CN210213380U - Support for wind power tower cylinder transportation - Google Patents

Abstract

The utility model discloses a wind power tower cylinder support for transportation, including the frame and by the laminating frame of the top of frame arch up that makes progress, the frame contains the supporting seat that is spaced apart range of stratiform along vertical direction and the stand fixed together with the supporting seat, and the supporting seat has the hollow structure who runs through both sides along the horizontal direction, and the top surface of laminating frame has curved binding face, and hollow structure's the direction of running through is arranged along to the central line of binding face. Compared with the prior art, the utility model discloses a wind power tower cylinder is support for transportation is applicable to and uses with the fork truck cooperation when wind power tower cylinder transports, and after the hollow structure was worn into to the fork post, thereby fork truck made this support get into in the tower section of thick bamboo and made binding face and the laminating of tower section of thick bamboo internal surface continue to promote a tower section of thick bamboo, and fork truck can remove a tower section of thick bamboo, so the utility model discloses a wind power tower cylinder is support for transportation has efficient, requires low, with low costs, makes things convenient for tower section of thick bamboo to transport, simple structure's.

Description

Support for wind power tower cylinder transportation

Technical Field

The utility model relates to a wind power generation tower section of thick bamboo manufacture equipment field especially relates to a wind power generation tower support for transportation.

Background

The offshore wind power tower cylinder is main equipment for supporting a high-altitude wind generating set, the height of the offshore wind power tower cylinder is about 80 meters generally, the offshore wind power tower cylinder is divided into 4 sections, and each section is formed by assembling single-section cylinders with the height of about 2.5 meters. One set of wind power tower has about 35 sections of single-section barrel assembly welded. In actual production, as the number of the single-section cylinders of the offshore wind power tower is large, the diameter of the single-section cylinders is large, and the whole section of the marine wind power tower can be assembled through a plurality of procedures such as welding, circle calibration, nondestructive testing and the like. The workshop area is small, the process progress and the position are different, the condition of overstocked single-section cylinder bodies inevitably occurs, the single-section cylinder bodies are required to be transferred to a vacant place outside the workshop, and therefore the single-section cylinder bodies are frequently transferred.

When the single-section cylinder is in the hoisting equipment area, workshop hoisting equipment is used. The time spent on the back and forth movement of the gantry crane is long, and for a nervous production workshop, the time spent in the waiting and transporting processes is too long, so that the production rhythm is influenced. The method has the advantages that the transportation vehicle movable hoisting equipment is required to be transferred when the hoisting equipment in short construction period is frequently used or is not in the hoisting equipment area, the equipment is low in efficiency, slow in transfer, high in requirement and high in cost, multiple persons are required to cooperate to complete the transfer, and the movable hoisting equipment is required to be purchased.

Therefore, there is a need for a wind power tower transportation support with high efficiency, low requirement, low cost and convenient tower transportation to overcome the above defects.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a wind power tower cylinder transportation of transporting of efficient, require low, with low costs and make things convenient for a tower section of thick bamboo to transport uses support.

In order to achieve the above object, the utility model discloses a wind power tower cylinder is support for transportation include the frame and by the laminating frame of the top of frame arching upwards, the frame contain along vertical direction be spaced apart lamellar arrangement the supporting seat and with the stand that the supporting seat is together fixed, the supporting seat has the hollow structure who runs through both sides along the horizontal direction, the top surface of laminating frame has curved binding face, the central line of binding face is followed hollow structure's the direction of running through is arranged.

Preferably, the upright post is supported between two adjacent supporting seats, the attaching frame is located on the uppermost supporting seat, and the upright post is aligned with the hollow structure along the vertical direction.

Preferably, the upright columns are respectively arranged outside the periphery of the supporting seat, and the attaching frame is positioned at the top of the upright columns.

Preferably, the cross section of the attaching frame on a plane perpendicular to the penetrating direction of the hollow structure is an annular surface.

Preferably, a cushion pad is arranged on the binding surface of the binding frame.

Preferably, a reinforcing plate is further arranged between the attaching frame and the uppermost supporting seat, and the reinforcing plate is vertically arranged.

Preferably, a reinforcing rib is arranged between the support seat and the upright post.

