CN215615995U - Pre-welding device for processing I-shaped steel - Google Patents

Abstract

The utility model discloses a prewelding device for processing I-steel, which comprises: the support frame, and the support frame can be installed the device, the support frame top is connected with horizontal transport frame, and horizontal transport frame can convey the I-steel, the support frame top is connected with vertical transport frame, and vertical transport frame can convey the I-steel. This a prewelding device for I-steel processing, can drive another group of sliding block when removing from the driving wheel and remove, can slide through the guide bar when the sliding block removes, can adjust and the action wheel interval between when removing from the driving wheel, conveniently can adjust according to the size of I-steel from driving wheel and action wheel, can drive the second threaded rod during fourth pinion rotates and rotate, can rotate through second operation groove when the second threaded rod rotates, can carry out the screw thread slip with the connecting cylinder when the second threaded rod is rotatory, make things convenient for welding set can and carry out fast assembly between the support frame.

Description

Pre-welding device for processing I-shaped steel

Technical Field

The utility model relates to the technical field of metal processing equipment, in particular to a prewelding device for processing I-shaped steel.

Background

I-steel, also known as steel beam, is a long steel bar having an i-shaped cross section. The I-steel includes common I-steel and light I-steel. The section steel is I-shaped in cross section, and the I-shaped steel is mainly divided into common I-shaped steel, light I-shaped steel and wide-flange I-shaped steel. The wide-flange I-steel is divided into wide-flange I-steel, medium-flange I-steel and narrow-flange I-steel according to the height ratio of the flange to the web. The former two are produced in a specification of 10-60, i.e. the corresponding height is 10-60 cm. Under the same height, the light I-steel has narrow flange, thin web and light weight. The wide flange I-steel is also called H-shaped steel, and the section is characterized in that two legs are parallel and the inner sides of the legs have no inclination. It belongs to the economic section steel, is rolled on a four-roller universal rolling mill, and is also called universal I-steel. The common I-steel and the light I-steel form the national standard, the I-steel needs to be subjected to prewelding treatment before being welded, and the prewelding treatment is to carry out butt joint treatment on the I-steel;

this prior art solution also presents the following problems when in use:

1. the driven wheel is inconvenient to adjust;

2. the support frame and the welding device are inconvenient to assemble;

improvements are needed to address the above problems.

SUMMERY OF THE UTILITY MODEL

The utility model provides the following technical scheme: the utility model aims to provide a prewelding device for processing I-shaped steel, which aims to solve the problems that the prewelding device for processing I-shaped steel in the market has many defects, a driven wheel is inconvenient to adjust, and a supporting frame and a welding device are inconvenient to assemble.

In order to achieve the purpose, the utility model provides the following technical scheme: a prewelding device for processing I-shaped steel comprises:

the device comprises support frames, wherein the support frames can be used for mounting the device, the top parts of the support frames are connected with transverse conveying frames, the transverse conveying frames can convey the I-shaped steel, the top parts of the support frames are connected with vertical conveying frames, the vertical conveying frames can convey the I-shaped steel, and welding devices are arranged between the support frames;

the sliding grooves are respectively formed in the transverse conveying frame and the vertical conveying frame, a first threaded rod penetrates through the sliding grooves, a guide rod is connected to the inner part of the sliding groove far away from the first threaded rod, sliding blocks are connected to the side surfaces of the guide rod and the first threaded rod, bearings are connected to the side surfaces of the sliding blocks, and a driven wheel is connected between the bearings;

first operation groove sets up respectively the inside of horizontal conveying frame, vertical conveying frame and support frame, the internally mounted in first operation groove has the motor, the output of motor is connected with first pivot, first operation inslot portion through connection has the rotary rod, is close to first operation groove the rotary rod side is connected with the second pivot, be connected with the belt between second pivot and the first pivot, the rotary rod side is connected with the action wheel.

