CN117697299A - Steel processing device and method for house construction - Google Patents

Abstract

The invention discloses a steel processing device and method for house construction, and relates to the technical field of steel processing; the invention comprises a fixed base, wherein two position adjusting mechanisms which are distributed up and down are fixedly arranged at the top end of the fixed base, a rotating mechanism is arranged at four crossing parts of the two position adjusting mechanisms in a sliding way, a driving mechanism is fixedly arranged at the top end of the position adjusting mechanism positioned above, a limiting mechanism is fixedly arranged at the top end of the rotating mechanism, an auxiliary mechanism for assisting cutting and welding is fixedly arranged on the limiting mechanism, and a cutting and welding device is fixedly arranged on the auxiliary mechanism.

Description

Steel processing device and method for house construction

Technical Field

The invention relates to the technical field of steel processing, in particular to a steel processing device and method for house construction.

Background

The building steels can be generally classified into steel for steel structure and steel bar for reinforced concrete structure, the steel for steel structure mainly comprises common carbon structural steel and low alloy structural steel, and the varieties comprise section steel, steel pipe and steel bar.

When building construction is carried out by utilizing rectangular steel pipes, four rectangular steel pipes are usually required to be processed into a rectangular frame for use through cutting and welding operations, at present, in the processing process of processing the rectangular steel pipes into the frame, manual cutting and welding are usually adopted, the processing mode is poor in efficiency, and harmful gas generated during manual processing can also be harmful to operators, because corresponding processing devices are required to be designed to realize equipment for automatically cutting and welding the rectangular steel pipes into the rectangular frame, aiming at the problems, the inventor provides a steel processing device and a steel processing method for building construction, which are used for solving the problems.

Disclosure of Invention

In order to solve the problems that in the existing processing process of processing rectangular steel pipes into frames, manual cutting and welding are usually adopted, the efficiency of the processing mode is poor, and harmful gas generated during manual processing can also harm operators, because a corresponding processing device is required to be designed to realize the equipment for automatically cutting and welding rectangular steel pipes into rectangular frames; the invention aims to provide a steel processing device and method for house construction.

In order to solve the technical problems, the invention adopts the following technical scheme: the utility model provides a steel processingequipment that building construction was used, includes unable adjustment base, unable adjustment base top end fixed mounting has two position adjustment mechanism of upper and lower distribution, and two position adjustment mechanism is the cross and distributes, two four intersection of position adjustment mechanism all slide and are equipped with slewing mechanism, is located the top position adjustment mechanism top fixed mounting has actuating mechanism, slewing mechanism top fixed mounting has stop gear, and stop gear slides and set up on actuating mechanism, fixed mounting has auxiliary cutting and welded auxiliary mechanism on the stop gear, fixed mounting has cutting welding set on the auxiliary mechanism.

Preferably, the position adjusting mechanism comprises a first fixed frame, two sliding rods are fixedly arranged in the first fixed frame, a bidirectional screw rod is rotatably arranged on the first fixed frame, a first motor is fixedly arranged outside the first fixed frame, the output end of the first motor is fixedly connected with one end of the bidirectional screw rod, two first moving blocks are arranged on the bidirectional screw rod in a threaded manner, the two first moving blocks are slidably arranged on the two sliding rods, push rods are fixedly arranged on two sides, close to the first fixed frame, of the two side walls, of the first fixed frame, far away from the bidirectional screw rod, both sides of the two side walls of the bidirectional screw rod are fixedly provided with rollers, the first sliding rails are respectively arranged on the two rollers on the two push rods in a sliding manner, the two upper and lower distributed side walls of the first fixed frame are fixedly connected, and the first fixed frame located below is fixedly arranged on a fixed base.

Preferably, the rotating mechanism comprises two fixing piles which are distributed up and down, the two fixing piles which are distributed up and down are respectively arranged on push rods of the two position adjusting mechanisms which are distributed up and down in a sliding mode, a cylinder is fixedly arranged at the center of the top end of the fixing pile and positioned below, a cylinder is fixedly arranged at the center of the bottom end of the fixing pile and positioned above, and the cylinder is rotatably arranged on the outer ring of the cylinder.

Preferably, the driving mechanism comprises a second fixed frame, the second fixed frame is fixedly arranged at the top end of a first fixed frame positioned above, a first fixed support is fixedly arranged at the outer side of the second fixed frame, a first driving shaft is rotatably arranged on the first fixed support, a first gear is fixedly arranged on the first driving shaft, a second motor is fixedly arranged on the first fixed support, a second gear is fixedly arranged at the output end of the second motor, the second gear is meshed with the first gear, first bevel gears are fixedly arranged at the two ends of the first driving shaft, and the two first bevel gears are symmetrically distributed.

Preferably, the second fixed frame is fixedly installed on the outer sides of two side walls adjacent to the first fixed frame, a transmission shaft is rotatably arranged on the second fixed frame, a second bevel gear is fixedly installed at one end of the transmission shaft and meshed with the first bevel gear, a moving box is slidably arranged on the outer ring of the transmission shaft, a connecting seat is fixedly installed at the bottom end of the moving box, and the connecting seat is fixedly connected with one end part of a push rod of the position adjusting mechanism located above.

