CN112894368B - Arched corrugated steel plate trimming, splicing and hole forming system - Google Patents

Abstract

The invention discloses an arched corrugated steel plate trimming, splicing and pore-forming assembly and system, wherein the arched corrugated steel plate trimming, splicing and pore-forming assembly comprises a box-type frame, a plurality of supports and a plurality of first hydraulic rods. Wherein the box frame is formed by a plurality of section steel or beam bodies. The supports are arranged on the lower main beam of the box-type frame side by side, and the supports are provided with fulcrums with adjustable heights and angles. The first hydraulic rods and the supports are arranged on the upper main beam of the box-type frame in one-to-one correspondence. The trimming, splicing and pore-forming system for the arched corrugated steel plate comprises a plurality of processing devices, wherein each processing device is provided with a cutting mechanism, a welding mechanism and an axial flange punching mechanism. According to the system of the technical scheme, the corrugated steel plate unit plates can be continuously and efficiently spliced into the corrugated steel plate wallboard, the assembly positions of the axial flange holes of the corrugated steel plate wallboard are guaranteed to be accurately corresponding, and the splicing precision between the corrugated steel plate unit plates is high.

Description

Arched corrugated steel plate trimming, splicing and hole forming system

Technical Field

The invention relates to the field of assembled corrugated steel underground comprehensive pipe racks, in particular to an arched corrugated steel plate trimming, splicing and pore-forming system.

Background

The company invents a pipe fitting structure of a steel structure square arch underground utility tunnel and a highway passage, wherein the pipe fitting structure is composed of four corrugated steel plate wallboards with upper, lower, left and right arches, and each corrugated steel plate is formed by connecting a plurality of small corrugated steel plate unit plates and surrounding flanges or bolts. In the rolling process of the small corrugated steel plate unit plates, the wave height and the wave distance have errors and accumulated errors, so that the camber is difficult to be completely consistent, the accuracy is difficult to control during trimming, the assembly and the shape correction are difficult during tailor welding, and the positioning is difficult during bolt hole machining.

Disclosure of Invention

The invention aims to: the invention aims to provide an arched corrugated steel plate trimming, splicing and pore-forming system which can keep the camber of the corrugated steel plate consistent in the process of welding, reduce the welding difficulty and improve the welding precision.

Another object of the present invention is to provide a trimming, splicing and hole forming system for arched corrugated steel sheet, which can continuously produce arched corrugated steel sheet wallboard.

The technical scheme is as follows: the invention relates to an arched corrugated steel plate trimming, splicing and pore-forming system, which comprises: the box-type frame is formed by a plurality of section steel or beam bodies; the supports are arranged on the lower main beam of the box frame or the transverse secondary beam between the two lower main beams side by side, and are provided with fulcrums with adjustable heights and angles; the first hydraulic rods and the supports are arranged on the upper main beam of the box frame or the transverse secondary beam between the two upper main beams in one-to-one correspondence.

Further, the upper main beam and the lower main beam are corrugated web plate beams.

The trimming, splicing and pore-forming system for the arched corrugated steel plates comprises a plurality of trimming, splicing and pore-forming systems for the arched corrugated steel plates, wherein a cutting mechanism is arranged on a first processing device, a welding mechanism is arranged on a second processing device, an axial flange punching mechanism is arranged on a third processing device, and the first processing device, the second processing device and the third processing device are sequentially connected through a horizontal delivery mechanism.

Further, the cutting mechanism includes: the cutting guide rail is arranged on at least one side along the direction of the lower main beam of the first processing device, the cutting guide rail is arched, and the arch line of the cutting guide rail is consistent with the design arch line of the corrugated steel plate to be processed; and the cutting equipment can slide along the cutting guide rail to cut the corrugated steel plate to be processed.

Further, the second processing device is further provided with a docking mechanism, the docking mechanism comprises at least two sets of upper standard waveform dies and lower standard waveform dies, the upper standard waveform dies are arranged on the upper portion of the second processing device and comprise a plurality of hydraulic rods, the upper standard waveform dies can be pressed on the upper portion of the corrugated steel plate at intervals, the lower standard waveform dies are correspondingly arranged on the lower portion of the second processing device and comprise a plurality of supporting structures, the lower standard waveform dies are propped on the bottom of the corrugated steel plate at intervals, and the upper standard waveform dies can stretch and reciprocate.

