CN111468652A - Alignment cutting equipment applicable to reinforcing steel bars with different diameters - Google Patents

Abstract

The invention relates to the field, in particular to a straightening and cutting device suitable for reinforcing steel bars with different diameters, which is often used when the reinforcing steel bars are bent and cannot be used during engineering construction, thereby causing resource waste, at the moment, reinforcing steel bar straightening equipment is needed, the traditional equipment can not straighten reinforcing steel bars with different diameters simultaneously, and the reinforcing steel bars can not be cut into required lengths after straightening, the invention solves the problems by inserting the reinforcing steel bars into the upper part of the straightening groove along the conveying straightening groove, a plurality of reinforcing steel bars with different diameters can be inserted simultaneously, the input roller starts to work to drive the reinforcing steel bars to move forwards, when the input roller stops conveying, the straightening hammer falls down to straighten the reinforcing steel bars, when the input roller starts to convey, the straightening hammer rises to avoid interference on the reinforcing steel bars, the straightened reinforcing steel bars are discharged, and when the reinforcing steel bars are required to be cut, the handle is shaken to clamp the reinforcing steel bar, and three different handles can respectively control three cutting-off knives to cut off the reinforcing steel bar.

Description

Alignment cutting equipment applicable to reinforcing steel bars with different diameters

Technical Field

The invention relates to the field, in particular to straightening and cutting equipment suitable for reinforcing steel bars with different diameters.

Background

During engineering construction, the problem that the reinforcing steel bars cannot be used due to bending, so that resource waste is caused, reinforcing steel bar straightening equipment is needed, reinforcing steel bars with different diameters cannot be straightened simultaneously by traditional equipment, and the reinforcing steel bars cannot be cut into required lengths after straightening.

Disclosure of Invention

The invention aims to provide straightening and cutting equipment suitable for reinforcing steel bars with different diameters, which can straighten the reinforcing steel bars with different diameters at the same time and respectively cut the reinforcing steel bars with different diameters.

The purpose of the invention is realized by the following technical scheme:

the utility model provides an applicable alignment cutting equipment in different diameter reinforcing bars, is including carrying the assembly, alignment assembly and cutting off the assembly, carry the assembly and be connected with the alignment assembly, cut off the assembly and carry the assembly to be connected.

As a further optimization of the technical scheme, the straightening and cutting equipment applicable to reinforcing steel bars with different diameters comprises a motor I, a shell, a motor I shaft bracket, a half gear, a gear I shaft, a belt wheel I, a belt wheel II shaft bracket, a belt wheel III, a belt II, a belt wheel IV, an input roller shaft I, a gear II, a gear III, an input roller shaft II, an input roller, a conveying straightening groove, a side plate, a sliding groove, a supporting leg and a gear I shaft bracket, wherein the motor I is connected with the shell, the motor I shaft is connected with the motor I shaft bracket, the motor I shaft is connected with the shell, the motor I shaft is connected with the half gear, a tooth part of the half gear is meshed with the gear I shaft, the gear I shaft is connected with the gear I shaft bracket, the gear I shaft is connected with the gear shaft bracket in a rotating way, i axle of gear is connected with band pulley I, band pulley II is connected through belt I, band pulley II is connected with II axles of band pulley, II axles of band pulley rotate with II axle brackets of band pulley and are connected, II axle brackets of band pulley, I axle brackets of gear all are connected with the shell, II axles of band pulley are connected with band pulley III, band pulley IV passes through II connections of belt, band pulley IV is connected with input roller I, input roller I is connected with gear II, gear II is connected with the meshing of gear III, gear III is connected with input roller II, input roller I, input roller II all rotates with the shell to be connected, input roller I, input roller II is connected with two input rollers respectively, six transport alignment groove are located two input rollers respectively, the curb plate is connected with the shell, two spouts are located the shell both sides respectively, four landing legs all are connected with the shell.

As a further optimization of the technical scheme, the straightening and cutting equipment comprises a belt wheel V, a belt III, a belt wheel VI, an intermediate connecting shaft, a disc, a shifting shaft, a connecting rod I, lifting support rods, a lifting plate, a straightening hammer, a straightening bottom plate, an inclined plane, a straightening groove and a bottom plate supporting leg, wherein the shaft of a motor I is connected with the belt wheel V, the belt wheel V and the belt wheel VI are connected through the belt III, the belt wheel VI is connected with the intermediate connecting shaft, the intermediate connecting shaft is connected with two discs, the intermediate connecting shaft is rotatably connected with a shell, the discs, the shifting shaft, the connecting rod I and the lifting support rods are respectively provided with two discs, the shifting shaft is connected with the shifting shaft, the shifting shaft is rotatably connected with one end of the connecting rod I, the other end of the connecting rod I is rotatably connected with the lifting support rods, the two lifting support rods are respectively connected with the two sliding chutes in a, the lifter plate both ends all with shell sliding connection, lifter plate and curb plate sliding connection, the inclined plane is connected with the alignment bottom plate, and inclined plane, alignment bottom plate all are connected with the shell, and the alignment groove all is located the alignment bottom plate, and the alignment bottom plate is connected with the bottom plate landing leg, and the bottom plate landing leg is connected with the shell.