Preferably, the inside rotation of removal box is equipped with a rotation section of thick bamboo, and rotates a section of thick bamboo slip cap and establish at the transmission shaft outer lane, first spout has been seted up to the transmission shaft outer lane, a rotation section of thick bamboo inner circle fixed mounting has first slider, and first slider slides and set up inside first spout, a rotation section of thick bamboo outer lane fixed mounting has third bevel gear, is located two of second fixed frame same one side it is equipped with the axis of rotation to remove on the box, equal fixed mounting in axis of rotation both ends has fourth bevel gear, and two fourth bevel gears respectively with the third bevel gear meshing of two rotation section of thick bamboo outer lanes.

Preferably, the stop gear is including the support bracket, and support bracket fixed mounting is in the fixed pile top center department that is located the top, fixed mounting has L type box on the support bracket, two sets of inside fixed mounting of L type box has two sets of bearing frames, two sets of all rotate on the bearing frame and be equipped with a screw thread section of thick bamboo, and a screw thread section of thick bamboo slip cap is established at the axis of rotation outer lane, the screw thread of screw thread section of thick bamboo outer lane is bi-directional screw thread, the second spout has been seted up to the axis of rotation outer lane, screw thread section of thick bamboo inner circle fixed mounting has the second slider, and the second slider slides and set up inside the second spout, screw thread section of thick bamboo upper thread is equipped with two second movable blocks, second movable block top fixed mounting has splint, and splint slide and set up on L type box, two the equal fixed mounting of one end outer lane that screw thread section of thick bamboo is close to each other has the fifth bevel gear, and two fifth bevel gears intermeshing.

Preferably, the auxiliary mechanism comprises a second connecting support and a first connecting support which are distributed up and down, the second connecting support and the first connecting support are fixedly arranged on the supporting support, a first hinging seat is fixedly arranged at the top end of the first connecting support, a second hinging seat is fixedly arranged at the bottom end of the second connecting support and is hinged with the first hinging seat, an electric cylinder is fixedly arranged on the first connecting support, a third hinging seat is fixedly arranged at the output end, close to the L-shaped box body, of the electric cylinder, a connecting arm is hinged to the third hinging seat, a fourth hinging seat is hinged to the other end of the connecting arm, and the fourth hinging seat is fixedly connected with the second connecting support.

Preferably, one side of the first connecting support and the second connecting support, which is far away from the L-shaped box body, are fixedly provided with two half-face inner gear rings, the two half-face inner gear rings distributed up and down can form a complete circular ring, a movable box is arranged between the two half-face inner gear rings and positioned above the two half-face inner gear rings, two fixed rods are fixedly arranged on the movable box, two ends of each fixed rod are rotatably provided with rotating wheels, the two rotating wheels are respectively rotatably arranged on outer rings of the two half-face inner gear rings, the movable box is rotatably provided with a second driving shaft, two ends of the second driving shaft are fixedly provided with third gears, the two third gears are respectively meshed with the inner rings of the two half-face inner gear rings, a fourth gear is fixedly arranged in the middle of the second driving shaft, a third motor is fixedly arranged inside the movable box, a fifth gear is fixedly arranged at the output end of the third motor, and the fifth gear is meshed with the fourth gear.

A processing method of a steel processing device for house construction comprises the following steps;

the method comprises the steps that firstly, a first motor is utilized to drive a bidirectional screw rod to rotate, the bidirectional screw rod rotates to drive two first moving blocks on the bidirectional screw rod to move in opposite directions, the first moving blocks move to drive a push rod to move, the push rod of two position adjusting mechanisms moves to adjust the positions of four rotating mechanisms, then four rectangular steel pipes are placed on eight groups of clamping plates of four limiting mechanisms in a rectangular mode, and two groups of two rectangular steel pipes which are distributed in parallel are placed up and down respectively;

step two, driving a first driving shaft to rotate by using a second motor, wherein the first driving shaft rotates to drive two driving shafts to rotate, the driving shafts rotate to drive rotating cylinders to rotate, the rotating cylinders rotate to drive rotating shafts to rotate, the rotating shafts rotate to drive threaded cylinders on the rotating shafts to rotate, and the two threaded cylinders simultaneously rotate by using a fifth bevel gear on the two threaded cylinders to engage with each other, and the threaded cylinders rotate to drive two second moving blocks on the threaded cylinders to move in opposite directions so as to clamp rectangular steel pipes;

step three, driving a third hinging seat to move by using an electric cylinder, driving a connecting arm and a fourth hinging seat connected with the connecting arm to move and deflect along with the movement of the third hinging seat, and enabling the fourth hinging seat to move by using a second hinging seat at the bottom end of a second connecting support to be hinged with a first hinging seat at the top end of a first connecting support so as to drive a half-face inner gear ring connected with the second connecting support to deflect, wherein the half-face inner gear ring connected with the first connecting support forms a complete ring;

step four, a third motor is utilized to drive a second driving shaft to rotate, the second driving shaft rotates to drive a third gear to rotate, a third gear is utilized to be meshed with the inner ring of the half-face inner gear ring, and a rotating wheel rolls along the outer ring of the half-face inner gear ring, so that the movable box can circumferentially rotate along the half-face inner gear ring, and then a cutting welding device is utilized to cut the rectangular steel pipe firstly;