Preferably, be threaded connection between first threaded rod and the sliding block, and be sliding connection between sliding block and the guide bar to sliding block and follow constitute revolution mechanic through the bearing between the driving wheel, rotate first threaded rod and can rotate through the sliding tray, can drive the sliding block when first threaded rod is rotatory and carry out the screw thread slip, can drive the bearing and remove from the driving wheel during sliding block screw thread slip, can drive another group of sliding block when removing from the driving wheel, can slide through the guide bar when the sliding block removes.

Preferably, constitute link gear between motor, first pivot, belt, second pivot, rotary rod and the action wheel, and rotary rod and action wheel structure as an organic whole to constitute revolution mechanic between rotary rod and the first operation groove, motor work can drive first pivot and rotate, can drive the belt when first pivot rotates and rotate, can drive the second pivot when the belt rotates and rotate, can drive the rotary rod when the second pivot rotates and rotate, can drive the action wheel when the rotary rod rotates and rotate.

Preferably, the side surface of the support frame is connected with a connecting cylinder, and the welding device is further provided with a second operation groove, a rotating rod, a first gear, a rotating frame, a second gear, a third gear, a second threaded rod and a fourth gear;

the second operation groove is formed in the welding device, a rotating rod penetrates through the second operation groove, one end, close to the second operation groove, of the rotating rod is connected with a first gear wheel, a rotating frame is connected inside the second operation groove, and a second gear wheel is connected to the side face, close to the first gear wheel (21), of the rotating frame;

third cogged wheel is connected respectively the both ends of swivel mount, run through connection has the second threaded rod between second operation groove and the connecting cylinder, is close to third cogged wheel the side of second threaded rod is connected with fourth cogged wheel, can rotate through second operation groove when the second threaded rod rotates, can carry out the thread slip with the connecting cylinder when the second threaded rod is rotatory.

Preferably, constitute revolution mechanic between dwang and the second operation groove, and dwang and first meshing gear structure as an organic whole to first meshing gear constitutes meshing mechanism with second meshing gear, swivel mount and third meshing gear structure as an organic whole, swivel mount and second operation groove constitution revolution mechanic, rotate the dwang and can drive first meshing gear and rotate, can drive the second meshing gear and carry out the meshing rotation during first meshing gear rotates, can drive the swivel mount and rotate during the second meshing gear rotates.

Preferably, constitute the engagement structure between third cogged wheel and the fourth tooth wheel, and structure as an organic whole between fourth cogged wheel and the second threaded rod to constitute revolution mechanic between second threaded rod and the second operation groove, constitute threaded connection between second threaded rod and the connecting cylinder, can drive the third tooth wheel when the swivel mount rotates and rotate, can drive the fourth tooth wheel when third cogged wheel rotates and rotate, can drive the second threaded rod when fourth cogged wheel rotates and rotate.

Compared with the prior art, the utility model has the beneficial effects that: this a prewelding device for I-steel processing, can drive another group of sliding block when removing from the driving wheel and remove, can slide through the guide bar when the sliding block removes, can adjust and the action wheel interval between when removing from the driving wheel, conveniently can adjust according to the size of I-steel from driving wheel and action wheel, can drive the second threaded rod during fourth pinion rotates and rotate, can rotate through second operation groove when the second threaded rod rotates, can carry out the screw thread slip with the connecting cylinder when the second threaded rod is rotatory, make things convenient for welding set can and carry out fast assembly between the support frame.

1. The first threaded rod can rotate through the sliding groove, the sliding blocks can be driven to perform threaded sliding when the first threaded rod rotates, the bearing and the driven wheel can be driven to move when the sliding blocks perform threaded sliding, the other group of sliding blocks can be driven to move when the driven wheel moves, the sliding blocks can slide through the guide rods when the sliding blocks move, the distance between the driven wheel and the driving wheel can be adjusted when the driven wheel moves, and the driven wheel and the driving wheel can be conveniently adjusted according to the size of the I-steel;

2. the rotating rod can drive the first meshing wheel to rotate, the second meshing wheel can be driven to rotate in a meshing mode during rotation of the first meshing wheel, the rotating frame can be driven to rotate during rotation of the second meshing wheel, the third meshing wheel can be driven to rotate during rotation of the rotating frame, the fourth meshing wheel can be driven to rotate during rotation of the third meshing wheel, the second threaded rod can be driven to rotate during rotation of the fourth meshing wheel, the second threaded rod can rotate through the second operation groove during rotation of the second threaded rod, threaded sliding can be performed with the connecting cylinder during rotation of the second threaded rod, and the welding device can be rapidly assembled between the welding device and the support frame.

