CN115740895A - Steel construction welding I-steel manufacture equipment - Google Patents

Abstract

The invention relates to a steel structure welding I-steel manufacturing device, which relates to the field of I-steel manufacturing technology and comprises a welding frame, a conveying device, a jacking device, an automatic welding device and rotating devices positioned at two ends of the welding frame, wherein the conveying device is used for conveying a horizontal section, the jacking device is used for jacking the horizontal section, the automatic welding device is used for welding between the horizontal section and a vertical section, the rotating devices comprise supporting frames, lifting mechanisms and rotating mechanisms positioned on the lifting mechanisms, the supporting frames are respectively arranged at two sides of the welding frame, the lifting mechanisms are used for driving the rotating mechanisms to lift, and the rotating mechanisms are used for driving the horizontal section and the vertical section to rotate. According to the invention, the rotating mechanism is arranged on the welding frame, and the rotation of the I-shaped steel formed by welding can be realized under the action of the lifting mechanism, so that the I-shaped steel can be turned over conveniently, the automatic welding equipment can weld the vertical section and the horizontal section continuously, and the welding efficiency is high.

Description

Steel construction welding I-steel manufacture equipment

Technical Field

The invention relates to the field of I-shaped steel manufacturing technology, in particular to steel structure welding I-shaped steel manufacturing equipment.

Background

With the development of the construction industry of China, various steel structures are increasingly required to be used in the market. In the process of processing the I-shaped steel with larger size, a welding machine is generally required to complete the welding forming of the I-shaped steel.

At present, three steel plates are required to be placed on a workbench before welding of a steel structure, so that horizontal sections are placed in balance, and vertical sections on two sides are respectively placed on two sides of the horizontal sections vertically to perform welding treatment. In order to improve the welding quality between the vertical section and the horizontal section, the steel plate needs to be turned over, and the welding position on the other side needs to be welded.

In view of the above related technologies, the inventor thinks that the i-steel is in the welding process, in the prior art, usually a hoisting device is used, and the steel plate is turned over by hoisting a chain, however, after the steel plate is turned over by the chain and placed on a workbench, the steel plate needs to be continuously positioned, so that the welding efficiency is low.

Disclosure of Invention

In order to turn over a steel plate and improve welding efficiency, the invention provides steel structure welding I-shaped steel manufacturing equipment.

The invention provides a manufacturing device of a steel structure welding I-shaped steel, which adopts the following technical scheme:

the utility model provides a steel construction welding I-steel manufacture equipment, includes welding frame, conveyor, jacking device, automatic weld equipment and is located the rotary device at welding frame both ends, conveyor is used for carrying the horizontal segment, jacking device is used for carrying out the jacking operation to the horizontal segment, automatic weld equipment is used for carrying out the welding operation between horizontal segment and the vertical section, rotary device includes support frame, elevating system and is located elevating system last rotary mechanism, the support frame sets up the both sides at the welding frame respectively, elevating system is used for driving rotary mechanism and goes up and down, rotary mechanism is used for driving horizontal segment and vertical section and rotates.

Through adopting above-mentioned technical scheme, during the use, adjust conveyor, carry the fixed plate on the weld holder, adjust jacking device, make the fixed plate move appointed high department. And adjusting the lifting equipment, and moving the two vertical sections to the two sides of the horizontal section and fixing. And adjusting automatic welding equipment, and welding the joint between the fixed plate and the vertical section by the automatic welding equipment to weld the fixed plate and the vertical section into the I-steel. When the I-steel needs to be rotated, the two lifting mechanisms are adjusted at the same time, and the lifting mechanisms drive the rotating mechanism to move downwards, so that the rotating mechanism fixes the vertical section. And adjusting the lifting mechanism to enable the rotating mechanism to rise to a specified height. And adjusting the rotating mechanism, wherein the rotating mechanism drives the horizontal section and the vertical section to rotate for 180 degrees, the I-steel is placed on the conveying device under the action of the lifting mechanism and the rotating mechanism, and the automatic welding equipment is continuously adjusted to weld the horizontal section and the vertical section. Through set up rotary mechanism on the weld holder, under elevating system's effect, can realize the rotation of weld forming's I-steel, be convenient for realize the upset to the I-steel, the automatic weld equipment of being convenient for continues welding operation to vertical section and horizontal segment, and welding efficiency is high.

