: Wire

  P, P-1: fastening member

Claims (8)

Disk-shaped lower fixing plate 100, An upper rotating plate 200 coupled to the upper portion of the lower fixing plate 100 so as to be horizontally rotatable; Body portion 300 is coupled to the upper portion of the upper rotating plate 200 to be vertically rotatable and the coupling portion (3b) of the wind turbine blade (3) is inserted and fixed, Rotating portion 400 for rotating the wind turbine blades 3 coupled to the body portion 300 in the longitudinal direction as the axis; It includes a control unit 500 for adjusting the rotational force of the upper rotating plate 200, the body portion 300 and the rotating portion 400, The lower fixing plate 100, One end is in close contact with one side of the upper rotary plate 200 and the coupling hole 120 is formed and fixed to the motor 110 and the inner center connected to the control unit 500 and the wire (L) (B) Including, The upper rotating plate 200, Gear that is coupled to be engaged so as to be rotatable corresponding to the rotation of the motor 110 around the rotation shaft 210 on the rotary shaft 210 coupled to the bearing (B), the outer periphery in close contact with the motor 110 ( 220 and a control cylinder 230 connected to the body portion 300, a through hole 241 is formed on the upper surface to be movable through the lower end of the body portion 300 and the fastening member (P). Wind turbine blade transport device characterized in that the fixed frame 240 is coupled to. delete The method according to claim 1, The body portion 300 is A lower body 330 having a through hole 331 corresponding to the through hole 241 of the fixed frame 240, and having one side of the adjustment cylinder 230 coupled thereto; An outer body 310 formed integrally with the upper portion of the lower body 330 in a cylindrical shape, A seating groove 321 coupled to the inside of the outer body 310 via a bearing B to be rotatable, and a coupling part 3b of the wind turbine blade 3 fitted into the seat. It includes an inner body 320 is formed, The rotating unit 400 is A motor 420 installed to be located between the outer body 310 and the inner body 320; Wind turbine blade conveying device, characterized in that coupled to the inner body 320 includes a connecting rod (410) for transmitting the rotational force of the motor (420). The method of claim 3, At the end of the seating groove 321 of the inner body 320 is further formed an inclined portion (321a) extending in the longitudinal direction outside, The inclined portion 321a is further characterized in that the fixing pin 340 is further coupled to maintain a state in which the coupling portion 3b of the wind turbine blade 3 inserted into the seating groove 321 is firmly inserted. Wind turbine wing carrier. The method according to claim 1, One side of the lower fixing plate 100 is further provided with a plurality of vehicle coupling members 130 formed with a through hole 132 to form a groove 131 inward to facilitate the fixing on the upper portion of the vehicle (1). Wind turbine blade transport device characterized in that it is. The method according to claim 1, The upper rotating plate 200 is A plurality of through holes 200-1 are further formed in the radial direction, The lower fixing plate 100 is A coupling hole 100-1 is further formed at a position corresponding to the through hole 200-1. The through hole 200-1 and the coupling hole 100-1 At the time of coupling between the upper rotating plate 200 and the lower fixing plate 100, the upper rotating plate 200 is rotated so that the positions of the through hole 200-1 and the combining hole 100-1 form the same vertical line. Wind turbine blade conveying device, characterized in that the fastening pin 600 is further coupled so that mutual flow is suppressed. The method according to claim 1, In close contact with the lower fixing plate 100 and the upper rotating plate 200 Wind turbine blade conveying apparatus, characterized in that the plurality of bearings (B) is further installed. The method according to claim 1 or 7, The bearing (B) is a wind turbine blade transport device, characterized in that using a thrust bearing.

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