Drawings

FIG. 1 is a schematic cross-sectional front view of the present invention;

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

FIG. 3 is a side view, cross-sectional, schematic view of a cross-conveyor according to the present invention;

FIG. 4 is a schematic side sectional view of a vertical conveyor of the present invention;

FIG. 5 is an enlarged view of part A of the present invention.

In the figure: 1. a support frame; 2. a transverse transport rack; 3. a vertical conveying frame; 4. a welding device; 5. a sliding groove; 6. a first threaded rod; 7. a guide bar; 8. a slider; 9. a first bearing; 10. a driven wheel; 11. a first operation slot; 12. a motor; 13. a first rotating shaft; 14. rotating the rod; 15. a second rotating shaft; 16. a belt; 17. a driving wheel; 18. a connecting cylinder; 19. a second operation slot; 20. rotating the rod; 21. a first toothed wheel; 22. a rotating frame; 23. a second toothed wheel; 24. a third toothed wheel; 25. a second threaded rod; 26. a fourth toothed wheel.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-5, the present invention provides a technical solution: a prewelding device for processing I-shaped steel comprises:

the device comprises support frames 1, wherein the support frames 1 can be used for mounting the device, the top of each support frame 1 is connected with a transverse conveying frame 2, the transverse conveying frames 2 can convey the I-shaped steel, the top of each support frame 1 is connected with a vertical conveying frame 3, the vertical conveying frames 3 can convey the I-shaped steel, and welding devices 4 are arranged between the support frames 1;

the sliding grooves 5 are respectively arranged in the transverse conveying frame 2 and the vertical conveying frame 3, a first threaded rod 6 is connected in the sliding grooves 5 in a penetrating way, a guide rod 7 is connected in the sliding grooves 5 far away from the first threaded rod 6, sliding blocks 8 are respectively connected on the side surfaces of the guide rod 7 and the first threaded rod 6, bearings 9 are connected on the side surfaces of the sliding blocks 8, driven wheels 10 are connected between the bearings 9, first operation grooves 11 are respectively arranged in the transverse conveying frame 2, inside vertical transfer rack 3 and support frame 1, the internally mounted of first operation groove 11 has motor 12, and the output of motor 12 is connected with first pivot 13, and the inside through connection of first operation groove 11 has rotary rod 14, and the rotary rod 14 side that is close to first operation groove 11 is connected with second pivot 15, is connected with belt 16 between second pivot 15 and the first pivot 13, and rotary rod 14 side is connected with action wheel 17.

Threaded connection is adopted between the first threaded rod 6 and the sliding block 8, sliding connection is adopted between the sliding block 8 and the guide rod 7, and a rotating structure is formed between the sliding block 8 and the driven wheel 10 through a bearing 9.

The motor 12, the first rotating shaft 13, the belt 16, the second rotating shaft 15, the rotating rod 14 and the driving wheel 17 form a linkage mechanism, the rotating rod 14 and the driving wheel 17 are of an integral structure, and a rotating structure is formed between the rotating rod 14 and the first operating slot 11.

Referring to fig. 3 and 4, it can be known that rotating first threaded rod 6 can rotate through sliding chute 5, and first threaded rod 6 can drive sliding block 8 to carry out the screw thread slip when rotatory, can drive bearing 9 and follow driving wheel 10 to remove when sliding block 8 screw thread slip, can drive another group of sliding block 8 to remove when following driving wheel 10 removes, can slide through guide bar 7 when sliding block 8 removes, can adjust and take turns the interval between 17 when moving from driving wheel 10.