Preferably, the frame is a square frame, and the cross section of the hollow structure is square.

Preferably, the attaching frame, the supporting seat and the upright post are welded into a whole.

Preferably, the number of the attaching frames is at least two, and the attaching frames are arranged at intervals along the penetrating direction of the hollow structure.

Compared with the prior art, the support for transporting the wind power tower cylinder is suitable for being matched with a forklift for use when the wind power tower cylinder is transported, by means of the supporting seats and the hollow structures thereof, the fork columns of the forklift are selectively inserted into the hollow structures of one of the supporting seats according to the height of the tower cylinder, namely the diameter of the tower cylinder, and the forklift lifts the support for transporting the wind power tower cylinder and transfers the support into the wind power tower cylinder; because the laminating frame upwards arches by the top of frame again, and the top surface of laminating frame is equipped with the curved binding face that is used for laminating mutually with the internal surface of a tower section of thick bamboo, so when fork truck drives the utility model discloses a wind power tower section of thick bamboo transportation rises to the binding face of laminating frame when laminating with the internal surface of a tower section of thick bamboo with the support, the utility model discloses a wind power tower section of thick bamboo transportation just with the butt of a tower section of thick bamboo, fork truck continues to promote the utility model discloses a support alright make a tower section of thick bamboo leave ground, fork truck alright pass through the utility model discloses a wind power tower section of thick bamboo transportation is with a tower section. The event the utility model discloses a wind power tower cylinder transportation has efficient, requires low, with low costs, makes things convenient for a tower section of thick bamboo to transport, simple structure's advantage when using with the cooperation of lift travelling car.

Drawings

Fig. 1 is the utility model discloses a wind power tower cylinder transportation is with support and a tower section of thick bamboo laminating mutually and fork truck's fork post alternates into hollow structure's spatial structure sketch map.

Fig. 2 is the utility model discloses a three-dimensional structure schematic diagram of wind power tower cylinder transportation support.

FIG. 3 is a front view of the wind tower transportation bracket of the present invention.

FIG. 4 is a side view of the wind tower transportation bracket of the present invention.

FIG. 5 is a top view of the wind tower transportation bracket of the present invention.

Detailed Description

In order to explain technical contents and structural features of the present invention in detail, the following description is made with reference to the embodiments and the accompanying drawings.

Referring to fig. 1, the utility model discloses a wind power tower cylinder transportation is with support 100 is applicable to and goes up and down the travelling car cooperation and use, for example fork truck (not shown in the figure), and fig. 1 shows the utility model discloses a wind power tower cylinder transportation is with the occasion of fork truck cooperation use of support 100, nevertheless does not regard this as the limit.

Referring to fig. 2 to 5, the support 100 for transporting a wind power tower of the present invention includes a frame 10 and a bonding frame 1 upwardly arched from the top of the frame 10, the frame 10 includes a supporting base 3 arranged in a spaced-apart layer along a vertical direction and a column 2 fixed with the supporting base 3, the supporting base 3 has a hollow structure 31 penetrating through both sides along a horizontal direction, the top surface of the bonding frame 1 has an arc-shaped bonding surface 11, and a center line of the bonding surface 11 is arranged along a penetrating direction of the hollow structure 31. With the aid of the attaching surface 11, when the forklift drives the bracket 100 to approach the tower barrel 200, the attaching frame 1 reduces the collision to the tower barrel 200 in the approaching process, so that the friction between the attaching frame 1 and the tower barrel 200 is reduced, the attaching frame 1 and the tower barrel 200 are prevented from collision and abrasion, and the service lives of the attaching frame and the tower barrel 200 are prolonged. Referring to fig. 1, the hollow mechanism 31 is used for being inserted into the fork column 300 of the forklift, and after the fork column 300 is inserted into the hollow mechanism 31, the forklift can drive the bracket 100 for transporting the wind power tower cylinder of the utility model to realize lifting movement. Specifically, in the present embodiment, the supporting seat 3 has the hollow structure 31 penetrating through both sides in the front-back direction, but the supporting seat 3 has the hollow structure 31 penetrating through both sides in the left-right direction according to the actual requirement, and the invention is not limited thereto. Of course, in other embodiments, the support base 3 may be two, four or five, so that the fork 300 is selectively inserted into the hollow structure 31 of the support base 3 according to the diameter of the tower 200. Specifically, in the present embodiment, the upright 2 is supported between two adjacent supporting seats 3, and the supporting force is provided between the supporting seats 3 by the upright 2. The laminating frame 1 is positioned on the supporting seat 3 at the top, so that the structure is reasonable, and the laminating with the external tower barrel 200 is convenient. Preferably, the upright 2 is also aligned with the hollow structure 31 in the vertical direction, so that the upright 2 and the support 3 are stressed uniformly and are not easily broken during the transportation process by the forklift. Of course, in other embodiments, the upright posts 2 are respectively disposed outside the periphery of the supporting seat 3, and the attaching frame 1 is located at the top of the upright posts 2, so the disclosure is not limited thereto. For example, in the present embodiment, the frame 10 is a rectangular parallelepiped frame, and certainly, in other embodiments, the frame 10 is a square frame, so the disclosure is not limited thereto. The cross section of the hollow structure 31 is square to fit the cross section of the fork 300, but it is not limited thereto, as long as the cross section of the hollow structure fits the cross section of the fork according to the actual requirement.

