CN111232385A - Steel-concrete tower transfer device - Google Patents

Abstract

The invention provides a steel-concrete tower transfer device, belongs to the technical field of transfer equipment, and solves the technical problems of inconvenience and high hoisting difficulty of steel-concrete tower equipment during transfer. The steel-concrete tower transfer device comprises a supporting frame, a sliding groove is formed below the supporting frame, a plurality of locking mechanisms are arranged in the sliding groove in a sliding mode, a plurality of supporting blocks are fixed in the supporting frame, rotating mechanisms are arranged in the supporting blocks and comprise a first rotating rod and a second rotating rod, and a plurality of buffer mechanisms are uniformly arranged on the first rotating rod and the second rotating rod at equal intervals; according to the invention, the output motor, the first rotating rod, the second rotating rod and the buffer mechanism are matched, so that the bearing angle of the steel-concrete tower is increased, the steel-concrete tower is driven to slowly fall onto the arc-shaped plate, and the hoisting difficulty is reduced; adopt slewing mechanism, second electric putter and universal wheel cooperation, can rise the carriage, the universal wheel makes the carriage can remove to make things convenient for the steel-concrete tower to pull the removal.

Description

Steel-concrete tower transfer device

Technical Field

The invention belongs to the technical field of transfer equipment, relates to a tower transfer device, and particularly relates to a reinforced concrete tower transfer device.

Background

With the continuous improvement of the single machine capacity of the wind turbine generator, the requirement on the bearing capacity of the tower barrel is higher and higher. In addition, the average wind speed of a plurality of wind fields to be developed at present in China is low, the generated energy of the wind turbine generator is required to be improved by increasing the height of the tower barrel, through comparative analysis, after the height of the tower barrel exceeds 90 m, the traditional tower barrel cannot meet the use requirement due to the limitation of multiple factors such as transportation size, complete machine frequency, economy and the like, and with the development of the wind power generation technology, a steel-concrete tower frame is provided, namely the steel tower barrel is erected on the concrete tower barrel to improve the height of a wind wheel.

At present, the transportation method and the equipment of steel tower barrel frame are relatively original, and the transportation of steel-concrete tower frame is mostly hoisted through heavy machinery and is moved, and is very inconvenient when the storage is transported, and the hoist and mount degree of difficulty is higher, transports the unable demand that satisfies of equipment of steel-concrete tower frame, consequently, we propose steel-concrete tower frame transfer device.

Disclosure of Invention

The invention aims to solve the problems in the prior art, and provides a steel-concrete tower transfer device, which aims to solve the technical problems that: how to make the steel-concrete tower equipment more convenient and reduce the hoist and mount degree of difficulty when transporting.

The purpose of the invention can be realized by the following technical scheme:

the utility model provides a steel-concrete tower transfer device, includes the carriage, the spout has been seted up to the below of carriage, and the inside slip of spout is provided with a plurality of locking mechanism, and the inside of carriage is fixed with a plurality of supporting shoes, and the inside of supporting shoe is provided with slewing mechanism, and slewing mechanism includes first dwang and second dwang, and the equidistance equipartition is provided with a plurality of buffer gear on first dwang and the second dwang.

The working principle of the invention is as follows: slewing mechanism drives buffer gear and rotates, hangs the steel-concrete tower toward buffer gear's top, and buffer gear has increased the bearing angle to convenient hoist and mount more, later, slewing mechanism drives buffer gear and rotates, thereby slowly places the carriage with the steel-concrete tower on, later, slewing mechanism drives buffer gear and rotates downwards, thereby risees the carriage, conveniently pulls the removal.

The supporting frame is characterized in that a supporting plate is fixed above the supporting frame, a plurality of lifting slotted holes are formed in the supporting plate, a plurality of arc-shaped plates are fixed above the supporting plate, the arc-shaped plates are located on two sides of each lifting slotted hole, and a first rotating hole and a second rotating hole are formed in the supporting block.

By adopting the structure, the supporting plate provides a mounting position for the rotating mechanism, the arc-shaped plate can limit the steel-concrete tower, and the lifting groove hole is convenient for the buffer mechanism to lift.

The first rotating rod is rotatably arranged inside the second rotating hole, and the second rotating rod is rotatably arranged inside the first rotating hole.

Structure more than adopting, first dwang and second dwang all can rotate.

The rotating mechanism further comprises an output motor and a driven gear, the output motor is fixed on the side face of the supporting block, an output shaft of the output motor is connected with the first rotating rod through a coupler, a driving gear is fixed at the end portion of the first rotating rod, the driven gear is fixed at the end portion of the second rotating rod, and the driving gear is meshed with the driven gear.

