CN217197925U - Wind power tower cylinder conveyer - Google Patents

Abstract

The utility model relates to a wind power tower cylinder transportation technology field specifically is a wind power tower cylinder conveyer, including at least one fixed establishment and a plurality of supporting mechanism, every supporting mechanism all includes supporting seat and base, and the supporting seat slides and sets up on the base, fixed establishment and pedestal connection. The supporting seat is used for supporting the wind power tower cylinder, and the supporting seat slides and sets up on the base, and the supporting seat includes two supporting shoes, leaves the clearance between the supporting shoe, consequently can stagger the supporting shoe. The utility model discloses can place the completion back at wind power tower cylinder, carry out the block to its one end and fix, conveniently in the transportation, avoid wind power tower cylinder to produce and rock, improve the stability and the security that wind power tower cylinder transported.

Description

Wind power tower cylinder conveyer

Technical Field

The utility model relates to a wind power tower cylinder transportation technical field specifically is a wind power tower cylinder conveyer.

Background

The wind power tower cylinder is a tower pole of wind power generation, mainly plays a supporting role in a wind generating set, simultaneously absorbs the vibration of the set, and after the wind power tower cylinder is produced and inspected to be qualified, the wind power tower cylinder needs to be transported to an installation site by utilizing a transport vehicle, and during transportation, tooling equipment needs to be used, so that the wind power tower cylinder is safer in the transportation process.

Present tooling equipment is when using, installs the slider on the base, and the slider is connected with the connecting plate, is fixed with the mount table on the connecting plate, and wind power tower cylinder fixes on the mount table, is equipped with the support column on the mount table, and the support column is used for supporting wind power tower cylinder. Whole wind power tower cylinder is fixed on the mount table, if the wind power tower cylinder of different grade type, then will increase the overall length of mount table, and current tooling equipment can not carry out fine support to wind power tower cylinder, and is unsafe in the transportation.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a wind power tower cylinder conveyer is convenient for when supporting the wind power tower cylinder of different grade type, also can fix wind power tower cylinder, improves the security of transportation.

In order to achieve the above object, the technical scheme of the utility model provides a wind power tower cylinder conveyer, including at least one fixed establishment and a plurality of supporting mechanism, every supporting mechanism all includes supporting seat and base, and the supporting seat slides and sets up on the base, fixed establishment and pedestal connection.

The technical effect of the scheme is as follows: wind power tower cylinder places on the supporting seat of base, because the supporting seat slides and sets up on the base, consequently can change the position of supporting seat according to not unidimensional wind power tower cylinder, if wind power tower cylinder's size is longer, then can slide the supporting seat, increases the distance between the supporting seat to realize supporting the longer wind power tower cylinder of size, need not slide the base and remove to increase and support required length. After the wind power tower cylinder is supported, the fixing mechanism is used for fixing the wind power tower cylinder, and therefore the wind power tower cylinder is fixed. The utility model discloses when supporting and fixed wind power tower cylinder, also can satisfy the transportation of the wind power tower cylinder of different grade type, improve the security of transportation.

Further, the supporting seat comprises two supporting blocks, a gap is reserved between the supporting blocks, a sliding seat is fixedly arranged at the bottom of each supporting block, a sliding groove is formed in the base, and the supporting blocks are connected with the base in a sliding mode through the sliding grooves.

The device comprises a base, two supporting blocks, a supporting block and a supporting block, wherein the supporting block is arranged on the base, the supporting block is arranged on the supporting block, the supporting block is arranged on the base, and the supporting block on the same base.

Further, fixed establishment includes L type push pedal and fixed cardboard, L type push pedal one end and pedestal connection, and L type push pedal other end threaded connection has the screw rod, and the bottom and the fixed cardboard of screw rod rotate to be connected.

Wind power tower cylinder places on the base, and the slip supporting shoe makes fixed establishment be located wind power tower cylinder, through rotating the screw rod, drives fixed cardboard downstream, and until laminating wind power tower cylinder's inner wall, fixed wind power tower cylinder improves the security of transportation under the effect of supporting shoe and fixed cardboard.

Furthermore, each base is provided with a tooling groove, the end part of one base is fixed with a connecting block, and the L-shaped push plate is fixed on the connecting block.

The L-shaped push plate is connected with the base with the connecting block, if the wind power tower cylinder is too long, the number of the bases is increased, and the wind power tower cylinders of different types are fixed on one of the bases of the fixing mechanism.

Furthermore, the fixing mechanism further comprises a hydraulic cylinder, the hydraulic cylinder is fixedly arranged on the connecting block, the L-shaped push plate is connected with the hydraulic cylinder, and the lower end of the L-shaped push plate is arranged on the base in a sliding mode.