For example, when the fork 300 is inserted into the hollow structure 31 of the uppermost supporting seat 3, the fork 300 is closest to the attaching frame 1, and is suitable for the situation where the diameter of the tower barrel 200 is small; when the fork 300 is inserted into the hollow structure 31 of the lowest support base 3, the fork 300 is farthest away from the fitting frame 1, which is suitable for the situation where the diameter of the tower 200 is larger.

With reference to fig. 2 to 5, the columns 2 are spaced apart from each other along the circumferential direction of the supporting base 3 to provide a supporting force for the supporting base more uniformly, so that the supporting frame 100 for transporting a wind power tower of the present invention has reasonable stress and longer service life.

With reference to fig. 2 to 5, the cross section of the fitting frame 1 on the plane perpendicular to the penetrating direction of the hollow structure 31 is an annular surface, and the inner surface of the tower 200 is a cylindrical surface, so that the fitting frame 1 can better fit with the tower 200, but not limited thereto. Be equipped with blotter 12 on the binding face 11 of laminating frame 1 for with the help of blotter 12, when binding face 11 and tower section of thick bamboo 200 contact, can reduce friction and vibration to between tower section of thick bamboo 200 and the laminating frame 1, thereby strengthened the protection to tower section of thick bamboo 200 and support 100. A reinforcing plate 4 is also arranged between the attaching frame 1 and the supporting seat 3 at the top, and the reinforcing plate 4 is vertically arranged. With the help of reinforcing plate 4, help laminating frame 1 to erect on the supporting seat 3 of the top firmly to when help laminating frame 1 and tower section of thick bamboo 200 butt, avoid laminating frame 1 to be pressed absolutely, thereby improve the intensity and the life of laminating frame 1. For example, in the embodiment, the number of the attaching frames 1 is three, and the attaching frames 1 are arranged in a spaced manner along the penetrating direction of the hollow structure 31, so as to attach to the tower drum 200 and save the material of the attaching frames 1, which is beneficial to reducing the cost of the attaching frames 1.

Please refer to fig. 2 to 4, a reinforcing rib 5 is disposed between the supporting seat and the upright, with the help of the reinforcing rib 5, so that the connection between the supporting seat 3 and the upright 2 is more reliable, and the upright 2 or the supporting seat 3 is prevented from bending or breaking when being stressed, thereby prolonging the service life of the wind power tower transportation support 100. The cross section of the reinforcing rib 5 is triangular, however, in other embodiments, the cross section of the reinforcing rib 5 is a sector, specifically a right-angle sector, and the triangular and the sector have a stable characteristic, thereby facilitating the stabilizing effect of the reinforcing rib 5, but not limited thereto.

It is worth noting that, in this embodiment, the joint frame 1, the supporting seat 3 and the stand column 2 three are welded together, so that the utility model discloses a support 100 for wind power tower cylinder transportation is firmer. Of course, in other embodiments, other fixing methods such as screws may be adopted, and the like, so the invention is not limited thereto.