and fifthly, after cutting is completed, clamping the rectangular steel pipes by moving the clamping plates is loosened, then the rotating mechanism is driven by the position adjusting mechanism to move, so that the rectangular steel pipes distributed vertically are positioned on the same horizontal plane, then the position adjusting mechanism is reset, the clamping plates clamp the rectangular steel pipes again, then the rectangular steel pipes are welded by moving the cutting welding device, and the four rectangular steel pipes distributed in a rectangular mode are welded into a rectangular frame.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, the rotating mechanism and the two position adjusting mechanisms distributed up and down are arranged, so that the position adjusting mechanisms can drive the rotating mechanism to move to adjust the position of the rotating mechanism, the driving mechanism can drive the limiting mechanism to work through the driving mechanism, the rectangular steel pipe is clamped, and the auxiliary mechanism can drive the cutting welding device to do circumferential rotation through the auxiliary mechanism and the cutting welding device, so that the rectangular steel pipe is automatically cut and welded;

2. according to the invention, two bidirectional screws distributed up and down are utilized to rotate to respectively drive a plurality of push rods to move, so that the positions of the limiting mechanisms at the top ends of the four rotating mechanisms are adjusted, and the limiting mechanisms can process rectangular frames with various specifications;

3. according to the invention, the first driving shaft is utilized to rotate to drive the two driving shafts to rotate, the driving shafts rotate to drive the rotating cylinders to rotate, the rotating cylinders rotate to drive the rotating shafts to rotate, the rotating shafts rotate to drive the threaded cylinders on the rotating shafts to rotate, the two threaded cylinders are simultaneously rotated by utilizing the mutual meshing of the fifth bevel gears on the two threaded cylinders, and the threaded cylinders rotate to drive the two second moving blocks on the threaded cylinders to move in opposite directions, so that rectangular steel pipes with various specifications are clamped;

4. according to the invention, the electric cylinder is utilized to drive the third hinging seat to move, the third hinging seat moves to drive the connecting arm and the fourth hinging seat connected with the connecting arm to move and deflect along with the connecting arm, so that the fourth hinging seat can drive the half-face inner gear ring connected with the second connecting bracket to deflect, the half-face inner gear ring connected with the first connecting bracket forms a complete circular ring, the second driving shaft rotates to drive the third gear to rotate, the third gear is utilized to be meshed with the inner ring of the half-face inner gear ring, and the rotating wheel rolls along the outer ring of the half-face inner gear ring, so that the movable box can circumferentially rotate along the half-face inner gear ring, and the effect of automatically cutting and welding four rectangular steel pipes distributed in rectangular shapes into a rectangular frame is realized by matching with the cutting and welding device.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of the overall structure of the present invention.

FIG. 2 is a schematic view of the whole cross-sectional structure of the present invention.

FIG. 3 is a schematic cross-sectional view of a position adjusting mechanism and a rotating mechanism according to the present invention.

Fig. 4 is a schematic cross-sectional view of the limiting mechanism and the auxiliary mechanism of the present invention.

Fig. 5 is an enlarged schematic view of the structure a in fig. 2 according to the present invention.

Fig. 6 is an enlarged schematic view of the structure at B in fig. 2 according to the present invention.

Fig. 7 is an enlarged schematic view of the structure at C in fig. 2 according to the present invention.

Fig. 8 is an enlarged schematic view of the structure of fig. 2D according to the present invention.

Fig. 9 is an enlarged schematic view of the structure at E in fig. 3 according to the present invention.

Fig. 10 is an enlarged schematic view of the structure of fig. 4 at F in accordance with the present invention.

In the figure: 1. a fixed base; 2. a position adjusting mechanism; 201. a first fixing frame; 202. a slide bar; 203. a bidirectional screw; 204. a first motor; 205. a first moving block; 206. a push rod; 207. a roller; 3. a rotating mechanism; 301. fixing piles; 302. a cylinder; 303. a cylinder; 4. a driving mechanism; 401. a second fixing frame; 402. a first fixing bracket; 403. a first drive shaft; 404. a first gear; 405. a second motor; 406. a second gear; 407. a first bevel gear; 408. a second fixing bracket; 409. a transmission shaft; 410. a second bevel gear; 411. a moving case; 412. a connecting seat; 413. a rotating cylinder; 414. a third bevel gear; 415. a rotating shaft; 416. a fourth bevel gear; 5. a limiting mechanism; 501. a support bracket; 502. an L-shaped box body; 503. a bearing seat; 504. a thread cylinder; 505. a second moving block; 506. a clamping plate; 507. a fifth bevel gear; 6. an auxiliary mechanism; 601. a first connection bracket; 602. a second connection bracket; 603. a first hinge base; 604. the second hinge seat; 605. an electric cylinder; 606. a third hinge base; 607. a connecting arm; 608. a fourth hinge base; 609. half-face inner gear ring; 610. a moving case; 611. a fixed rod; 612. a rotating wheel; 613. a second drive shaft; 614. a third gear; 615. a fourth gear; 616. a third motor; 617. a fifth gear; 7. and cutting and welding the device.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Examples: as shown in fig. 1-10, the invention provides a steel processing device for building construction, which comprises a fixed base 1, wherein two position adjusting mechanisms 2 which are distributed vertically are fixedly arranged at the top end of the fixed base 1, the two position adjusting mechanisms 2 are distributed in a cross shape, a rotating mechanism 3 is slidably arranged at four crossing parts of the two position adjusting mechanisms 2, a driving mechanism 4 is fixedly arranged at the top end of the upper position adjusting mechanism 2, a limiting mechanism 5 is fixedly arranged at the top end of the rotating mechanism 3, the limiting mechanism 5 is slidably arranged on the driving mechanism 4, an auxiliary mechanism 6 for assisting cutting and welding is fixedly arranged on the limiting mechanism 5, and a cutting and welding device 7 is fixedly arranged on the auxiliary mechanism 6.