Optionally, rotary mechanism includes revolving stage, step motor and spacing subassembly, the revolving stage sets up in step motor's the drive shaft, step motor sets up on elevating system, the revolving stage sets up in step motor's the drive shaft, spacing subassembly sets up on the revolving stage, spacing subassembly is used for carrying out spacing fixed to vertical section and horizontal segment.

Through adopting above-mentioned technical scheme, adjust spacing subassembly, spacing subassembly carries out spacing fixed with vertical section and horizontal segment. Under elevating system's effect, adjust step motor, step motor's drive shaft drives the revolving stage and rotates, and the revolving stage drives the locating part and carries out 180 degrees rotations, realizes the upset of vertical section and horizontal segment. The rotary mechanism who sets up under spacing subassembly's effect, can realize the upset to the I-steel, easy operation, upset is efficient.

Optionally, spacing subassembly includes spacing motor, two-way screw rod, at least one and leads slide bar and two limiting plates, the spacing groove has been seted up on the revolving stage, two-way screw rod all sets up with leading the slide bar the spacing inslot, two-way screw rod runs through the both ends of limiting plate and rotates the setting and be in on the revolving stage, the one end that two-way screw rod stretches out the revolving stage is connected with spacing motor, it runs through to lead the slide bar the limiting plate sets up, it is used for right to lead the slide bar the motion of limiting plate leads, be used for carrying on spacing fixedly to vertical section and horizontal segment between the limiting plate.

Through adopting above-mentioned technical scheme, adjust spacing motor, the drive shaft of spacing motor drives two-way screw rod and rotates, under the effect of leading slide bar and spacing groove, spacing motor can drive two limiting plates and be close to each other, makes the limiting plate press from both sides the vertical section firmly tightly on the horizontal segment, can reduce vertical section and horizontal segment and drop at the in-process of upset. The spacing subassembly that sets up can firmly be fixed vertical section and horizontal segment on the revolving stage, makes vertical section and horizontal segment can overturn along with the revolving stage.

Optionally, one side of the limiting plate, which is close to each other, is provided with a non-slip mat.

Through adopting above-mentioned technical scheme, the slipmat of setting can increase the frictional force between limiting plate and the vertical section, and the vertical section of being convenient for overturns the operation along with the limiting plate.

Optionally, the fixing device is used for fixing the vertical section and comprises two fixing plates and a plurality of fixing cylinders, the fixing plates are arranged along the length direction of the welding frame, the fixing cylinders are evenly arranged on two sides of the welding frame, the fixing plates are arranged on a driving shaft of the fixing cylinders, and one side, close to each other, of the fixing plates is used for fixing the vertical section on the horizontal section.

Through adopting above-mentioned technical scheme, adjust fixed cylinder, fixed cylinder drives the fixed plate and moves, and the fixed plate drives the vertical section respectively at the in-process of moving and is close to the horizontal segment, realizes the butt joint between horizontal segment and the vertical section. The fixing device is simple to operate, enables the horizontal section and the vertical section to be in butt joint fixation, can reduce the sliding of the horizontal section and the vertical section in the welding process, and can improve the welding quality.

Optionally, the conveying device includes a driving assembly and a plurality of conveying rollers, the conveying rollers are rotatably disposed on the welding frame, one end of each conveying roller, which extends out of the welding frame, is connected to the driving assembly, and the driving assembly is configured to drive the conveying rollers to rotate.

Through adopting above-mentioned technical scheme, adjust drive assembly, drive assembly drives whole conveying rollers and rotates, when placing the horizontal segment on the conveying roller, under drive assembly's drive effect, the horizontal segment removes appointed position department. The conveying device is convenient for moving the horizontal section to the designated position, and can improve the conveying efficiency.