By adopting the structure, the output motor drives the first rotating rod to rotate through the output shaft, the first rotating rod drives the driving gear to rotate, and the driving gear drives the second rotating rod to rotate through the driven gear.

Buffer gear includes a plurality of second electric putter, the equidistance equipartition of second electric putter fixes on first dwang and second dwang, and second electric putter all is located under the lift slotted hole, and second electric putter's end fixing has the universal wheel.

By adopting the structure, the first rotating rod and the second rotating rod rotate to drive the second electric push rod to rotate upwards, then the second electric push rod extends to hoist the steel-concrete tower frame onto the second electric push rod, and then the second electric push rod contracts, so that the steel-concrete tower frame is driven to slowly fall onto the arc-shaped plate, and the hoisting difficulty is reduced; first dwang and second dwang rotate and drive second electric putter and upwards rotate, and later second electric putter extends to rise the carriage, the universal wheel makes things convenient for the carriage to pull the removal simultaneously.

The locking mechanism comprises a locking block and a first electric push rod, the end part of the locking block is arranged inside the sliding groove in a sliding mode, a connecting block is fixed above the locking block, one end of the first electric push rod is fixed to the side face of the supporting block, and the other end of the first electric push rod is fixed to the side face of the connecting block.

The structure more than adopting, with the carriage hoist, first electric putter promotes the connecting block, and the connecting block drives the latch segment and removes in the inside of spout, later with the carriage hoist toward haulage vehicle on, first electric putter drives the connecting block and removes, and the connecting block drives the latch segment and removes in the inside of spout to fix the carriage on the automobile body.

Compared with the prior art, this reinforced concrete tower transfer device has following advantage:

1. the output motor, the first rotating rod, the second rotating rod and the buffer mechanism are matched, so that the bearing angle of the steel-concrete tower frame can be increased, and meanwhile, the steel-concrete tower frame is driven to slowly fall onto the arc-shaped plate, and the hoisting difficulty is reduced;

2. the support frame can be lifted by adopting the matching of the rotating mechanism, the second electric push rod and the universal wheel, and the universal wheel enables the support frame to move, so that the steel-concrete tower frame can be conveniently pulled to move;

3. adopt locking mechanism, first electric putter passes through the connecting block and drives the locking piece removal, presss from both sides the automobile body tightly to fix the carriage on the automobile body, thereby difficult fixed and hang when solving the transportation of steel-concrete tower and get inconvenient problem.

Drawings

FIG. 1 is a schematic upper side perspective view of the present invention;

FIG. 2 is a perspective view of the present invention in a transport state;

FIG. 3 is a schematic perspective view of the locking mechanism of the present invention;

FIG. 4 is a schematic view of the lower side of the present invention;

in the figure: 1-supporting frame, 101-lifting slotted hole, 102-supporting plate, 103-sliding groove, 104-supporting block, 105-arc plate, 106-first rotating hole, 107-second rotating hole, 2-locking mechanism, 201-locking block, 202-connecting block, 203-first electric push rod, 3-rotating mechanism, 301-driving gear, 302-output motor, 303-driven gear, 304-first rotating rod, 305-second rotating rod, 4-buffer mechanism, 401-second electric push rod and 402-universal wheel.

Detailed Description

The technical solution of the present patent will be described in further detail with reference to the following embodiments.

Reference will now be made in detail to embodiments of the present patent, examples of which are illustrated in the accompanying drawings, wherein like or similar 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 exemplary only for the purpose of explaining the present patent and are not to be construed as limiting the present patent.

In the description of this patent, it is to be understood that the terms "center," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in the orientations and positional relationships indicated in the drawings for the convenience of describing the patent and for the simplicity of description, and are not intended to indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and are not to be considered limiting of the patent.

In the description of this patent, it is noted that unless otherwise specifically stated or limited, the terms "mounted," "connected," and "disposed" are to be construed broadly and can include, for example, fixedly connected, disposed, detachably connected, disposed, or integrally connected and disposed. The specific meaning of the above terms in this patent may be understood by those of ordinary skill in the art as appropriate.

