CN214054079U - Cutting device for tower plate - Google Patents

Abstract

The utility model discloses a cutting device for tower plates, which comprises two fixed frames arranged at two sides of a conveying mechanism, wherein a first support plate is arranged at the outer side of one fixed frame, and two second support plates are symmetrically arranged at the outer side of the other fixed frame; be provided with two sets of cutting mechanism above two mounts, cutting mechanism includes synchronous guide rail, the elevating gear of setting in synchronous guide rail slip table bottom and the laser cutting mechanism who sets up at elevating gear's executive shaft end, both ends at synchronous guide rail all are provided with the fixed concave groove with synchronous guide rail both sides, be provided with the back shaft respectively on two extension boards two, the symmetry is provided with two arc guide rails on extension board one, be provided with the fixed axle on arc guide rail's slip table, the back shaft, the fixed axle all rotates with the bottom plate that corresponds the concave groove of side synchronous guide rail one end and is connected, the mount outside between two extension boards two still is provided with the controller. The utility model discloses can effectual improvement cutting efficiency and can satisfy multiple cutting demand.

Description

Cutting device for tower plate

Technical Field

The utility model relates to a cutting device for pylon panel belongs to the cutting device field.

Background

Wind energy is an available energy provided to human beings by air flow to do work, and belongs to renewable energy sources (including water energy, biological energy and the like). The kinetic energy of the air flow is called wind energy. The higher the air flow rate, the greater the kinetic energy. People can use a windmill to convert the kinetic energy of wind into rotary motion to drive a generator so as to generate electric power. Wind power generation needs to adopt the pylon that supports the wind energy conversion system, and the wind energy conversion system pylon often adopts the cylinder structure, and the tower section of thick bamboo of cylinder structure is when production, needs to cut into the state that one end is narrow one end is wide to curl the welding and make a tower section of thick bamboo, but current to cylinder tower panel cutting device when cutting to panel, cutting efficiency is low, and with strong points, can not satisfy the cutting of different demands.

Disclosure of Invention

For solving the not enough of prior art, the utility model provides a cutting device for pylon panel can effectual improvement cutting efficiency and can satisfy multiple cutting demand.

The utility model discloses the technical scheme who adopts does:

a cutting device for tower plates comprises two fixed frames arranged on two sides of a conveying mechanism, wherein a first support plate is arranged on the outer side of one fixed frame, two second support plates are symmetrically arranged on the outer side of the other fixed frame by taking the central line of the first support plate as an axis, and the distance between the two second support plates is greater than the length of the first support plate; be provided with two sets of cutting mechanism above two mounts, cutting mechanism includes synchronous guide rail, the elevating gear of setting in synchronous guide rail slip table bottom and the laser cutting mechanism who sets up at elevating gear's actuating shaft end, both ends at synchronous guide rail all are provided with the concave groove fixed with synchronous guide rail both sides, be provided with the back shaft respectively on two extension boards two, the symmetry is provided with two arc guide rails on extension board one, and the opening of two arc guide rails sets up towards the one side of keeping away from each other, be provided with the fixed axle on arc guide rail's slip table, the back shaft, the fixed axle all is connected with the bottom plate rotation that corresponds the concave groove of side synchronous guide rail one end, the mount outside between two extension boards still is provided with the controller, through operation control synchronous guide rail on the controller, elevating gear, laser cutting mechanism and arc guide rail move.

Preferably, two fixing plates are symmetrically arranged on the fixing frame between the two synchronous guide rails, a plurality of executing shafts are arranged on the fixing plates and extend to the telescopic devices below the fixing plates, a pressing plate is arranged at the tail end of the executing shaft of each telescopic device, and the telescopic devices are controlled to act through the controller.

Preferably, the two fixing plates are arranged obliquely, and the distance between the sides, close to the first support plate, of the two fixing plates is smaller than the distance between the sides, close to the second support plate, of the two fixing plates.