The position adjusting mechanism 2 comprises a first fixed frame 201, two sliding rods 202 are fixedly arranged in the first fixed frame 201, a bidirectional screw 203 is rotatably arranged on the first fixed frame 201, a first motor 204 is fixedly arranged on the outer side of the first fixed frame 201, the output end of the first motor 204 is fixedly connected with one end of the bidirectional screw 203, two first moving blocks 205 are arranged on the bidirectional screw 203 in a threaded manner, the two first moving blocks 205 are slidably arranged on the two sliding rods 202, push rods 206 are fixedly arranged on two sides, close to the first fixed frame 201, of the two side walls, far away from the bidirectional screw 203, of the first moving blocks 205, rollers 207 are rotatably arranged on the push rods 206, the two side walls, far away from the bidirectional screw 203, of the first fixed frame 201 are respectively provided with first sliding rails, the rollers 207 on the two push rods 206 are slidably arranged inside the two first sliding rails, the two first fixed frames 201 are fixedly connected, and the first fixed frame 201 located below is fixedly arranged on the fixed base 1.

By adopting the technical scheme, the first motor 204 can drive the push rod 206 to move.

The rotating mechanism 3 comprises two fixing piles 301 which are distributed up and down, the two fixing piles 301 which are distributed up and down are respectively arranged on push rods 206 of two position adjusting mechanisms 2 which are distributed up and down in a sliding mode, a cylinder 302 is fixedly arranged at the center of the top end of the fixing pile 301 which is positioned below, a cylinder 303 is fixedly arranged at the center of the bottom end of the fixing pile 301 which is positioned above, and the cylinder 303 is rotatably arranged on the outer ring of the cylinder 302.

By adopting the technical scheme, the push rod 206 can be moved to drive the rotating mechanism 3 to move.

The driving mechanism 4 comprises a second fixed frame 401, the second fixed frame 401 is fixedly mounted on the top end of the first fixed frame 201 above, a first fixed support 402 is fixedly mounted on the outer side of the second fixed frame 401, a first driving shaft 403 is rotatably arranged on the first fixed support 402, a first gear 404 is fixedly mounted on the first driving shaft 403, a second motor 405 is fixedly mounted on the first fixed support 402, a second gear 406 is fixedly mounted at the output end of the second motor 405, the second gear 406 is meshed with the first gear 404, first bevel gears 407 are fixedly mounted at two ends of the first driving shaft 403, and the two first bevel gears 407 are symmetrically distributed.

By adopting the above technical scheme, the second motor 405 can drive the first driving shaft 403 to rotate.

The second fixing frame 401 is fixedly installed on the outer sides of two adjacent side walls of the first fixing frame 402, a transmission shaft 409 is rotatably arranged on the second fixing frame 408, a second bevel gear 410 is fixedly installed at one end of the transmission shaft 409, the second bevel gear 410 is meshed with the first bevel gear 407, a moving box 411 is slidably arranged on the outer ring of the transmission shaft 409, a connecting seat 412 is fixedly installed at the bottom end of the moving box 411, and the connecting seat 412 is fixedly connected with one end part of the push rod 206 of the position adjusting mechanism 2 located above.

By adopting the above technical scheme, the rotation of the first driving shaft 403 can drive the transmission shaft 409 to move, and the movement of the push rod 206 can drive the moving box 411 to move.

The inside rotation of removal box 411 is equipped with a section of thick bamboo 413, and rotates a section of thick bamboo 413 slip cap and establish at the transmission shaft 409 outer lane, first spout has been seted up to transmission shaft 409 outer lane, a section of thick bamboo 413 inner circle fixed mounting has first slider, and first slider slides and set up inside first spout, a section of thick bamboo 413 outer lane fixed mounting has third bevel gear 414, is located two of second fixed frame 401 same one side remove and be equipped with axis of rotation 415 on the box 411, axis of rotation 415 both ends equal fixed mounting has fourth bevel gear 416, and two fourth bevel gears 416 respectively with the third bevel gear 414 meshing of two section of thick bamboo 413 outer lanes.

By adopting the technical scheme, the rotation of the transmission shaft 409 can drive the rotation shaft 415 to rotate.