Optionally, the driving assembly comprises a conveying motor, a conveying rod, a driving bevel gear and a driven bevel gear, the conveying rod is rotatably arranged on the welding frame, the driving bevel gear is coaxially arranged on the conveying rod, the driven bevel gear is coaxially arranged on the conveying roller, the driving bevel gear and the driven bevel gear are meshed, one end of the conveying rod is connected with the conveying motor, and the conveying motor is used for driving the conveying rod to rotate.

Through adopting above-mentioned technical scheme, adjust conveying motor, conveying motor's drive shaft drive conveying rod rotates, and conveying rod drives the drive bevel gear at the pivoted in-process and rotates, and drive bevel gear drives the driven bevel gear who meshes with it and rotates, and driven bevel gear drives the conveying roller and rotates, realizes the transport to the horizontal segment. The driving assembly can provide power for the rotation of all the conveying rollers, so that the conveying rollers can convey the horizontal section, and the horizontal section is conveyed to a specified position to prepare for welding.

Optionally, the jacking device includes a plurality of jacking cylinders and jacking board, the jacking cylinder sets up on the weld holder, the jacking board sets up on the drive shaft of jacking cylinder, the jacking cylinder is used for driving the jacking board upward movement.

Through adopting above-mentioned technical scheme, adjust the jacking cylinder, the drive shaft of jacking cylinder drives the liftout plate upward movement, and the liftout plate drives the horizontal segment upward movement, makes the horizontal segment move to appointed position department. The jacking device who sets up is convenient for promote the horizontal segment, makes the horizontal segment remove appointed high department, carries out welding operation with the vertical segment.

In summary, the invention includes at least one of the following beneficial technical effects:

1. the rotating mechanism is arranged on the welding frame, so that the rotation of the I-shaped steel formed by welding can be realized under the action of the lifting mechanism, the turnover of the I-shaped steel is convenient to realize, the automatic welding equipment is convenient to continuously perform welding operation on the vertical section and the horizontal section, and the welding efficiency is high;

2. the arranged rotating mechanism can realize the turnover of the I-steel under the action of the limiting assembly, and is simple to operate and high in turnover efficiency;

3. the vertical section and the horizontal section can be firmly fixed on the rotating platform by the arranged limiting component, so that the vertical section and the horizontal section can be overturned along with the rotating platform;

4. the arranged fixing device is simple to operate, the horizontal section and the vertical section are butted and fixed, sliding of the horizontal section and the vertical section in the welding process can be reduced, and the welding quality can be improved;

5. the arranged conveying device is convenient for moving the horizontal section to a specified position, so that the conveying efficiency can be improved;

6. the driving assembly can provide power for the rotation of all the conveying rollers, so that the conveying rollers can convey the horizontal sections, and the horizontal sections are conveyed to a specified position for welding preparation;

7. the jacking device that sets up is convenient for promote the horizontal segment, makes the horizontal segment remove appointed high department, carries out welding operation with the vertical segment.

Drawings

Fig. 1 is a schematic overall structure diagram of a steel structure welding i-steel manufacturing device according to an embodiment of the present invention.

Fig. 2 is an enlarged schematic view of a portion a of fig. 1.

Reference numerals: 1. welding a frame; 2. a conveying device; 21. a drive assembly; 211. a conveying motor; 212. a conveying rod; 213. a drive bevel gear; 214. a driven bevel gear; 22. a conveying roller; 3. a jacking device; 31. a jacking cylinder; 32. a jacking plate; 4. automatic welding equipment; 5. a rotating device; 51. a support frame; 52. a lifting mechanism; 53. a rotation mechanism; 531. a rotating table; 5311. a limiting groove; 532. a stepping motor; 533. a limiting component; 5331. a limiting motor; 5332. a bidirectional screw; 5333. a guide sliding rod; 5334. a limiting plate; 5335. a non-slip mat; 6. a fixing device; 61. a fixing plate; 62. and fixing the cylinder.

Detailed Description

The present invention is described in further detail below with reference to FIGS. 1-2.