Support frame 1 side is connected with connecting cylinder 18, welding set 4 still is provided with second operation groove 19, dwang 20, first meshing gear 21, swivel mount 22, second meshing gear 23, third meshing gear 24, second threaded rod 25 and fourth meshing gear 26, second operation groove 19, set up in welding set 4's inside, the inside through connection of second operation groove 19 has dwang 20, the dwang 20 one end that is close to second operation groove 19 is connected with first meshing gear 21, second operation groove 19 internal connection has swivel mount 22, swivel mount 22 side that is close to first meshing gear 21 is connected with second meshing gear 23, third meshing gear 24, connect the both ends at swivel mount 22 respectively, through connection has second threaded rod 25 between second operation groove 19 and the connecting cylinder 18, the side that is close to second threaded rod 25 of third meshing gear 24 is connected with fourth meshing gear 26.

The rotating rod 20 and the second operation groove 19 form a rotating structure, the rotating rod 20 and the first gear 21 form an integral structure, the first gear 21 and the second gear 23 form an engagement mechanism, the second gear 23, the rotating frame 22 and the third gear 24 form an integral structure, and the rotating frame 22 and the second operation groove 19 form a rotating structure.

The third gear 24 and the fourth gear 26 form an engagement structure, the fourth gear 26 and the second threaded rod 25 form an integral structure, the second threaded rod 25 and the second operating slot 19 form a rotation structure, and the second threaded rod 25 and the connecting cylinder 18 form a threaded connection.

Referring to fig. 2 and 5, it can be known that the rotating rod 20 can drive the first toothed wheel 21 to rotate, the first toothed wheel 21 can drive the second toothed wheel 23 to rotate in a meshing manner when rotating, the second toothed wheel 23 can drive the rotating frame 22 to rotate when rotating, the rotating frame 22 can drive the third toothed wheel 24 to rotate when rotating, the third toothed wheel 24 can drive the fourth toothed wheel 26 to rotate when rotating, the fourth toothed wheel 26 can drive the second threaded rod 25 to rotate when rotating, the second threaded rod 25 can rotate through the second operation groove 19 when rotating, and the second threaded rod 25 can perform threaded sliding with the connecting cylinder 18 when rotating.

The working principle is as follows: when the prewelding device for processing the I-steel is used, firstly, the prewelding device for processing the I-steel needs to be simply known, when the prewelding device is used, the support frame 1 can be pulled to drive the connecting cylinder 18 to be butted with the second threaded rod 25, the rotating rod 20 can be rotated to drive the first gear 21 to rotate, the first gear 21 can drive the second gear 23 to perform meshing rotation when rotating, the second gear 23 can drive the rotating frame 22 to rotate when rotating, the rotating frame 22 can drive the third gear 24 to rotate when rotating, the third gear 24 can drive the fourth gear 26 to rotate when rotating, the fourth gear 26 can drive the second threaded rod 25 to rotate when rotating, the second threaded rod 25 can rotate through the second operating groove 19 when rotating, and the second threaded rod 25 can perform threaded sliding with the connecting cylinder 18 when rotating, make welding set 4 can and support frame 1 between carry out fast assembly, it can rotate through sliding tray 5 to rotate first threaded rod 6, first threaded rod 6 can drive sliding block 8 when rotatory and carry out the screw thread slip, sliding block 8 can drive bearing 9 and remove from driving wheel 10 when screw thread slip, can drive another group of sliding block 8 when removing from driving wheel 10 and remove, sliding block 8 can slide through guide bar 7 when removing, can adjust and the interval between action wheel 17 when removing from driving wheel 10, make from driving wheel 10 and action wheel 17 can adjust according to the size of I-steel, the content of not making detailed description in this description belongs to the prior art that technical personnel in this field know.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes in the embodiments and/or modifications of the utility model can be made, and equivalents and modifications of some features of the utility model can be made without departing from the spirit and scope of the utility model.