The limiting mechanism 5 comprises a supporting bracket 501, the supporting bracket 501 is fixedly arranged at the center of the top end of a fixed pile 301 positioned above, an L-shaped box body 502 is fixedly arranged on the supporting bracket 501, two groups of bearing seats 503 are fixedly arranged inside the L-shaped box body 502, threaded barrels 504 are respectively arranged on the bearing seats 503 in a rotating mode, one threaded barrel 504 is slidably sleeved on the outer ring of the rotating shaft 415, threads of the outer ring of the threaded barrels 504 are bidirectional threads, a second sliding groove is formed in the outer ring of the rotating shaft 415, a second sliding block is fixedly arranged on the inner ring of the threaded barrels 504, the second sliding block is slidably arranged inside the second sliding groove, two second moving blocks 505 are arranged on the threads of the threaded barrels 504, clamping plates 506 are fixedly arranged at the top ends of the second moving blocks 505, clamping plates 506 are slidably arranged on the L-shaped box body 502, fifth bevel gears 507 are fixedly arranged on the outer ring of one end, which is mutually close to each other, and the two fifth bevel gears 507 are mutually meshed.

By adopting the technical scheme, the second moving block 505 on the threaded cylinder 504 can be driven to move by rotating the rotating shaft 415.

The auxiliary mechanism 6 comprises a second connecting support 602 and a first connecting support 601 which are distributed up and down, the second connecting support 602 and the first connecting support 601 are fixedly arranged on the supporting support 501, a first hinging seat 603 is fixedly arranged at the top end of the first connecting support 601, a second hinging seat 604 is fixedly arranged at the bottom end of the second connecting support 602, the second hinging seat 604 is hinged with the first hinging seat 603, an electric cylinder 605 is fixedly arranged on the first connecting support 601, a third hinging seat 606 is fixedly arranged at the output end of the electric cylinder 605, which is close to the L-shaped box 502, a connecting arm 607 is hinged to the third hinging seat 606, a fourth hinging seat 608 is hinged to the other end of the connecting arm 607, and the fourth hinging seat 608 is fixedly connected with the second connecting support 602.

By adopting the technical scheme, the electric cylinder 605 can drive the second connecting bracket 602 to deflect.

Two half-face inner gear rings 609 are fixedly mounted on one sides, far away from the L-shaped box 502, of the first connecting support 601 and the second connecting support 602, the two half-face inner gear rings 609 distributed up and down can form a complete circular ring, a movable box 610 is arranged between the two half-face inner gear rings 609 located above, two fixed rods 611 are fixedly mounted on the movable box 610, rotating wheels 612 are rotatably arranged at two ends of the fixed rods 611, the two rotating wheels 612 are rotatably arranged on outer rings of the two half-face inner gear rings 609 respectively, a second driving shaft 613 is rotatably arranged on the movable box 610, third gears 614 are fixedly mounted at two ends of the second driving shaft 613 and are respectively meshed with inner rings of the two half-face inner gear rings 609, a fourth gear 615 is fixedly mounted in the middle of the second driving shaft 613, a third motor 616 is fixedly mounted inside the movable box 610, a fifth gear 617 is fixedly mounted at the output end of the third motor 616, and the fifth gear 617 is meshed with the fourth gear 615.

By adopting the technical scheme, the third motor 616 can drive the movable box 610 to rotate circumferentially.

A processing method of a steel processing device for house construction comprises the following steps;

step one, a first motor 204 is utilized to drive a bidirectional screw 203 to rotate, the bidirectional screw 203 rotates to drive two first moving blocks 205 on the bidirectional screw 203 to move in opposite directions, the first moving blocks 205 move to drive push rods 206 to move, the push rods 206 of two position adjusting mechanisms 2 move to adjust the positions of four rotating mechanisms 3, then four rectangular steel pipes are placed on eight groups of clamping plates 506 of four limiting mechanisms 5 in a rectangular shape, and two groups of two rectangular steel pipes which are distributed in parallel are respectively placed up and down;

step two, the first driving shaft 403 is driven to rotate by the second motor 405, the first driving shaft 403 rotates to drive the two driving shafts 409 to rotate, the driving shafts 409 rotate to drive the rotating cylinder 413 to rotate, the rotating cylinder 413 rotates to drive the rotating shaft 415 to rotate, the rotating shaft 415 rotates to drive the threaded cylinder 504 on the rotating shaft 415 to rotate, the two threaded cylinders 504 simultaneously rotate by the mutual engagement of the fifth bevel gears 507 on the two threaded cylinders 504, and the threaded cylinders 504 rotate to drive the two second moving blocks 505 on the threaded cylinders to move in opposite directions to clamp the rectangular steel pipes;

step three, the electric cylinder 605 is utilized to drive the third hinging seat 606 to move, the third hinging seat 606 moves to drive the connecting arm 607 and the fourth hinging seat 608 connected with the connecting arm 607 to move and deflect along with the third hinging seat, the second hinging seat 604 at the bottom end of the second connecting bracket 602 is utilized to be hinged with the first hinging seat 603 at the top end of the first connecting bracket 601, so that the fourth hinging seat 608 can drive the half-face inner gear ring 609 connected with the second connecting bracket 602 to deflect, and the half-face inner gear ring 609 connected with the first connecting bracket 601 forms a complete circular ring;