Drive L type push pedal through the pneumatic cylinder and slide, need not slide the supporting shoe and make fixed establishment be located wind power tower section of thick bamboo, slide L type push pedal and go the location wind power tower section of thick bamboo, fix after confirming the position again, more conveniently fix wind power tower section of thick bamboo.

Furthermore, L type push pedal includes horizontal push pedal and vertical push pedal, vertical push pedal and pneumatic cylinder fixed connection, and horizontal push pedal and vertical push pedal rotate to be connected, and the screw rod is connected between horizontal push pedal and fixed cardboard.

Through above setting, after the supporting shoe staggers, probably fix behind the cardboard laminating wind power tower cylinder, do not have the supporting shoe to support, therefore horizontal push pedal rotates with vertical push pedal and sets up to fixed cardboard can squint certain angle, can cooperate with the supporting shoe, and then can fix wind power tower cylinder.

Further, the lower extreme of fixed cardboard is the arc.

Through the arrangement, the fixing clamping plate is better attached to the wind power tower cylinder, and the wind power tower cylinder can be better fixed.

Drawings

Fig. 1 is a three-dimensional schematic view of a wind power tower transportation device of the present invention;

fig. 2 is a three-dimensional schematic view of a first base of the present invention;

fig. 3 is a three-dimensional schematic view of a second base of the present invention;

FIG. 4 is a three-dimensional schematic view of the supporting base of the present invention;

fig. 5 is a three-dimensional schematic diagram of the fixing mechanism of the present invention.

Detailed Description

The following is further detailed by way of specific embodiments:

reference numerals in the drawings of the specification include: the device comprises a first base 1, a supporting seat 2, a sliding seat 3, a sliding groove 4, an adjusting screw rod 5, a motor 6, a wind power tower 7, a hydraulic cylinder 8, an L-shaped push plate 9, a screw rod 10, a fixing clamping plate 11, a threaded hole 12, a supporting block 13, a tooling groove 14 and a second base 15.

The first embodiment is as follows:

in one embodiment, as shown in fig. 1 to 5, a wind turbine tower transportation device shown in fig. 1 includes a plurality of supporting mechanisms and at least one fixing mechanism, each supporting mechanism includes a base and a supporting base 2, the base is bolted to a transportation vehicle, the supporting base 2 is arc-shaped, each supporting base 2 includes two supporting blocks 13 shown in fig. 4, and a gap is left between the two supporting blocks 13.

In this embodiment, the number of the supporting mechanisms is two, as shown in fig. 1, the left side base is a first base 1, the right side base is a second base 15, the tool grooves 14 are formed in the first base 1 and the second base 15, the supporting seat 2 is located in the tool grooves 14, and the connecting block is welded at one end of the first base 1.

The first base 1 and the second base 15 are respectively provided with a sliding unit, each sliding unit comprises two sliding seats 3, two adjusting screw rods 5 and two motors 6, the first base 1 and the second base 15 are respectively provided with two sliding chutes 4, the two motors 6 of the first base 1 are respectively connected to the first base 1 through bolts, the adjusting screw rods 5 are connected with output shafts of the motors 6 through flanges, and the motors 6 are MR-J2S-100A in model. As shown in fig. 4, the sliding seat 3 of the first base 1 is welded at the bottom of the supporting block 13, a threaded hole 12 is formed in the sliding seat 3 in a penetrating manner, the sliding seat 3 is in threaded connection with the adjusting screw 5 shown in fig. 1 through the threaded hole 12, and the sliding seat 3 is slidably disposed in the sliding groove 4 of the first base 1. The second base 15 is similar and will not be described in detail.

As shown in fig. 2, the fixing mechanism includes an L-shaped push plate 9, a fixing clamping plate 11 and a hydraulic cylinder 8, the L-shaped push plate 9 includes a horizontal push plate and a vertical push plate, and the horizontal push plate and the vertical push plate are welded. And the hydraulic cylinder 8 is connected to the connecting block of the first base 1 through a bolt, and the vertical push plate is connected with an output shaft flange of the hydraulic cylinder 8. One end of the horizontal push plate, which is far away from the vertical push plate, is in threaded connection with a screw rod 10, and the screw rod 10 is rotatably connected with a fixed clamping plate 11. The lower extreme of fixed cardboard 11 is the arc type, and the lower extreme of fixed cardboard 11 can with the inner wall contact as shown in FIG. 1 wind power tower cylinder 7, and fixed cardboard 11 is made by the higher rubber of coefficient of friction, for example natural rubber, butadiene rubber and isoprene rubber etc. can avoid wind power tower cylinder 7 to take place to rock the problem that causes the occurence of failure in the transportation.