Further, the welding mechanism can reciprocate along the splicing seam between the two corrugated steel plates to be processed.

Further, the axial flange punching mechanism comprises: the arc-shaped device is arranged on the upper main beam of the third processing device, can reciprocate in the vertical direction relative to the third processing device, and has the radian consistent with the radian of the designed camber of the corrugated steel plate to be processed; the hydraulic punching machines are arranged on the arc-shaped device at intervals, and the machining plane of the hydraulic punching machines is perpendicular to the axis direction of the corrugated steel plate.

Further, the third processing device is further provided with a shaping mechanism, the shaping mechanism is located at the end part of the corrugated steel plate, close to the arch angle, the shaping mechanism comprises a supporting seat, a plurality of corrugated die holders and a plurality of second hydraulic rods, the supporting seat is arranged on the lower beam of the third processing device, the corrugated die holders are arranged on the supporting seat at equal intervals, the second hydraulic rods are arranged on the upper beam of the third processing device at equal intervals, and the second hydraulic rods correspond to the corrugated die holders.

Further, side guide rails are arranged outside the arch angle ends, close to the corrugated steel plates, of the two sides of the third processing device, and a punching machine or a flange welding machine for processing a connecting structure of the arch angle ends of the corrugated steel plates is arranged on the side guide rails.

Furthermore, the axial flange punching mechanism, the shaping mechanism and the punching machine or the flange welding machine do not interfere with each other, and can work simultaneously.

The beneficial effects are that: compared with the prior art, the invention has the following advantages:

1. a processing device may be provided on the frame.

2. The device has strong universality and can be suitable for processing corrugated steel plate wallboards with various arches and various lengths.

3. High efficiency and can realize continuous production of production lines.

4. The assembly positions of the axial flange holes and the bolt holes on the corrugated end face accurately correspond, and the bolt holes in four directions are positioned at one time, so that machining is completed.

5. The parts are delivered in a translation mode, overturning is not needed, and working procedures are saved.

6. The splicing welding seam between the unit plates can realize single-sided welding and double-sided forming.

Drawings

FIG. 1 is a schematic diagram of the front structure of a processing apparatus according to the present invention;

FIG. 2 is a schematic diagram of a processing system of the present invention;

FIG. 3 is a schematic front view of a first processing device according to the present invention;

FIG. 4 is a schematic structural view of a docking mechanism of a second processing apparatus according to the present invention;

FIG. 5 is a schematic front view of a third processing apparatus according to the present invention;

FIG. 6 is a schematic side view of an axial flange punching mechanism of a third machining apparatus of the present invention;

fig. 7 is a schematic side view of a shaping mechanism of a third processing device according to the present invention.

Description of the embodiments

The technical scheme of the invention is further described below with reference to the accompanying drawings.

Referring to fig. 1, the trimming, splicing and hole-forming system for arched deck plates according to an embodiment of the present invention includes a box frame, a plurality of holders 120 and a plurality of first hydraulic rods 130. Wherein the box frame is a frame structure formed by splicing a plurality of section steel or beam bodies. A plurality of brackets 120 are disposed side by side on the lower girder 110 of the box frame, and each bracket 120 has a fulcrum with adjustable angle and height. A plurality of first hydraulic rods 130 are provided on the upper girder 100 of the box frame corresponding to the plurality of brackets 120.

According to the arched corrugated steel plate trimming, splicing and hole forming system of the technical scheme, through adjusting the height and angle of the supporting points of the supporting seat 120, the connecting line between the supporting points of the supporting seat 120 is consistent with the arch line of the outer arch of the required corrugated steel plate wallboard, then the corrugated steel plate unit sheet is sent between the upper main girder 100 and the lower main girder 110 of the box frame, the corrugated direction of the corrugated steel plate unit sheet is consistent with the direction of the upper main girder 100 or the lower main girder 110 and is supported by the supporting seat 120, and the first hydraulic rod 130 is started again, so that the corrugated steel plate unit sheet can be pressed into the required arch degree. The device has strong universality, and can be provided with automatic welding equipment or automatic cutting equipment 210 on a box-type frame to realize the operations of cutting, splicing and the like of the corrugated steel plate unit plates, so that the processing of the corrugated steel plate wallboard applicable to various arches and lengths is formed. A plurality of processing devices provided with different equipment can form a systematic production line, so that the production line production of the corrugated steel plate wallboard is realized. It is understood that the support 120 may be a piston rod or a rack, which is matched with a gear and a universal joint to realize a fulcrum capable of adjusting the height and the angle, and is matched with a fastening bolt or a supporting rod to realize the fixation of the adjustment result. The first hydraulic lever 130 may be vertically disposed on the upper main beam 100, or may be disposed on the upper main beam 100 at an angle.

