CN215145531U - Flame cutting guiding device for groove machining of wind power tower steel plate - Google Patents

Abstract

The utility model provides a wind-powered electricity generation pylon steel sheet flame cut guider for groove preparation belongs to steel sheet processing technical field for the speed that the solution was processed wind-powered electricity generation pylon steel sheet groove is slow, the problem that the precision is low. The flame cutting device comprises a cutting mechanism and a lifting mechanism, wherein the cutting mechanism comprises a flame cutter, a cantilever mechanism is arranged on the side surface of the flame cutter, the lifting mechanism comprises a lifting rod, a lifting block is arranged on the lifting rod in a sliding manner, a supporting hole is formed in the side surface of the lifting block, a supporting rod is arranged in the supporting hole in a sliding manner, the supporting rod and the lifting rod are mutually vertical, a first locking screw and a second locking screw are respectively in threaded connection with the two sides of the lifting block, the first locking screw and the second locking screw are mutually symmetrical, and an adjusting mechanism is arranged on the supporting rod; the utility model discloses a cutting mechanism and cantilever mechanism cooperation can hug closely the side of steel sheet and remove the cutting, have improved cutting speed, do not need the adjustment track, have reduced cutting error.

Description

Flame cutting guiding device for groove machining of wind power tower steel plate

Technical Field

The utility model belongs to the technical field of steel sheet processing, a wind power tower steel sheet flame cut guider for groove preparation is related to.

Background

Wind power generation is the key point of green energy development planned in the fourteenth five years of China, and the manufacturing industry of wind power generation equipment is in the coming stage of flight development. The wind power tower is a tower pole for wind power generation, mainly plays a supporting role in a wind generating set, selects a low-alloy high-strength structural steel plate according to the environmental temperature and the supporting strength of a generating motor through calculation and design, and is processed into a multi-section cylindrical and conical steel cylinder through numerical control blanking, welding groove processing, rolling, assembling, welding and corrosion prevention. The processing of the welding groove is an important link for manufacturing the tower, the error of the processing precision directly influences the welding quality, and the processing of the steel plate groove is an important link for manufacturing the tower.

The existing occlusion type beveling machine can be used for beveling a sector plate, but the consumption of a cutter is too fast, and the use cost is higher. At present, a rail type semi-automatic flame cutting machine is used for groove machining, the distance of a rail needs to be continuously adjusted in the cutting process, the position and the direction of the rail need to be continuously adjusted in the using process, time and labor are wasted, and the quality cannot be guaranteed, so that the flame cutting guide device for groove machining of the steel plate of the wind power tower is provided.

SUMMERY OF THE UTILITY MODEL

The utility model aims at having the above-mentioned problem to current technique, provided a flame cut guider is used in processing of wind-powered electricity generation pylon steel sheet groove, the technical problem that the device will solve is: how to rapidly and accurately process the wind power tower steel plate groove.

The purpose of the utility model can be realized by the following technical proposal:

the utility model provides a wind-powered electricity generation pylon steel sheet flame cut guider for groove preparation, including cutting mechanism and elevating system, cutting mechanism includes the flame cutterbar, the side of flame cutterbar is provided with cantilever mechanism, elevating system includes the lifter, it is provided with the elevator to slide on the lifter, the supported hole has been seted up to the side of elevator, the inside slip in supported hole is provided with the bracing piece, bracing piece and lifter mutually perpendicular, the both sides of elevator threaded connection have first locking screw and second locking screw respectively, and first locking screw and second locking screw are symmetrical each other, be provided with adjustment mechanism on the bracing piece.

And a plurality of travelling wheels are arranged below the flame cutter and are positioned above the steel plate.

By adopting the structure, the included angles of the plurality of the traveling wheels and the advancing direction are kept between 10 degrees and 15 degrees, and due to the angle of the traveling wheels, an acting force is always exerted on the cantilever mechanism, so that under the action of the acting force, the cantilever mechanism can be always kept to be tightly attached to the edge of the steel plate in the whole groove cutting process, the groove cutting is carried out according to the shape of the edge of the steel plate, and the cutting deviation is avoided.