The embodiment of the invention discloses a manufacturing device for welding an I-shaped steel by a steel structure. Referring to fig. 1 and 2, the manufacturing equipment for the steel structure welding i-shaped steel comprises a welding frame 1, a conveying device 2, a jacking device 3, automatic welding equipment 4 and rotating devices 5 positioned at two ends of the welding frame 1. Jacking device 3 includes two jacking cylinders 31 and jacking board 32, and the base of jacking cylinder 31 passes through the bolt fastening on weld bracket 1, and jacking board 32 welds in jacking cylinder 31's drive shaft, and through adjusting jacking cylinder 31, jacking cylinder 31's drive shaft can drive jacking board 32 upward movement, makes jacking board 32 drive horizontal segment upward movement. Automatic weld equipment 4 sets up on weld holder 1, and through adjusting automatic weld equipment 4, automatic weld equipment 4 can be to carrying out welding operation between horizontal segment and the vertical segment. Conveyor 2 includes drive assembly 21 and 11 conveying rollers 22, and the both ends of conveying roller 22 are rotated and are set up on weld holder 1, and conveying roller 22 stretches out one end of weld holder 1 and is connected with drive assembly 21, and through adjusting drive assembly 21, drive assembly 21 can drive conveying roller 22 and rotate.

Referring to fig. 1 and 2, a driving assembly 21 is provided including a feed motor 211, a feed rod 212, a drive bevel gear 213, and a driven bevel gear 214, the feed rod 212 being rotatably provided on the welding stand 1. The drive bevel gear 213 is coaxially disposed on the feed bar 212, and the drive bevel gear 213 is keyed to the feed bar 212. The driven bevel gear 214 is coaxially disposed on the feed roller 22, the driven bevel gear 214 is splined to the feed roller 22, and the drive bevel gear 213 is engaged with the driven bevel gear 214. One end of the conveying rod 212 is connected with a driving shaft of the conveying motor 211 through a coupler, and the driving shaft of the conveying motor 211 can drive the conveying rod 212 to rotate by adjusting the conveying motor 211, so that the conveying roller 22 conveys horizontal sections.

Referring to fig. 1 and 2, in order to turn over the horizontal section and the vertical section, the rotating device 5 includes a supporting frame 51, a lifting mechanism 52, and a rotating mechanism 53 located on the lifting mechanism 52, the supporting frame 51 is respectively disposed at two sides of the welding frame 1, and the bottom of the supporting frame 51 is fixed on the welding frame 1 through bolts. The lifting mechanism 52 is provided on the support frame 51, the rotating mechanism 53 is provided on the lifting mechanism 52, and the lifting mechanism 52 can drive the rotating mechanism 53 to lift by adjusting the lifting mechanism 52.

Referring to fig. 1, the rotating mechanism 53 includes a rotating platform 531, a stepping motor 532 and a limiting component 533, the rotating platform 531 is disposed on a driving shaft of the stepping motor 532, a base of the stepping motor 532 is fixed on the lifting mechanism 52 through a bolt, and the driving shaft of the stepping motor 532 can drive the rotating platform 531 to rotate by adjusting the stepping motor 532. The limiting component 533 is arranged on the rotating platform 531, and the limiting component 533 can limit and fix the vertical section and the horizontal section by adjusting the limiting component 533.

Referring to fig. 1 and 2, the limiting assembly 533 includes a limiting motor 5331, a bidirectional screw 5332, a sliding guide bar 5333, and two limiting plates 5334, the rotating platform 531 is provided with a limiting groove 5311, the bidirectional screw 5332 and the sliding guide bar 5333 are both disposed in the limiting groove 5311, the bidirectional screw 5332 penetrates through two ends of the limiting plate 5334 and is rotatably disposed on the rotating platform 531, and one end of the bidirectional screw 5332 extending out of the rotating platform 531 is connected to a driving shaft of the limiting motor 5331 through a coupling. The sliding guide rods 5333 penetrate through the two ends of the limiting plates 5334 and are arranged on the bottom wall of the limiting groove 5311, and the sliding guide rods 5333 can guide the movement of the limiting plates 5334 to enable the limiting plates 5334 to approach or separate from each other. The vertical section and the horizontal section can be limited and fixed between the limiting plates 5334, and the anti-skid pad 5335 is bonded on the side, close to each other, of the limiting plates 5334.