step four, using a third motor 616 to drive a second driving shaft 613 to rotate, the second driving shaft 613 rotates to drive a third gear 614 to rotate, using the third gear 614 to mesh with the inner ring of the half-face inner gear ring 609, and using a rotating wheel 612 to roll along the outer ring of the half-face inner gear ring 609, so that the movable box 610 can circumferentially rotate along the half-face inner gear ring 609, and then using a cutting and welding device 7 to cut the rectangular steel pipe;

and fifthly, after cutting is completed, the clamping of the rectangular steel pipes is released by using the movement of the clamping plates 506, then the rotating mechanism 3 is driven to move by using the position adjusting mechanism 2, so that the rectangular steel pipes distributed vertically are positioned on the same horizontal plane, then the position adjusting mechanism 2 is reset, the rectangular steel pipes are clamped again by using the clamping plates 506, then the rectangular steel pipes are welded by using the movement of the cutting and welding device 7, and four rectangular steel pipes distributed in a rectangular mode are welded into a rectangular frame.

Working principle: when the two-way steel tube clamping device is used, the first motor 204 is utilized to drive the two-way screw 203 to rotate, the two-way screw 203 rotates to drive the two first moving blocks 205 on the two-way screw 203 to move in opposite directions, the first moving blocks 205 move to drive the push rod 206 to move, the push rod 206 moves to drive the other fixed pile 301 connected with the fixed pile 301 on the push rod 206 to move, the position of the other fixed pile 301 connected with the fixed pile 301 on the push rod 206 is further adjusted, the positions of the four rotating mechanisms 3 are adjusted by utilizing the two position adjusting mechanisms 2 distributed up and down, the four rectangular steel tubes are placed on eight groups of clamping plates 506 of the four limiting mechanisms 5 in a rectangular shape, and the two groups of two rectangular steel tubes distributed in parallel are placed up and down respectively;

the second motor 405 is utilized to drive the second gear 406 to rotate, the second gear 406 rotates to drive the first gear 404 to rotate, the first gear 404 rotates to drive the first driving shaft 403 to rotate, the first driving shaft 403 rotates to drive the two first bevel gears 407 to rotate, the first bevel gears 407 rotate the second bevel gears 410 to rotate, the second bevel gears 410 rotate to drive the transmission shafts 409 to rotate, the transmission shafts 409 rotate to drive the rotating cylinders 413 to rotate, the rotating cylinders 413 rotate to drive the third bevel gears 414 to rotate, the third bevel gears 414 rotate to drive the fourth bevel gears 416 to rotate, the fourth bevel gears 416 rotate to drive the rotating shafts 415 to rotate, the rotating shafts 415 rotate to drive the threaded cylinders 504 on the rotating shafts 415 to rotate, and the fifth bevel gears 507 on the two threaded cylinders 504 are meshed with each other to enable the two threaded cylinders 504 to rotate simultaneously, and the threaded cylinders 504 rotate to drive the two second moving blocks 505 on the rotating cylinders to move in opposite directions to clamp rectangular steel pipes;

the third hinging seat 606 is driven to move by the electric cylinder 605, the third hinging seat 606 moves to drive the connecting arm 607 to move, the fourth hinging seat 608 at the other end of the connecting arm 607 moves along with the connecting arm 607 and deflects, the second hinging seat 604 at the bottom end of the second connecting bracket 602 is hinged with the first hinging seat 603 at the top end of the first connecting bracket 601, so that the fourth hinging seat 608 can drive the second connecting bracket 602 to deflect, the half-face inner gear ring 609 connected with the second connecting bracket 602 deflects along with the second hinging seat, and the half-face inner gear ring 609 connected with the first connecting bracket 601 forms a complete circular ring and is positioned outside a rectangular steel pipe junction;

the third motor 616 is utilized to drive the fifth gear 617 to rotate, the fifth gear 617 rotates to drive the fourth gear 615 to rotate, the fourth gear 615 rotates to drive the second driving shaft 613 to rotate, the second driving shaft 613 rotates to drive the third gear 614 to rotate, the third gear 614 is utilized to be meshed with the inner ring of the half-face inner gear ring 609, the rotating wheel 612 rolls along the outer ring of the half-face inner gear ring 609, the movable box 610 can circumferentially rotate along the half-face inner gear ring 609, and the cutting welding device 7 is utilized to cut rectangular steel pipes at first;

after cutting is completed, the clamping plate 506 is used for moving, clamping of the rectangular steel pipes is loosened, then the position adjusting mechanism 2 is used for enabling the rectangular steel pipes distributed vertically to be located on the same horizontal plane, then the position adjusting mechanism 2 is reset, the clamping plate 506 clamps the rectangular steel pipes again, the cutting welding device 7 is used for moving to weld the rectangular steel pipes, and four rectangular steel pipes distributed in a rectangular mode are welded into a rectangular frame, so that the effects of automatic cutting and welding are achieved.

It will be apparent to those skilled in the art that various modifications and variations can be made to the present invention without departing from the spirit or scope of the invention. Thus, it is intended that the present invention also include such modifications and alterations insofar as they come within the scope of the appended claims or the equivalents thereof.