The specific implementation process is as follows:

the wind power tower 7 is placed on the supporting blocks 13, the motor 6 drives the adjusting screw 5 to rotate, so that the sliding base 3 can be driven to slide in the sliding groove 4, the motor 6 on the second base 15 synchronously rotates, and the supporting blocks 13 synchronously slide, namely, the two supporting blocks 13 simultaneously slide to the left side or slide to the right side under the driving of the two motors 6, so that the distance between the two supporting blocks 13 is adjusted, the wind power towers 7 with different sizes are supported, and the first base 1 is the same; of course, one of the supporting blocks 13 on the second base 15 can also be moved to the left and the other to the right under the driving of the motor 6. Similarly, one of the support blocks 13 on the first base 1 moves to the right side, and the other support block 13 moves to the left side, so that the two support blocks 13 on the support base 2 are staggered, and the four support blocks 13 simultaneously support the wind power tower 7. If the wind tower 7 is too long in size, one of the support blocks 13 on the second base 15 is slid to the right, and the other support block 13 is slid to the left. Similarly, one support block 13 on the first base 1 is slid to the left, and the other support block 13 is slid to the right, so as to support the longer wind tower 7.

The screw 10 is rotated to drive the fixing clamping plate 11 to slide downwards until the inner wall of the wind power tower 7 is attached, and the fixing of the wind power tower 7 is realized under the action of the supporting block 13 and the fixing clamping plate 11 which are far away from the first base 1 on the second base 15.

Example two:

the difference from the first embodiment is that the base further comprises a third base, the first base 1 is not provided with a connecting block, the second base 15 is positioned between the first base 1 and the third base, and the vertical push plate is welded on the first base 1 and the third base. The horizontal push plate and the vertical push plate are hinged, and the fixing clamping plate 11 is located in the wind power tower cylinder 7.

The specific implementation process is as follows:

wind power tower cylinder 7 is fixed on supporting seat 2, sliding support piece 13 makes fixed cardboard 11 be located wind power tower cylinder 7, the horizontal push pedal of clockwise rotation, thereby fixed cardboard 11 also can rotate, the rotation through screw rod 10 drives fixed cardboard 11 downstream, and then the inner wall of fixed wind power tower cylinder 7, at fixed cardboard 11, under the effect of a supporting shoe 13 in first base 1 and the third base, realize wind power tower cylinder 7's fixing.

EXAMPLE III

The difference from the second embodiment is that the vertical push plate is provided with a groove, and the vertical push plate is connected with the horizontal push plate in a sliding way through the groove. One side of the horizontal push plate close to the vertical push plate is provided with a groove, the vertical push plate is provided with a hole, the vertical push plate is connected with a limiting shaft through the hole in a sliding manner, and the limiting shaft can extend into the groove.

The specific implementation process is as follows:

the horizontal push plate slides downwards, stopping sliding when being attached to the inner wall of the wind power tower cylinder 7, and the limiting shaft extends into the groove of the horizontal push plate to complete positioning of the horizontal push plate, so that the horizontal push plate can fix the wind power tower cylinder 7.

The above description is only an example of the present invention, and the common general knowledge of the known specific structures and characteristics of the schemes is not described herein. It should be pointed out that, for the person skilled in the art, without departing from the structure of the invention, several variants and modifications can be made, which should also be regarded as the scope of protection of the invention, which will not affect the effectiveness of the implementation of the invention and the utility of the patent.

Claims (6)

1. The utility model provides a wind power tower cylinder conveyer which characterized in that: including at least one fixed establishment and a plurality of supporting mechanism, every supporting mechanism all includes supporting seat and base, and the supporting seat slides and sets up on the base, fixed establishment and pedestal connection, and the supporting seat includes two supporting shoes, leaves the clearance between the supporting shoe, and the bottom of every supporting shoe is fixed and is equipped with the slide, is equipped with the spout on the base, and the supporting shoe passes through spout and base sliding connection.

2. The wind tower transport device of claim 1, wherein: the fixing mechanism comprises an L-shaped push plate and a fixing clamping plate, one end of the L-shaped push plate is connected with the base, the other end of the L-shaped push plate is in threaded connection with a screw rod, and the bottom end of the screw rod is rotatably connected with the fixing clamping plate.

3. The wind tower transport device of claim 2, wherein: each base is provided with a tooling groove, the end part of one base is fixed with a connecting block, and the L-shaped push plate is fixed on the connecting block.

4. The wind tower transport device of claim 3, wherein: the fixing mechanism further comprises a hydraulic cylinder, the hydraulic cylinder is fixedly arranged on the connecting block, the L-shaped push plate is connected with the hydraulic cylinder, and the lower end of the L-shaped push plate is arranged on the base in a sliding mode.

5. The wind tower transport device of claim 4, wherein: the L-shaped push plate comprises a horizontal push plate and a vertical push plate, the vertical push plate is fixedly connected with the hydraulic cylinder, the horizontal push plate and the vertical push plate are rotatably connected, and the screw rod is connected between the horizontal push plate and the fixing clamping plate.

6. The wind tower transport device of claim 5, wherein: the lower end of the fixed clamping plate is arc-shaped.

Images