Referring to fig. 1-4, the embodiment provides a steel-concrete tower transfer device, which includes a supporting frame 1, a chute 103 is formed below the supporting frame 1, a plurality of locking mechanisms 2 are slidably disposed inside the chute 103, a plurality of supporting blocks 104 are fixed inside the supporting frame, a rotating mechanism 3 is disposed inside the supporting blocks 104, the rotating mechanism 3 includes a first rotating rod 304 and a second rotating rod 305, and a plurality of buffer mechanisms 4 are equidistantly and uniformly disposed on the first rotating rod 304 and the second rotating rod 305; slewing mechanism 3 drives buffer gear 4 and rotates, hangs the steel-concrete tower toward buffer gear 4's top, and buffer gear 4 has increased the bearing angle to more convenient hoist and mount, later, slewing mechanism 3 drives buffer gear 4 and rotates, thereby slowly places the steel-concrete tower on carriage 1, later, slewing mechanism 3 drives buffer gear 4 and rotates downwards, thereby risees carriage 1, conveniently pulls the removal.

A supporting plate 102 is fixed above the supporting frame 1, a plurality of lifting slotted holes 101 are formed in the supporting plate 102, a plurality of arc-shaped plates 105 are fixed above the supporting plate 102, the arc-shaped plates 105 are located on two sides of the lifting slotted holes 101, and a first rotating hole 106 and a second rotating hole 107 are formed in the supporting block 104; the supporting plate 102 provides a mounting position for the rotating mechanism 3, the arc-shaped plate 105 can limit the position of the steel-concrete tower, and the lifting slot hole 101 facilitates the lifting of the buffer mechanism 4.

The first rotating rod 304 is rotatably disposed inside the second rotating hole 107, and the second rotating rod 305 is rotatably disposed inside the first rotating hole 106; both the first rotating lever 304 and the second rotating lever 305 can rotate.

The rotating mechanism 3 further comprises an output motor 302 and a driven gear 303, the output motor 302 is fixed on the side surface of the supporting block 104, an output shaft of the output motor 302 is connected with a first rotating rod 304 through a coupler, a driving gear 301 is fixed at the end part of the first rotating rod 304, the driven gear 303 is fixed at the end part of a second rotating rod 305, and the driving gear 301 is meshed with the driven gear 303; the output motor 302 drives the first rotating rod 304 to rotate through the output shaft, the first rotating rod 304 drives the driving gear 301 to rotate, and the driving gear 301 drives the second rotating rod 305 to rotate through the driven gear 303.

The buffer mechanism 4 comprises a plurality of second electric push rods 401, the second electric push rods 401 are uniformly fixed on the first rotating rod 304 and the second rotating rod 305 at equal intervals, the second electric push rods 401 are located right below the lifting slotted hole 101, and universal wheels 402 are fixed at the end parts of the second electric push rods 401; the first rotating rod 304 and the second rotating rod 305 rotate to drive the second electric push rod 401 to rotate upwards, then the second electric push rod 401 extends to hoist the steel-concrete tower frame onto the second electric push rod 401, and then the second electric push rod 401 contracts, so that the steel-concrete tower frame is driven to slowly fall onto the arc-shaped plate 105, and the hoisting difficulty is reduced; the first rotating rod 304 and the second rotating rod 305 rotate to drive the second electric push rod 401 to rotate upwards, and then the second electric push rod 401 extends, so that the supporting frame 1 is lifted, and meanwhile, the universal wheels 402 facilitate the traction movement of the supporting frame 1.

The locking mechanism 2 comprises a locking block 201 and a first electric push rod 203, the end part of the locking block 201 is arranged inside the sliding groove 103 in a sliding manner, a connecting block 202 is fixed above the locking block 201, one end of the first electric push rod 203 is fixed on the side surface of the supporting block 104, and the other end of the first electric push rod 203 is fixed on the side surface of the connecting block 202; the supporting frame 1 is lifted, the first electric push rod 203 pushes the connecting block 202, the connecting block 202 drives the locking block 201 to move in the sliding groove 103, then the supporting frame 1 is lifted to a transport vehicle, the first electric push rod 203 drives the connecting block 202 to move, and the connecting block 202 drives the locking block 201 to move in the sliding groove 103, so that the supporting frame 1 is fixed on a vehicle body.

The working principle of the invention is as follows:

the output motor 302 drives the first rotating rod 304 to rotate through an output shaft, the first rotating rod 304 drives the driving gear 301 to rotate, the driving gear 301 drives the second rotating rod 305 to rotate through the driven gear 303, the first rotating rod 304 and the second rotating rod 305 rotate to drive the second electric push rod 401 to rotate upwards, then the second electric push rod 401 extends, the steel-concrete tower is hung on the second electric push rod 401, then the second electric push rod 401 contracts, and therefore the steel-concrete tower is driven to slowly fall onto the arc-shaped plate 105, and the hanging difficulty is reduced;