Claims (10)

1. The utility model provides a steel processingequipment that house construction was used, includes fixed base (1), its characterized in that: two position adjustment mechanisms (2) which are distributed up and down are fixedly arranged at the top end of the fixed base (1), the two position adjustment mechanisms (2) are distributed in a cross mode, the two position adjustment mechanisms (2) are slidably arranged at four crossing positions, a driving mechanism (4) is fixedly arranged at the top end of each position adjustment mechanism (2) and located above, a limiting mechanism (5) is fixedly arranged at the top end of each rotating mechanism (3), the limiting mechanism (5) is slidably arranged on the driving mechanism (4), an auxiliary mechanism (6) for assisting cutting and welding is fixedly arranged on each limiting mechanism (5), and a cutting and welding device (7) is fixedly arranged on each auxiliary mechanism (6).

2. The steel processingequipment of building construction usefulness of claim 1, characterized in that, position adjustment mechanism (2) is including first fixed frame (201), two slide bars (202) are installed to inside fixed mounting of first fixed frame (201), it is equipped with bi-directional screw (203) to rotate on first fixed frame (201), first motor (204) are installed to outside fixed mounting of first fixed frame (201), and first motor (204) output and bi-directional screw (203) one end fixed connection, screw thread is equipped with two first movable blocks (205) on bi-directional screw (203), and two first movable blocks (205) all slide and set up on two slide bars (202), first movable block (205) are close to the both sides of two lateral walls that bi-directional screw (203) were kept away from to first fixed frame (201) and all fixed mounting have push rod (206), all rotate on push rod (206) and be equipped with gyro wheel (207), two lateral walls that bi-directional screw (203) were kept away from to first fixed frame (201) all have seted up first slide rail (206), and two slide bar (207) are located two fixed frame (201) are fixed on two fixed base (1) respectively.

3. The steel processing apparatus for building construction according to claim 2, wherein the rotating mechanism (3) comprises two fixing piles (301) which are vertically distributed, the two fixing piles (301) which are vertically distributed are respectively slidably arranged on push rods (206) of the two position adjusting mechanisms (2) which are vertically distributed, a cylinder (302) is fixedly arranged at the center of the top end of the fixing pile (301) which is positioned below, a cylinder (303) is fixedly arranged at the center of the bottom end of the fixing pile (301) which is positioned above, and the cylinder (303) is rotatably arranged on the outer ring of the cylinder (302).

4. A steel processing apparatus for building construction according to claim 3, wherein the driving mechanism (4) comprises a second fixing frame (401), the second fixing frame (401) is fixedly mounted on the top end of the first fixing frame (201) above, a first fixing support (402) is fixedly mounted on the outer side of the second fixing frame (401), a first driving shaft (403) is rotatably mounted on the first fixing support (402), a first gear (404) is fixedly mounted on the first driving shaft (403), a second motor (405) is fixedly mounted on the first fixing support (402), a second gear (406) is fixedly mounted at the output end of the second motor (405), the second gear (406) is meshed with the first gear (404), and the first bevel gears (407) are fixedly mounted on both ends of the first driving shaft (403), and the two first bevel gears (407) are symmetrically distributed.

5. The steel processing apparatus for building construction according to claim 4, wherein the second fixing frame (401) is fixedly mounted on the outer sides of two side walls adjacent to the first fixing frame (402), a transmission shaft (409) is rotatably provided on the second fixing frame (408), one end of the transmission shaft (409) is fixedly provided with a second bevel gear (410), the second bevel gear (410) is meshed with the first bevel gear (407), a moving box (411) is slidably provided on an outer ring of the transmission shaft (409), a connecting seat (412) is fixedly provided on the bottom end of the moving box (411), and the connecting seat (412) is fixedly connected with an end portion of one push rod (206) of the position adjusting mechanism (2) located above.

6. The steel processing device for building construction according to claim 5, wherein a rotating cylinder (413) is rotatably arranged in the moving box (411), the rotating cylinder (413) is slidably sleeved on an outer ring of the transmission shaft (409), a first sliding groove is formed in the outer ring of the transmission shaft (409), a first sliding block is fixedly arranged on an inner ring of the rotating cylinder (413), the first sliding block is slidably arranged in the first sliding groove, a third bevel gear (414) is fixedly arranged on the outer ring of the rotating cylinder (413), rotating shafts (415) are rotatably arranged on the two moving boxes (411) on the same side of the second fixed frame (401), fourth bevel gears (416) are fixedly arranged at two ends of each rotating shaft (415), and the two fourth bevel gears (416) are respectively meshed with the third bevel gears (414) on the outer rings of the two rotating cylinders (413).

7. The steel processing device for building construction according to claim 6, wherein the limiting mechanism (5) comprises a supporting bracket (501), the supporting bracket (501) is fixedly installed at the center of the top end of the fixing pile (301) located above, the supporting bracket (501) is fixedly provided with an L-shaped box body (502), two groups of bearing seats (503) are fixedly installed inside the L-shaped box body (502), two groups of bearing seats (503) are respectively provided with a threaded cylinder (504) in a rotating mode, one threaded cylinder (504) is slidably sleeved on the outer ring of the rotating shaft (415), threads of the outer ring of the threaded cylinder (504) are bidirectional threads, a second sliding groove is formed in the outer ring of the rotating shaft (415), the inner ring of the threaded cylinder (504) is fixedly provided with a second sliding block, the second sliding block is slidably arranged inside the second sliding groove, two second moving blocks (505) are fixedly installed on the top ends of the second moving blocks (505), the clamping plates (506) are slidably arranged on the L-shaped box body (504), and the two bevel gears (507) are fixedly installed on the outer ring of the L-shaped box body (504), and the two bevel gears (507) are mutually meshed with each other.