In some embodiments, referring to fig. 1, the box frame may have a rectangular structure, and a pair of upper girders 100 and a pair of lower girders 110 are respectively disposed at the upper and lower sides, and the upper girders 100 and the lower girders 110 are respectively connected by two cross beams 140, and the upper girders 100 are connected with the corresponding lower girders 110 by upright posts. In order to enhance the structural strength of the box frame, in some embodiments, a plurality of secondary beams are disposed between the upper main beams 100 and between the lower main beams 110, and an automatic cutting device 210 or an automatic welding device may be disposed on the secondary beams.

In some embodiments, to further strengthen the structural strength of the box frame, both the upper and lower girders 100, 110 of the box frame employ corrugated web girders.

Referring to fig. 2, the trimming, splicing and forming system for arched corrugated steel plates according to the embodiment of the present invention includes a plurality of the trimming, splicing and forming systems for arched corrugated steel plates, wherein a cutting mechanism is disposed on the first processing device 200, a welding mechanism is disposed on the second processing device 300, an axial flange punching mechanism is disposed on the third processing device 400, and the first processing device 200, the second processing device 300 and the third processing device 400 are sequentially connected. The first processing device 200 and the second processing device are connected to the second processing device 300 and the third processing device 400 by a horizontal delivery mechanism 500.

According to the arched corrugated steel plate trimming, splicing and pore-forming system of the technical scheme, the corrugated steel plate unit plates to be processed are sent into the first processing device 200 through the horizontal delivery mechanism 500 or manpower, the corrugated steel plate unit plates to be processed are processed into required arches and unnecessary leftover materials are cut off by the first processing device 200, the corrugated steel plate unit plates are sent to the second processing device 300 through the horizontal delivery mechanism 500 to be spliced, and finally the corrugated steel plate wallboard with the required outer arch line can be manufactured by sending the corrugated steel plate unit plates to the third processing device 400 to be punched with an axial flange. Because each processing device is provided with the support 120 and the first hydraulic rod 130, continuous pressure can be applied to the corrugated steel plate unit plate sheet in the processing process, and the arch line of the outer arch of the corrugated steel plate unit plate sheet is ensured. According to the system of the technical scheme, the machining efficiency is high, the assembly positions of the axial flange and the corrugated end face bolt holes are accurately corresponding while the universality is high, and the bolt holes in four directions can be positioned at one time to finish machining. Meanwhile, the unit welding double-sided forming can be realized by the spliced welding seams among the unit plates, the unit plates are horizontally transferred and delivered through the horizontal delivery mechanism 500, overturning is not needed, and the processing procedure is saved. It is understood that the horizontal delivery mechanism 500 may be a conveyor belt, a conveyor roller, or a conveyor plate chain. It will be appreciated that more processing devices with different equipment and horizontal delivery mechanism 500 may be added between processing systems to achieve more processing functions.

Referring to fig. 3, in some embodiments, a cutting mechanism is disposed on at least one side of the first processing device 200, including a cutting rail 220 and a cutting apparatus 210 slidably disposed on the cutting rail 220. The cutting rail 220 is arched and the arching line of the cutting rail 220 coincides with the design arching line of the deck plate to be processed, and the cutting device 210 can move along the cutting rail 220 to cut the scrap edges or the scraps of the axial ends of the deck plate. It will be appreciated that the cutting device 210 may be automatically moved along the cutting rail 220 by a motor drive.