The cantilever mechanism comprises a fixing plate, the fixing plate is fixed on the side face of the flame cutter, a cantilever slide rod is fixed on the fixing plate, a cantilever sliding cylinder is arranged on the cantilever slide rod in a sliding mode, a cantilever screw rod is connected to the upper portion of the cantilever sliding cylinder in a threaded mode, a connecting rod is fixed below the cantilever sliding cylinder, an installation rod is fixed below the connecting rod, a idler wheel is arranged on the installation rod in a rotating mode, and the idler wheel abuts against the side face of a steel plate.

By adopting the structure, the cantilever sliding barrel is moved, the cantilever sliding barrel drives the connecting rod to move, the connecting rod drives the mounting rod to move, and the mounting rod drives the idler to move, so that the idler is abutted against the side surface of the steel plate, the cantilever screw rod is rotated, and the cantilever sliding barrel is locked.

The adjusting mechanism comprises an adjusting sliding barrel, the adjusting sliding barrel is arranged on the supporting rod in a sliding mode, the side face of the adjusting sliding barrel is connected with an adjusting screw rod in a threaded mode, an adjusting rod is fixed below the adjusting sliding barrel, a nozzle sliding barrel is arranged on the adjusting rod in a sliding mode, a first nozzle screw rod is connected to the nozzle sliding barrel in a threaded mode, a nozzle is arranged on the nozzle sliding barrel in a rotating mode, the side face of the nozzle is connected with a second nozzle screw rod in a threaded mode, a connector is fixed to the end portion of the nozzle, and the connector can be connected with the flame cutter through a gas pipe.

By adopting the structure, the adjusting sliding barrel is moved to a proper position, the adjusting screw rod is rotated to lock the adjusting sliding barrel, the nozzle sliding barrel is moved to a proper position, the first nozzle screw rod is rotated to lock the nozzle sliding barrel, the nozzle is adjusted to a proper angle, the second nozzle screw rod is rotated to lock the nozzle, and the flame cutter is connected with the joint through the gas pipe.

Compared with the prior art, the flame cutting guide device for the groove machining of the steel plate of the wind power tower has the advantages that:

1. the cutting mechanism is matched with the cantilever mechanism, and can be attached to the side surface of the steel plate for moving cutting, so that the cutting speed is improved, the track does not need to be adjusted, and the cutting error is reduced;

2. cutting mechanism, adjustment mechanism and elevating system cooperation can adjust the height and the angle of cutting steel sheet to be applicable to the cutting of not unidimensional, improved the universality.

Drawings

Fig. 1 is a schematic top view of the present invention;

fig. 2 is a schematic front view of the present invention;

in the figure: 1-steel plate, 2-cutting mechanism, 201-flame cutter, 202-traveling wheel, 3-cantilever mechanism, 301-fixing plate, 302-cantilever screw, 303-cantilever slide bar, 304-cantilever slide cylinder, 305-connecting bar, 306-mounting bar, 307-idler wheel, 4-adjusting mechanism, 401-adjusting screw, 402-adjusting slide cylinder, 403-adjusting bar, 404-cutting nozzle, 405-cutting nozzle slide cylinder, 406-joint, 5-lifting mechanism, 501-first locking screw, 502-supporting bar, 503-lifting block, 504-lifting bar and 505-second locking screw.

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. 1-2, the embodiment provides a flame cutting guide device for groove machining of a steel plate of a wind power tower, including a cutting mechanism 2 and a lifting mechanism 5, where the cutting mechanism 2 includes a flame cutter 201, a cantilever mechanism 3 is disposed on a side surface of the flame cutter 201, the lifting mechanism 5 includes a lifting rod 504, a lifting block 503 is slidably disposed on the lifting rod 504, a support hole is disposed on a side surface of the lifting block 503, a support rod 502 is slidably disposed inside the support hole, the support rod 502 is perpendicular to the lifting rod 504, a first locking screw 501 and a second locking screw 505 are respectively in threaded connection with two sides of the lifting block 503, the first locking screw 501 and the second locking screw 505 are symmetric to each other, and an adjusting mechanism 4 is disposed on the support rod 502.