Referring to fig. 1, the fixing device 6 capable of fixing the vertical section is further included, the fixing device 6 includes two fixing plates 61 and three fixing cylinders 62, the fixing plates 61 are arranged along the length direction of the welding frame 1, and the fixing plates 61 are distributed on two sides of the welding frame 1. The base of the fixed cylinder 62 is fixed to both sides of the welding frame 1 by bolts, and the fixed plate 61 is welded to the driving shaft of the fixed cylinder 62. Through adjusting fixed cylinder 62, fixed cylinder 62 can make fixed plate 61 drive the vertical section and be close to the horizontal segment, is convenient for carry out weld forming to horizontal segment and vertical section.

The implementation principle of the manufacturing equipment for welding the I-shaped steel with the steel structure provided by the embodiment of the invention is as follows:

during the use, place the horizontal segment at the feed inlet of conveying roller 22, adjust conveying motor 211, conveying motor 211's drive shaft drive conveying rod 212 rotates, and conveying rod 212 drives drive bevel gear 213 at the pivoted in-process and rotates, and drive bevel gear 213 drives all driven bevel gears 214 with it meshing and rotates, and driven bevel gear 214 drives all conveying rollers 22 and rotates, realizes the transport to the horizontal segment, makes the horizontal segment motion guide assigned position department.

And adjusting the jacking cylinder 31, wherein a driving shaft of the jacking cylinder 31 drives the jacking plate 32 to move upwards, and the jacking plate 32 drives the horizontal section to move upwards, so that the fixing plate 61 moves to a specified height. And adjusting the lifting equipment to move the two vertical sections to the two sides of the horizontal section. Adjusting fixed cylinder 62, fixed cylinder 62 drives fixed plate 61 and moves, and fixed plate 61 drives the vertical section at the in-process of motion respectively and is close to the horizontal segment, realizes the butt joint between horizontal segment and the vertical section. And adjusting the automatic welding equipment 4, and welding the joint between the fixing plate 61 and the vertical section by the automatic welding equipment 4 to weld the fixing plate 61 and the vertical section into the I-shaped steel.

When the i-steel needs to be rotated, the two lifting mechanisms 52 are adjusted at the same time, and the lifting mechanisms 52 drive the stepping motor 532 to move downwards. The limiting motor 5331 is adjusted, a driving shaft of the limiting motor 5331 drives the bidirectional screw 5332 to rotate, and under the action of the sliding guide rod 5333 and the limiting groove 5311, the limiting motor 5331 can drive the two limiting plates 5334 to approach each other, so that the vertical section is firmly clamped on the horizontal section by the limiting plates 5334, and the falling of the vertical section and the horizontal section in the overturning process can be reduced. The elevating mechanism 52 is adjusted, and the rotating table 531 is elevated by the elevating mechanism 52. Adjusting the stepping motor 532, the driving shaft of the stepping motor 532 drives the rotating platform 531 to rotate, and the rotating platform 531 drives the limiting part to rotate by 180 degrees, so as to realize the turnover of the vertical section and the horizontal section. And continuously adjusting the lifting mechanism 52, placing the I-steel on the conveying roller 22 under the action of the lifting mechanism 52, and continuously adjusting the automatic welding equipment 4 to enable the automatic welding equipment 4 to perform welding operation on the horizontal section and the vertical section.

The above are all preferred embodiments of the present invention, and the protection scope of the present invention is not limited thereby, so: equivalent changes made according to the structure, shape and principle of the invention shall be covered by the protection scope of the invention.