Preferably, positive scale marks are arranged on the tops of the two fixing frames towards two sides by taking the center line of the first supporting plate as a zero scale.

Further preferably, a scraper is further arranged between the two fixing frames positioned at the rear side of the rear end of the synchronous guide rail along the plate advancing direction, and the bottom of the scraper extends to the position above the plate.

The beneficial effects of the utility model reside in that:

the telescopic device is adopted to drive the pressing plate to tightly press the plate, and then the plate is cut through the laser cutting mechanism, so that the cutting efficiency and the cutting stability are improved; when the panel to different demands is cut, adjust cutting mechanism's position through arc guide rail to satisfy the cutting demand, improved the suitability of device.

Drawings

Fig. 1 is a front view of the present invention;

fig. 2 is a top view of the present invention;

the main reference numerals in the figures have the following meanings:

1. the device comprises a fixed frame, 2, a first support plate, 3, a second support plate, 4, a cutting mechanism, 5, a synchronous guide rail, 6, a lifting device, 7, a laser cutting mechanism, 8, a concave groove, 9, a support shaft, 10, an arc-shaped guide rail, 11, a fixed shaft, 12, a controller, 13, a fixed plate, 14, a telescopic device, 15, a pressing plate, 16 and a scraping plate.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings and examples.

As shown in fig. 1-2: the embodiment is a cutting device for a tower plate, which comprises two fixing frames 1 arranged at two sides of a conveying mechanism, wherein a first supporting plate 2 is arranged at the outer side of one fixing frame 1, two second supporting plates 3 are symmetrically arranged at the outer side of the other fixing frame 1 by taking the central line of the first supporting plate 2 as an axis, and the distance between the two second supporting plates 3 is greater than the length of the first supporting plate 2; two groups of cutting mechanisms 4 are arranged above the two fixing frames 1, each cutting mechanism 4 comprises a synchronous guide rail 5, a lifting device 6 arranged at the bottom of the sliding table of the synchronous guide rail 5 and a laser cutting mechanism 7 arranged at the tail end of an execution shaft of the lifting device 6, concave grooves 8 fixed with the two sides of the synchronous guide rail 5 are arranged at the two ends of the synchronous guide rail 5, supporting shafts 9 are respectively arranged on the two supporting plates 3, two arc-shaped guide rails 10 are symmetrically arranged on the supporting plate one 2, the openings of the two arc-shaped guide rails 10 face to one side away from each other, a fixed shaft 11 is arranged on the sliding table of the arc-shaped guide rail 10, the supporting shafts 9 and the fixed shaft 11 are respectively connected with the bottom plates of the concave grooves 8 at one ends of the corresponding side synchronous guide rails 5 in a rotating mode, a controller 12 is further arranged on the outer side of the fixing frame 1 between the two supporting plates 3, and the synchronous guide rails 5, the laser cutting mechanisms are controlled by the controller 12 to operate and control the synchronous guide rails 5, The lifting device 6, the laser cutting mechanism 7 and the arc-shaped guide rail 10 operate.

Referring to fig. 1 and 2, two fixing plates 13 are symmetrically arranged on the fixing frame 1 between the two synchronous guide rails 5, a plurality of telescopic devices 14 extending from the execution shafts to the lower part of the fixing plates 13 are arranged on the fixing plates 13, a pressing plate 15 is arranged at the tail ends of the execution shafts of the telescopic devices 14, and the telescopic devices 14 are also controlled by the controller 12 to act.

Referring to fig. 2, the two fixing plates 13 are arranged obliquely, and the distance between the sides of the two fixing plates 13 close to the first support plate 2 is smaller than the distance between the sides of the two fixing plates 13 close to the second support plate 3.

In this embodiment, positive scale lines are arranged on the tops of the two fixing frames 1 towards two sides by taking the center line of the first supporting plate 2 as a zero scale.