Claims (6)

1. The utility model provides a prewelding device for I-steel processing which characterized in that includes:

the device comprises supporting frames (1), wherein the top of each supporting frame (1) is connected with a transverse conveying frame (2), the top of each supporting frame (1) is connected with a vertical conveying frame (3), and welding devices (4) are arranged between the supporting frames (1);

the sliding grooves (5) are respectively formed in the transverse conveying frame (2) and the vertical conveying frame (3), a first threaded rod (6) penetrates through the sliding grooves (5), the sliding grooves (5) far away from the first threaded rod (6) are internally connected with guide rods (7), sliding blocks (8) are respectively connected to the side surfaces of the guide rods (7) and the side surfaces of the first threaded rod (6), bearings (9) are connected to the side surfaces of the sliding blocks (8), and driven wheels (10) are connected between the bearings (9);

first operation groove (11) is seted up respectively horizontal conveying frame (2), vertical conveying frame (3) and the inside of support frame (1), the internally mounted of first operation groove (11) has motor (12), the output of motor (12) is connected with first pivot (13), first operation groove (11) inside through connection has rotary rod (14), is close to first operation groove (11) rotary rod (14) side is connected with second pivot (15), be connected with belt (16) between second pivot (15) and first pivot (13), rotary rod (14) side is connected with action wheel (17).

2. The prewelding device for processing the I-shaped steel according to claim 1, wherein: be threaded connection between first threaded rod (6) and sliding block (8), and be sliding connection between sliding block (8) and guide bar (7) to constitute revolution mechanic through bearing (9) between sliding block (8) and follow driving wheel (10).

3. The prewelding device for processing the I-shaped steel according to claim 1, wherein: constitute link gear between motor (12), first pivot (13), belt (16), second pivot (15), rotary rod (14) and action wheel (17), and rotary rod (14) and action wheel (17) structure as an organic whole to constitute revolution mechanic between rotary rod (14) and first operation groove (11).

4. The prewelding device for processing the I-shaped steel according to claim 1, wherein: the side surface of the support frame (1) is connected with a connecting cylinder (18), and the welding device (4) is also provided with a second operation groove (19), a rotating rod (20), a first meshing gear (21), a rotating frame (22), a second meshing gear (23), a third meshing gear (24), a second threaded rod (25) and a fourth meshing gear (26);

the second operation groove (19) is formed in the welding device (4), a rotating rod (20) penetrates through the second operation groove (19), one end, close to the second operation groove (19), of the rotating rod (20) is connected with a first toothed gear (21), a rotating frame (22) is connected inside the second operation groove (19), and a second toothed gear (23) is connected to the side face, close to the first toothed gear (21), of the rotating frame (22);

the third gear (24) is respectively connected to two ends of the rotating frame (22), a second threaded rod (25) is connected between the second operation groove (19) and the connecting cylinder (18) in a penetrating mode, and a fourth gear (26) is connected to the side face, close to the third gear (24), of the second threaded rod (25).

5. The prewelding device for processing the I-shaped steel according to claim 4, wherein: constitute revolution mechanic between dwang (20) and second operation groove (19), and dwang (20) and first cogged wheel (21) structure as an organic whole to first cogged wheel (21) constitutes meshing mechanism with second cogged wheel (23), and second cogged wheel (23), swivel mount (22) and third cogged wheel (24) structure as an organic whole, swivel mount (22) constitute revolution mechanic with second operation groove (19).

6. The prewelding device for processing the I-shaped steel according to claim 4, wherein: and a meshing structure is formed between the third meshing gear (24) and the fourth meshing gear (26), an integral structure is formed between the fourth meshing gear (26) and the second threaded rod (25), a rotating structure is formed between the second threaded rod (25) and the second operating groove (19), and the second threaded rod (25) is in threaded connection with the connecting cylinder (18).

Images