Claims (8)

1. The utility model provides a steel construction welding I-steel manufacture equipment which characterized in that: including welding frame (1), conveyor (2), jacking device (3), automatic weld equipment (4) and be located rotary device (5) at welding frame (1) both ends, conveyor (2) are used for carrying the horizontal segment, jacking device (3) are used for carrying out jacking operation to the horizontal segment, automatic weld equipment (4) are used for carrying out welding operation between horizontal segment and the vertical section, rotary device (5) include support frame (51), elevating system (52) and are located rotary mechanism (53) on elevating system (52), support frame (51) set up the both sides in welding frame (1) respectively, elevating system (52) are used for driving rotary mechanism (53) to go up and down, rotary mechanism (53) are used for driving horizontal segment and vertical section to rotate.

2. The manufacturing equipment of the steel structure welding I-shaped steel according to claim 1, characterized in that: rotary mechanism (53) include revolving stage (531), step motor (532) and spacing subassembly (533), revolving stage (531) set up on the drive shaft of step motor (532), step motor (532) set up on elevating system (52), revolving stage (531) set up on the drive shaft of step motor (532), spacing subassembly (533) set up on revolving stage (531), spacing subassembly (533) are used for carrying out spacing fixed to vertical section and horizontal segment.

3. The steel structure welding I-steel manufacturing equipment of claim 2, characterized in that: the limiting component (533) comprises a limiting motor (5331), a bidirectional screw (5332), at least one guide sliding rod (5333) and two limiting plates (5334), a limiting groove (5311) is formed in the rotating platform (531), the bidirectional screw (5332) and the guide sliding rod (5333) are arranged in the limiting groove (5311), the bidirectional screw (5332) penetrates through two ends of the limiting plate (5334) to be rotatably arranged on the rotating platform (531), one end, extending out of the rotating platform (531), of the bidirectional screw (5332) is connected with the limiting motor (5331), the guide sliding rod (5333) penetrates through the limiting plate (5334), the guide sliding rod (5333) is used for guiding the movement of the limiting plate (5334), and the limiting plate (5334) is used for limiting and fixing a vertical section and a horizontal section.

4. The steel structure welding I-steel manufacturing equipment of claim 3, characterized in that: and an anti-skid pad (5335) is arranged on one side, close to each other, of the limiting plate (5334).

5. The manufacturing equipment of the steel structure welding I-shaped steel according to claim 1, characterized in that: still including being used for carrying out fixing device (6) fixed to the vertical section, fixing device (6) include two fixed plates (61) and a plurality of fixed cylinder (62), the length direction setting of weld holder (1) is followed in fixed plate (61), fixed cylinder (62) evenly set up the both sides in weld holder (1), fixed plate (61) set up in the drive shaft of fixed cylinder (62), one side that fixed plate (61) are close to each other is used for making the vertical section fix on the horizontal section.

6. The manufacturing equipment of the steel structure welding I-shaped steel according to claim 1, characterized in that: conveyor (2) include drive assembly (21) and a plurality of conveying roller (22), conveying roller (22) rotate to be set up on weld holder (1), conveying roller (22) stretch out weld holder (1) one end with drive assembly (21) are connected, drive assembly (21) are used for the drive conveying roller (22) rotate.

7. The manufacturing equipment of the steel structure welding I-shaped steel according to claim 6, characterized in that: the driving assembly (21) comprises a conveying motor (211), a conveying rod (212), a driving bevel gear (213) and a driven bevel gear (214), the conveying rod (212) is rotatably arranged on the welding frame (1), the driving bevel gear (213) is coaxially arranged on the conveying rod (212), the driven bevel gear (214) is coaxially arranged on the conveying roller (22), the driving bevel gear (213) and the driven bevel gear (214) are arranged in a meshed mode, one end of the conveying rod (212) is connected with the conveying motor (211), and the conveying motor (211) is used for driving the conveying rod (212) to rotate.

8. The manufacturing equipment of the steel structure welding I-shaped steel according to claim 1, characterized in that: jacking device (3) include a plurality of jacking cylinders (31) and jacking board (32), jacking cylinder (31) set up on weld holder (1), jacking board (32) set up in the drive shaft of jacking cylinder (31), jacking cylinder (31) are used for driving jacking board (32) upward movement.

Images