A plurality of travelling wheels 202 are arranged below the flame cutter 201, and the travelling wheels 202 are positioned above the steel plate 1; the included angles of the plurality of traveling wheels 202 and the advancing direction are kept at 10-15 degrees, and due to the angle of the traveling wheels 202, an acting force is always applied to the cantilever mechanism 3, so that the cantilever mechanism 3 can be always tightly attached to the edge of the steel plate in the whole groove cutting process under the action of the acting force, the groove cutting is carried out according to the shape of the edge of the steel plate, and the cutting deviation is avoided.

The cantilever mechanism 3 comprises a fixed plate 301, the fixed plate 301 is fixed on the side surface of the flame cutter 201, a cantilever slide rod 303 is fixed on the fixed plate 301, a cantilever slide cylinder 304 is arranged on the cantilever slide rod 303 in a sliding manner, a cantilever screw 302 is connected to the upper part of the cantilever slide cylinder 304 in a threaded manner, a connecting rod 305 is fixed below the cantilever slide cylinder 304, a mounting rod 306 is fixed below the connecting rod 305, a idler wheel 307 is arranged on the mounting rod 306 in a rotating manner, and the idler wheel 307 is abutted against the side surface of the steel plate 1; the cantilever sliding barrel 304 is moved, the cantilever sliding barrel 304 drives the connecting rod 305 to move, the connecting rod 305 drives the mounting rod 306 to move, the mounting rod 306 drives the idler wheel 307 to move, and therefore the idler wheel 307 abuts against the side face of the steel plate 1, the cantilever screw 302 is rotated, and the cantilever sliding barrel 304 is locked.

The adjusting mechanism 4 comprises an adjusting sliding barrel 402, the adjusting sliding barrel 402 is arranged on a supporting rod 502 in a sliding mode, the side face of the adjusting sliding barrel 402 is connected with an adjusting screw rod 401 in a threaded mode, an adjusting rod 403 is fixed below the adjusting sliding barrel 402, a nozzle cutting sliding barrel 405 is arranged on the adjusting rod 403 in a sliding mode, a first nozzle cutting screw rod is connected onto the nozzle cutting sliding barrel 405 in a threaded mode, a nozzle cutting 404 is arranged on the nozzle cutting sliding barrel 405 in a rotating mode, a second nozzle cutting screw rod is connected onto the side face of the nozzle cutting 404 in a threaded mode, a connector 406 is fixed to the end portion of the nozzle cutting 404, and the connector 406 can be connected with the flame cutter 201 through an air conveying pipe; the adjusting sliding barrel 402 is moved to a proper position, the adjusting screw 401 is rotated to lock the adjusting sliding barrel 402, the nozzle sliding barrel 405 is moved to a proper position, the first nozzle screw is rotated to lock the nozzle sliding barrel 405, the nozzle 404 is adjusted to a proper angle, the second nozzle screw is rotated to lock the nozzle 404, and the flame cutter 201 and the connector 406 are connected through the air pipe.

In the present embodiment, the fixing means are all the most commonly used fixing connection means in the field, such as welding, bolt connection, etc.

The utility model discloses a theory of operation:

the flame cutter 201 is placed above a steel plate 1, a plurality of traveling wheels 202 support the flame cutter 201, a cantilever sliding barrel 304 is moved, the cantilever sliding barrel 304 drives a connecting rod 305 to move, the connecting rod 305 drives a mounting rod 306 to move, the mounting rod 306 drives a leaning wheel 307 to move, so that the leaning wheel 307 abuts against the side face of the steel plate 1, a cantilever screw 302 is rotated, the cantilever sliding barrel 304 is locked, a sliding lifting block 503 is slid to a proper height and a proper angle, a second locking screw 505 is locked, the supporting rod 502 is adjusted to a proper length, a first locking screw 501 is locked, an adjusting sliding barrel 402 is moved to a proper position, an adjusting screw 401 is rotated to lock the adjusting sliding barrel 402, a nozzle sliding barrel 405 is moved to a proper position, the first nozzle screw is rotated to lock the nozzle sliding barrel 405, a nozzle 404 is adjusted to a proper angle, the second nozzle screw is rotated to lock the nozzle 404, the flame cutter 201 is connected with a connector 406 by using an air pipe, a plurality of advancing wheels 202 drive flame cutter 201 and remove, cutting nozzle 404 cuts the groove of steel sheet 1, a plurality of advancing wheels 202 keep 10 ~ 15 contained angles with the advancing direction, because the reason of advancing wheel 202 angle, can have an effort to depended wheel 307 all the time, under this power's effect, can guarantee that depended wheel 307 remains throughout in whole groove cutting process and steel sheet edge laminating is inseparable, carry out the groove cutting according to steel sheet edge shape, can not produce the cutting deviation.