Referring to fig. 4, in some embodiments, a docking mechanism is also provided on the second processing device 300. The docking mechanism includes at least two sets of upper standard waveform die 320 and lower standard waveform die 310. The upper and lower standard wave forms 320 and 310 are upper and lower molds that are matched with standard waves of the corrugated steel plate cell sheet to be processed. The upper standard wave form mold 320 is disposed at an upper portion of the second processing device 300, the lower standard wave form mold 310 includes a plurality of support structures matching with the wave form of the corrugated steel plate, and is disposed at a lower portion of the second processing device 300, and the upper standard wave form mold 320 can reciprocate. When in use, two corrugated steel plate unit plates to be butted are respectively placed on the support 120 of the second processing device 300, and two groups of upper standard waveform dies 320 are respectively used for descending to clamp the last corrugation at one end of each corrugated steel plate unit plate, so that the butt joint of welding seams of the two corrugated steel plate unit plates is realized. It can be understood that the distance between the two sets of upper standard waveform die 320 and the lower standard waveform die should be exactly equal to the distance between the adjacent waveforms on two sides of the welding seam after the two corrugated steel plate unit plates are connected, and the upper standard waveform die 320 can implement telescopic reciprocating motion by a hydraulic rod, a cylinder or a servo motor in cooperation with a screw pair.

In some embodiments, the welding mechanism may include a track and a welding device transversely erected on the welding seam of the two corrugated steel plates, and the welding device is driven by a motor to move along the track to weld the welding seam. The welding equipment can also move along the splicing seam of two corrugated steel plate unit plates by taking the wave crest or the wave trough of the corrugated steel plate unit plates as a track. The welding mechanism may be an automatic welding robot mounted on the second processing device 300.

Referring to fig. 5 and 6, in some embodiments, the axial flange punching mechanism includes an arcuate device 410 and a plurality of hydraulic punches 420. The arc device 410 is disposed on the upper main beam 100 of the third processing device 400, the arc device 410 can reciprocate in a vertical direction relative to the third processing device 400, the radian of the arc device 410 is consistent with the outer arch radian of the corrugated steel plate unit plate to be processed, the plurality of hydraulic punching machines 420 are disposed on the arc device 410 at intervals, and the processing plane of the hydraulic punching machines 420 is vertical to the axle center of the corrugated steel plate. In use, after the corrugated steel plate unit sheet to be processed is pressed onto the support 120 by the first hydraulic rod 130, the arc device 410 is lowered, so that the punch of the hydraulic punching machine 420 is aligned to the position where the axial flange of the corrugated steel plate unit sheet needs to be punched, and the bolt hole is punched on the axial flange.

Referring to fig. 7, in some embodiments, a shaping mechanism is further provided on the third processing device 400, where the shaping mechanism is disposed at an end portion of the corrugated steel plate adjacent to the arch angle. The shaping mechanism includes a support 450, a plurality of bellows mold bases 440, and a second hydraulic rod 430. The supporting seat 450 is disposed on the cross beam 140 at the lower part of the third processing device 400, and the plurality of corrugated die holders 440 are disposed on the supporting seat 450 at equal intervals, and the shape of the supporting seat 450 is matched with the standard wave crest and wave trough shape of the corrugated steel plate unit sheet. The plurality of second hydraulic rods 430 are disposed on the cross beam 140 at the upper portion of the third processing device 400 at equal intervals, and the positions of the second hydraulic rods 430 and the bellows die holder 440 in the vertical direction are in one-to-one correspondence with each other. In use, after the first hydraulic stem 130 of the third processing device 400 is pressed down, the second hydraulic stem 430 presses down to shape the corrugations of the corrugated steel plate unit sheet when the axial flange of the corrugated steel plate unit sheet is perforated by the axial flange perforation mechanism, so that the corrugations of the corrugated steel plate unit sheet meet the corrugated shape of the design standard. It will be appreciated that the piston rod end of the second hydraulic rod 430 may be provided with a ram that matches the standard corrugations of the corrugated steel sheet cell plate.

In some embodiments, the third machining device 400 may machine bolt holes of lateral end surfaces of the deck plate unit panels or weld flat flanges at the same time manually or by an automated apparatus when machining the deck plate unit panels. The side rails are arranged outside the arch angle ends of the corrugated steel plate on two sides of the third processing device 400, and a punching machine or a flange welding machine for processing a connecting structure of the arch angle ends of the corrugated steel plate is arranged on the side rails and is used for processing bolt holes or flanges of the arch angle ends of the corrugated steel plate. The axial flange mechanism, the shaping mechanism and the punching machine or the flange welding machine can not generate motion interference, and can work simultaneously to process the corrugated steel plate.