8. The steel processing apparatus for building construction according to claim 7, wherein the auxiliary mechanism (6) comprises a second connecting bracket (602) and a first connecting bracket (601) which are distributed up and down, the second connecting bracket (602) and the first connecting bracket (601) are fixedly installed on the supporting bracket (501), a first hinging seat (603) is fixedly installed at the top end of the first connecting bracket (601), a second hinging seat (604) is fixedly installed at the bottom end of the second connecting bracket (602), the second hinging seat (604) is hinged with the first hinging seat (603), an electric cylinder (605) is fixedly installed on the first connecting bracket (601), a third hinging seat (606) is fixedly installed at the output end of the electric cylinder (605) close to the L-shaped box (502), a connecting arm (607) is hinged, a fourth hinging seat (608) is hinged at the other end of the connecting arm (607), and the fourth hinging seat (608) is fixedly connected with the second connecting bracket (602).

9. The steel processing device for building construction according to claim 8, wherein two half-face inner gear rings (609) are fixedly installed on one sides, far away from the L-shaped box body (502), of the first connecting support (601) and the second connecting support (602), the two half-face inner gear rings (609) distributed up and down can form a complete circular ring, a moving box (610) is arranged between the two half-face inner gear rings (609) located above, two fixed rods (611) are fixedly installed on the moving box (610), rotating wheels (612) are rotatably arranged at two ends of each fixed rod (611), two rotating wheels (612) are rotatably arranged on outer rings of the two half-face inner gear rings (609) respectively, a second driving shaft (613) is rotatably arranged on each moving box (610), a third gear (614) is fixedly installed at two ends of each second driving shaft (613), two third gears (614) are respectively meshed with inner rings of the two half-face inner gear rings (609), a motor (615) is fixedly installed at the middle of each second driving shaft (613), a fifth gear (616) is fixedly installed inside a motor (616), and a fifth gear (617) is fixedly installed inside the second driving shaft (616).

10. A method of manufacturing a steel processing apparatus for building construction according to any one of claims 1 to 9, comprising the steps of;

step one, a first motor (204) is utilized to drive a bidirectional screw (203) to rotate, the bidirectional screw (203) rotates to drive two first moving blocks (205) on the bidirectional screw to move in opposite directions, the first moving blocks (205) move to drive push rods (206) to move, the push rods (206) of two position adjusting mechanisms (2) are utilized to move to adjust the positions of four rotating mechanisms (3), then four rectangular steel pipes are placed on eight groups of clamping plates (506) of four limiting mechanisms (5) in a rectangular mode, and two groups of two rectangular steel pipes which are distributed in parallel are placed up and down respectively;

step two, a second motor (405) is utilized to drive a first driving shaft (403) to rotate, the first driving shaft (403) rotates to drive two transmission shafts (409) to rotate, the transmission shafts (409) rotate to drive a rotating cylinder (413) to rotate, the rotating cylinder (413) rotates to drive a rotating shaft (415) to rotate, the rotating shaft (415) rotates to drive a threaded cylinder (504) on the rotating shaft, a fifth bevel gear (507) on the two threaded cylinders (504) is utilized to be meshed with each other, so that the two threaded cylinders (504) rotate simultaneously, and the threaded cylinders (504) rotate to drive two second moving blocks (505) on the threaded cylinders to move in opposite directions to clamp rectangular steel pipes;

step three, a third hinging seat (606) is driven to move by an electric cylinder (605), the third hinging seat (606) moves to drive a connecting arm (607) and a fourth hinging seat (608) connected with the connecting arm to move and deflect along with the third hinging seat, a second hinging seat (604) at the bottom end of a second connecting bracket (602) is hinged with a first hinging seat (603) at the top end of a first connecting bracket (601), so that the fourth hinging seat (608) can drive a half-face inner gear ring (609) connected with the second connecting bracket (602) to deflect, and the half-face inner gear ring (609) connected with the first connecting bracket (601) forms a complete circular ring;

step four, a third motor (616) is utilized to drive a second driving shaft (613) to rotate, the second driving shaft (613) rotates to drive a third gear (614) to rotate, the third gear (614) is utilized to be meshed with the inner ring of the half-face inner gear ring (609), and a rotating wheel (612) rolls along the outer ring of the half-face inner gear ring (609), so that a movable box (610) can circumferentially rotate along the half-face inner gear ring (609), and then a cutting welding device (7) is utilized to cut rectangular steel pipes;

and fifthly, after cutting is completed, clamping the rectangular steel pipes by moving the clamping plates (506) is released, then the rotating mechanism (3) is driven by the position adjusting mechanism (2) to move, so that the rectangular steel pipes distributed vertically are positioned on the same horizontal plane, then the position adjusting mechanism (2) is reset, the rectangular steel pipes are clamped again by the clamping plates (506), then the rectangular steel pipes are welded by moving the cutting welding device (7), and four rectangular steel pipes distributed in a rectangular mode are welded into a rectangular frame.