In conclusion, the cutting mechanism 2 is matched with the cantilever mechanism 3, and can be attached to the side surface of the steel plate 1 for moving cutting, so that the cutting speed is improved, the track does not need to be adjusted, and the cutting error is reduced; the cutting mechanism 2, the adjusting mechanism 4 and the lifting mechanism 5 are matched, and the height and the angle of the cut steel plate can be adjusted, so that the cutting mechanism is suitable for cutting of different sizes, and the universality is improved.

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 (4)

1. A flame cutting guide device for the groove processing of a steel plate of a wind power tower comprises a cutting mechanism (2) and a lifting mechanism (5), the cutting mechanism (2) is characterized by comprising a flame cutter (201), a cantilever mechanism (3) is arranged on the side surface of the flame cutter (201), a lifting mechanism (5) comprises a lifting rod (504), a lifting block (503) is arranged on the lifting rod (504) in a sliding manner, a supporting hole is formed in the side surface of the lifting block (503), a supporting rod (502) is arranged in the supporting hole in a sliding manner, the supporting rod (502) is perpendicular to the lifting rod (504), a first locking screw (501) and a second locking screw (505) are respectively in threaded connection with the two sides of the lifting block (503), the first locking screw (501) and the second locking screw (505) are symmetrical to each other, and the supporting rod (502) is provided with an adjusting mechanism (4).

2. The flame cutting guide device for the groove preparation of the steel plate of the wind power tower as claimed in claim 1, wherein a plurality of traveling wheels (202) are arranged below the flame cutter (201), and the traveling wheels (202) are arranged above the steel plate (1).

3. The flame cutting guide device for the groove machining of the steel plate of the wind power tower as claimed in claim 2, wherein the cantilever mechanism (3) comprises a fixing plate (301), the fixing plate (301) is fixed on the side surface of the flame cutter (201), a cantilever sliding rod (303) is fixed on the fixing plate (301), a cantilever sliding barrel (304) is slidably arranged on the cantilever sliding rod (303), a cantilever screw rod (302) is connected to the upper portion of the cantilever sliding barrel (304) in a threaded manner, a connecting rod (305) is fixed below the cantilever sliding barrel (304), a mounting rod (306) is fixed below the connecting rod (305), a idler wheel (307) is rotatably arranged on the mounting rod (306), and the idler wheel (307) abuts against the side surface of the steel plate (1).

4. The flame cutting guide device for the groove machining of the steel plate of the wind power tower as claimed in claim 1 or 2, wherein the adjusting mechanism (4) comprises an adjusting sliding barrel (402), the adjusting sliding barrel (402) is slidably arranged on the supporting rod (502), an adjusting screw (401) is in threaded connection with the side surface of the adjusting sliding barrel (402), an adjusting rod (403) is fixed below the adjusting sliding barrel (402), a nozzle sliding barrel (405) is slidably arranged on the adjusting rod (403), a first nozzle screw is in threaded connection with the nozzle sliding barrel (405), a nozzle (404) is rotatably arranged on the nozzle sliding barrel (405), a second nozzle screw is in threaded connection with the side surface of the nozzle (404), a connector (406) is fixed at the end of the nozzle (404), and the connector (406) can be connected with the flame cutter (201) through a gas pipe.

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