Claims (8)

1. The arched corrugated steel plate trimming, splicing and pore-forming system is characterized by comprising a first processing device (200) for processing a corrugated steel plate unit sheet to be processed into a required camber and cutting unnecessary leftover materials, a second processing device (300) for splicing the corrugated steel plate unit sheet, and a third processing device (400) for punching an axial flange, wherein a cutting mechanism is arranged on the first processing device (200), a welding mechanism is arranged on the second processing device (300), an axial flange punching mechanism is arranged on the third processing device (400), and the first processing device (200), the second processing device (300) and the third processing device (400) are sequentially connected through a horizontal delivery mechanism; the first machining device (200), the second machining device (300), and the third machining device (400) each include:

the box-type frame is formed by a plurality of section steel or beam bodies; the supports (120) are arranged on the lower main beams (110) of the box frame or the transverse secondary beams between the two lower main beams (110) side by side, and the supports (120) are provided with fulcrums with adjustable heights and angles; the first hydraulic rods (130) are arranged on the upper main beams (100) of the box frame or the transverse secondary beams between the two upper main beams (100) in a one-to-one correspondence manner with the supports (120);

the second processing device (300) is further provided with a butt joint mechanism, the butt joint mechanism comprises at least two sets of upper standard waveform dies (320) and lower standard waveform dies (310), the upper standard waveform dies (320) are arranged on the upper portion of the second processing device (300), the upper standard waveform dies (320) comprise a plurality of hydraulic rods, the upper standard waveform dies (320) can be pressed on the upper portion of the corrugated steel plate at intervals, the lower standard waveform dies (310) are correspondingly arranged on the lower portion of the second processing device (300), the lower standard waveform dies (310) comprise a plurality of supporting structures, the lower standard waveform dies are propped against the bottom of the corrugated steel plate at intervals, and the upper standard waveform dies (320) can stretch and reciprocate.

2. The arched deck trimming, splicing, and hole forming system of claim 1, wherein said upper (100) and lower (110) girders are corrugated web girders.

3. The arched deck trimming, splicing, and hole forming system of claim 1, wherein the cutting mechanism comprises: a cutting guide rail (220) arranged on at least one side along the direction of the lower main beam (110) of the first processing device (200), wherein the cutting guide rail (220) is arched, and the arch line of the cutting guide rail (220) is consistent with the design arch line of the corrugated steel plate to be processed; -a cutting device (210) for slidably cutting the corrugated steel sheet to be processed along said cutting guide (220).

4. The arched deck trimming, splicing, and hole forming system of claim 1, wherein the welding mechanism is reciprocally movable along a splice seam between two deck panels being processed.

5. The arched deck trimming, splicing, and hole forming system of claim 1, wherein the axial flange punching mechanism comprises: the arc-shaped device (410) is arranged on the upper main beam (100) of the third processing device (400), the arc-shaped device (410) can reciprocate in the vertical direction relative to the third processing device (400), and the radian of the arc-shaped device (410) is consistent with the radian of the designed outer arch of the corrugated steel plate to be processed; the hydraulic punching machines (420) are arranged on the arc-shaped device (410) at intervals, and the machining plane of the hydraulic punching machines (420) is perpendicular to the axis direction of the corrugated steel plate.

6. The trimming, splicing and pore-forming system for arched corrugated steel plates according to claim 1, wherein a shaping mechanism is further arranged on the third processing device (400), the shaping mechanism is located at an end part of the corrugated steel plate, which is close to an arch angle, the shaping mechanism comprises a supporting seat (450), a plurality of corrugated die holders (440) and a plurality of second hydraulic rods (430), the supporting seat (450) is arranged on a lower cross beam of the third processing device (400), the plurality of corrugated die holders (440) are arranged on the supporting seat (450) at equal intervals, the plurality of second hydraulic rods (430) are arranged on an upper cross beam of the third processing device (400) at equal intervals, and the second hydraulic rods (430) and the corrugated die holders (440) correspond to each other.

7. The trimming, splicing and hole forming system for arched corrugated steel plates according to claim 6, wherein side guide rails are arranged outside the arched angle ends of the third processing device (400) near the corrugated steel plates, and a punching machine or a flange welding machine for processing the connecting structure of the arched angle ends of the corrugated steel plates is arranged on the side guide rails.

8. The trimming, splicing and hole forming system for arched corrugated steel plates according to claim 7, wherein said axial flange punching mechanism, said shaping mechanism and said punching machine or flange welding machine do not interfere with each other and can operate simultaneously.