The working principle of the wind power tower transportation bracket 100 of the present invention is explained with reference to the accompanying drawings: the utility model discloses a when wind power tower cylinder transportation is with support 100 and fork truck cooperation, fork truck's fork post 300 is close to support 100 and alternates into hollow structure 31 of supporting seat 3, then fork truck promotes again and removes support 100 to a tower section of thick bamboo 200 in, continues to promote support 100 and makes a tower section of thick bamboo leave ground until the binding face 11 of laminating frame 1 and the laminating of a tower section of thick bamboo 200's internal surface, fork truck with the help of the utility model discloses a thereby support 100 continues to promote a tower section of thick bamboo 200, and fork truck removes support 100 and a tower section of thick bamboo 200 to the mounted position together.

Compared with the prior art, the support 100 for transporting the wind power tower cylinder is suitable for being used in cooperation with a forklift when the wind power tower cylinder 200 is transported, by means of the supporting seats 3 and the hollow structures 31 thereof, the fork columns 300 of the forklift are selectively inserted into the hollow structures 31 of the supporting seats 3 according to the height of the tower cylinder 200, namely the diameter of the tower cylinder 200, and the forklift lifts the support 100 for transporting the wind power tower cylinder and transfers the support into the wind power tower cylinder 200; because laminating frame 1 is upwards arched by the top of frame 10 again, and laminating frame 1's top surface is equipped with the curved binding face 11 that is used for laminating mutually with tower section of thick bamboo 200's internal surface, so when fork truck drives the utility model discloses a wind power tower section of thick bamboo transportation is with support 100 rises to laminating frame 1's binding face 11 and tower section of thick bamboo 200's internal surface laminating, the utility model discloses a wind power tower section of thick bamboo transportation just with tower section of thick bamboo 200's butt, fork truck continues to promote the utility model discloses a support 100 alright make tower section of thick bamboo 200 leave ground, fork truck alright pass through the utility model discloses a wind power tower section of thick bamboo transportation is with tower section of thick bamboo 200 from the workshop. The event the utility model discloses a wind power tower cylinder transportation has efficient, requires low, with low costs, makes things convenient for a tower section of thick bamboo to transport, simple structure's advantage when using with the cooperation of lift travelling car with support 100.

The above disclosure is only a preferred embodiment of the present invention, and the scope of the claims of the present invention should not be limited thereby, and all the equivalent changes made in the claims of the present invention are intended to be covered by the present invention.

Claims (10)

1. The utility model provides a wind power tower cylinder support for transportation which characterized in that: including the frame and by the laminating frame of the top of frame arch upwards, the frame contain along vertical direction be spaced apart stratiform range the supporting seat and with the stand that the supporting seat is fixed together, the supporting seat has along the horizontal direction run through the hollow structure of both sides, the top surface of laminating frame has curved binding face, the central line of binding face is followed hollow structure's direction of running through arranges.

2. The wind tower transport bracket as set forth in claim 1, wherein said uprights are supported between two adjacent said supports, said engagement frame being located on the uppermost support, said uprights further being vertically aligned with said hollow structure.

3. The wind tower transportation support according to claim 1, wherein the columns are respectively disposed outside the periphery of the support base, and the attachment frame is located at the top of the columns.

4. The wind tower transportation bracket as claimed in claim 1, wherein the cross section of the attachment frame on a plane perpendicular to the direction of penetration of the hollow structure is an annular surface.

5. The wind tower transportation support according to claim 1, wherein a cushion pad is disposed on a fitting surface of the fitting frame.

6. The wind tower transportation support according to claim 2, wherein a reinforcing plate is further disposed between the fitting frame and the uppermost supporting seat, and the reinforcing plate is vertically disposed.

7. The wind tower transport bracket as set forth in claim 1, wherein a reinforcing rib is provided between the support base and the upright post.

8. The wind tower transportation support frame as claimed in claim 1, wherein the frame is a square frame, and the cross section of the hollow structure is square.

9. The wind tower transport bracket as set forth in claim 1, wherein the attachment frame, the support base and the upright are welded together.

10. The wind tower transportation support frame as claimed in claim 1 or 6, wherein the number of the fitting frames is at least two, and the fitting frames are arranged at intervals along the penetrating direction of the hollow structure.

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