Referring to fig. 1 and 2, a scraper 16 is further disposed between the two fixed frames 1 at the rear side of the rear synchronous guide rail 5 along the plate advancing direction, and the bottom of the scraper 16 extends above the plate.

When the utility model is applied in practice, the conveying mechanism intermittently conveys the plate forward, after the conveying mechanism stops conveying, the telescopic device 14 is started to drive the pressing plate 15 to press down to fix the plate, then the laser cutting mechanism 7 is started, and the synchronous guide rail 5 is started to drive the sliding table to drive the laser cutting mechanism 7 to cut the plate; when the size of the plate cutting needs to be adjusted, the arc-shaped guide rails 10 are started to respectively drive the corresponding synchronous guide rails 5 to rotate at a certain angle by taking the corresponding supporting shafts 9 as the circle centers, so that the requirements of manufacturing tower barrels with different calibers on plates with different sizes are met.

The above description is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of improvements and decorations can be made without departing from the principle of the present invention, and these improvements and decorations should also be regarded as the protection scope of the present invention.

Claims (5)

1. The utility model provides a cutting device for pylon panel which characterized in that: the conveying mechanism comprises two fixing frames (1) arranged at two sides of the conveying mechanism, a first supporting plate (2) is arranged at the outer side of one fixing frame (1), two second supporting plates (3) are symmetrically arranged at the outer side of the other fixing frame (1) by taking the central line of the first supporting plate (2) as an axis, and the distance between the two second supporting plates (3) is greater than the length of the first supporting plate (2); two groups of cutting mechanisms (4) are arranged above the two fixing frames (1), each cutting mechanism (4) comprises a synchronous guide rail (5), a lifting device (6) arranged at the bottom of the sliding table of the synchronous guide rail (5) and a laser cutting mechanism (7) arranged at the tail end of an execution shaft of the lifting device (6), concave grooves (8) fixed with the two sides of the synchronous guide rail (5) are arranged at the two ends of the synchronous guide rail (5), supporting shafts (9) are respectively arranged on the two supporting plates (3), two arc-shaped guide rails (10) are symmetrically arranged on the supporting plate I (2), the openings of the two arc-shaped guide rails (10) are arranged towards one sides far away from each other, a fixing shaft (11) is arranged on the sliding table of the arc-shaped guide rails (10), the supporting shafts (9) and the fixing shafts (11) are rotationally connected with the bottom plates of the concave grooves (8) at one end of the synchronous guide rail (5) at the corresponding side, a controller (12) is further arranged on the outer side of the fixed frame (1) between the two support plates II (3), and the controller (12) is operated to control the synchronous guide rail (5), the lifting device (6), the laser cutting mechanism (7) and the arc-shaped guide rail (10) to move.

2. The cutting device for the tower plate as claimed in claim 1, wherein two fixing plates (13) are symmetrically arranged on the fixing frame (1) between the two synchronous guide rails (5), a plurality of telescopic devices (14) extending from the execution shafts to the lower part of the fixing plates (13) are arranged on the fixing plates (13), a pressing plate (15) is arranged at the tail ends of the execution shafts of the telescopic devices (14), and the telescopic devices (14) are controlled to act through the controller (12).

3. The cutting device for the tower plate material as claimed in claim 2, wherein the two fixing plates (13) are arranged obliquely, and the distance between the sides of the two fixing plates (13) close to the first support plate (2) is smaller than the distance between the sides of the two fixing plates (13) close to the second support plate (3).

4. The cutting device for the tower plate as claimed in claim 1, wherein positive scale lines are arranged on the top of the two fixing frames (1) towards two sides by taking the center line of the first support plate (2) as a zero scale.

5. The cutting device for tower plates as claimed in claim 1, wherein a scraper (16) is further arranged between the two fixed frames (1) at the rear side of the rear synchronous guide rail (5) along the plate advancing direction, and the bottom of the scraper (16) extends to the position above the plate.

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