then, the output motor 302 drives the first rotating rod 304 to rotate through the output shaft, the first rotating rod 304 drives the driving gear 301 to rotate, the driving gear 301 drives the second rotating rod 305 to rotate through the driven gear 303, the first rotating rod 304 and the second rotating rod 305 drive the second electric push rod 401 to rotate downwards, and then the second electric push rod 401 extends, so that the supporting frame 1 is lifted, and meanwhile, the universal wheel 402 facilitates the supporting frame 1 to move in a traction manner;

meanwhile, the whole device can be hoisted on a transport vehicle, the support frame 1 is hoisted, the first electric push rod 203 pushes the connecting block 202, the connecting block 202 drives the locking block 201 to move in the sliding groove 103, then the support frame 1 is hoisted onto the transport vehicle, the first electric push rod 203 drives the connecting block 202 to move, the connecting block 202 drives the locking block 201 to move in the sliding groove 103, the support frame 1 is fixed on a vehicle body, and the problems that the steel-concrete tower is not easy to fix and inconvenient to hoist during transportation are solved.

In conclusion, the output motor 302, the first rotating rod 304, the second rotating rod 305 and the buffer mechanism 4 are matched, so that the bearing angle of the steel-concrete tower can be increased, the steel-concrete tower is driven to slowly fall onto the arc-shaped plate 105, and the hoisting difficulty is reduced; the rotating mechanism 3, the second electric push rod 401 and the universal wheel 402 are matched, so that the supporting frame 1 can be lifted, and meanwhile, the universal wheel 402 facilitates the supporting frame 1 to move in a traction manner, and therefore the steel-concrete tower frame can move in a traction manner conveniently; adopt locking mechanism 2, first electric putter 203 drives latch segment 201 through connecting block 202 and removes, presss from both sides the automobile body tightly to fix carriage 1 on the automobile body, thereby difficult fixed and hang when solving the transportation of steel-concrete tower and get inconvenient problem.

Although the preferred embodiments of the present patent have been described in detail, the present patent is not limited to the above embodiments, and various changes can be made without departing from the spirit of the present patent within the knowledge of those skilled in the art.

Claims (6)

1. The utility model provides a steel-concrete tower transfer device, includes carriage (1), a serial communication port, spout (103) have been seted up to the below of carriage (1), and spout (103) inside slip is provided with a plurality of locking mechanism (2), and the inside of carriage is fixed with a plurality of supporting shoes (104), and the inside of supporting shoe (104) is provided with slewing mechanism (3), and slewing mechanism (3) include first dwang (304) and second dwang (305), and equidistant equipartition is provided with a plurality of buffer gear (4) on first dwang (304) and second dwang (305).

2. The transfer device for the reinforced concrete tower frame according to claim 1, wherein a support plate (102) is fixed above the support frame (1), a plurality of lifting slotted holes (101) are formed in the support plate (102), a plurality of arc-shaped plates (105) are fixed above the support plate (102), the arc-shaped plates (105) are located on two sides of each lifting slotted hole (101), and a first rotating hole (106) and a second rotating hole (107) are formed in the support block (104).

3. The transfer device of a steel-concrete tower according to claim 2, wherein the first rotating rod (304) is rotatably disposed inside the second rotating hole (107), and the second rotating rod (305) is rotatably disposed inside the first rotating hole (106).

4. The transfer device for the steel-concrete tower according to claim 2, wherein the rotating mechanism (3) further comprises an output motor (302) and a driven gear (303), the output motor (302) is fixed on the side surface of the supporting block (104), an output shaft of the output motor (302) is connected with the first rotating rod (304) through a coupler, a driving gear (301) is fixed on the end portion of the first rotating rod (304), the driven gear (303) is fixed on the end portion of the second rotating rod (305), and the driving gear (301) is meshed with the driven gear (303).

5. The transfer device for the steel-concrete tower according to claim 4, wherein the buffering mechanism (4) comprises a plurality of second electric push rods (401), the second electric push rods (401) are equidistantly and uniformly fixed on the first rotating rod (304) and the second rotating rod (305), the second electric push rods (401) are located right below the lifting slotted hole (101), and universal wheels (402) are fixed at the ends of the second electric push rods (401).

6. The transfer device for the reinforced concrete tower frame as claimed in claim 2, wherein the locking mechanism (2) comprises a locking block (201) and a first electric push rod (203), the end of the locking block (201) is slidably arranged inside the sliding groove (103), the connecting block (202) is fixed above the locking block (201), one end of the first electric push rod (203) is fixed on the side surface of the supporting block (104), and the other end of the first electric push rod (203) is fixed on the side surface of the connecting block (202).

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