As a further optimization of the technical scheme, the straightening and cutting equipment applicable to reinforcing steel bars with different diameters comprises a reinforcing steel bar outlet, a rotary handle, a threaded shaft, a sliding block, a sliding rail, a connecting rod II, a clamping connecting rod support lug, a cutting platform, a motor sliding frame, a tension spring, a motor II shaft, a chain wheel I, a chain wheel II, a chain wheel III support, a cutting sliding rail, a chain wheel II shaft support, a cutting saw, a lifting bottom plate I, a lifting bottom plate II, a lifting bottom plate III, a lifting rotary handle, a lifting threaded shaft and a chain wheel III shaft, wherein the reinforcing steel bar outlet is positioned on a side plate, the rotary handle is connected with the threaded shaft, the threaded shaft is connected with the sliding rail in a threaded manner, the sliding block is connected with the sliding rail in a sliding manner, the sliding rail is connected with the cutting platform, the sliding, the clamping connecting rod is hinged with the clamping connecting rod support lug, the clamping connecting rod support lug is connected with the cutting platform, the motor II is connected with the motor sliding frame in a sliding mode, two ends of the tension spring are respectively connected with the motor II and the motor sliding frame, the tension spring is in a normal state, the motor II is connected with a shaft of the motor II, a shaft of the motor II is connected with a chain wheel I, the chain wheel I and the three chain wheel II are connected through a chain, the three chain wheel II is respectively connected with a shaft of the three chain wheel II, the shaft of the three chain wheel II is respectively connected with a shaft bracket of the three chain wheel II, the shaft brackets of the three chain wheel II are respectively connected with a lifting bottom plate I, a lifting bottom plate II and a lifting bottom plate III, the lifting bottom plate I, the lifting bottom plate II and the lifting bottom plate III are respectively connected with four cutting slide rails in a sliding mode, the four, the three shafts of the four chain wheels are respectively rotatably connected with the four chain wheels III, the three shafts of the three chain wheels II are respectively connected with the three cutting saws, the three lifting rotating handles are respectively connected with the three lifting threaded shafts, the three lifting threaded shafts are respectively rotatably connected with the cutting platform, and the three lifting threaded shafts are respectively connected with the lifting bottom plate I, the lifting bottom plate II and the lifting bottom plate III in a threaded manner.

The straightening and cutting equipment suitable for reinforcing steel bars with different diameters has the beneficial effects that: insert the alignment groove top along carrying the alignment groove with the reinforcing bar, can insert the reinforcing bar of a plurality of different diameters simultaneously, the input roller that begins to work drives the reinforcing bar and gos forward, stops to carry when the input roller, the alignment hammer whereabouts is with the reinforcing bar alignment, begin to carry when the input roller, the alignment hammer rises and can not lead to the fact the interference to the reinforcing bar, the reinforcing bar discharge after the alignment will cut off the reinforcing bar, wave the handle and press from both sides the reinforcing bar tightly, three different handles can control three cutting off cutter respectively and cut off the reinforcing bar.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

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

FIG. 2 is a first schematic view of the structure of the conveying assembly 1 of the present invention;

FIG. 3 is a schematic structural view II of the conveying assembly 1 of the present invention;

FIG. 4 is a schematic view of the structure of the conveying assembly 1 of the present invention;

FIG. 5 is a fourth schematic view of the structure of the conveying assembly 1 of the present invention;

FIG. 6 is a first schematic structural diagram of the straightening assembly 2 of the present invention;

FIG. 7 is a second structural view of the straightening assembly 2 of the present invention;

fig. 8 is a schematic structural diagram three of the straightening assembly 2 of the present invention;

fig. 9 is a fourth schematic structural view of the straightening assembly 2 of the present invention;

fig. 10 is a schematic structural diagram five of the straightening assembly 2 of the present invention;

fig. 11 is a sixth schematic structural view of the straightening assembly 2 of the present invention;

FIG. 12 is a first schematic structural view of the cutting assembly 3 of the present invention;

FIG. 13 is a second schematic structural view of the cutting assembly 3 of the present invention;

fig. 14 is a third schematic structural view of the cutting assembly 3 of the present invention;

fig. 15 is a fourth schematic structural view of the cutting assembly 3 of the present invention.

In the figure: a conveying assembly 1; 1-1 of a motor; 1-2 of a shell; 1-3 shafts of a motor I; 1-4 shaft supports of a motor I; 1-5 parts of a half gear; 1-6 parts of a gear I; 1-7 of a first gear shaft; 1-8 belt wheels; 1-9 parts of a belt; 1-10 belt wheels; 1-11 of a belt wheel II shaft; a pulley II shaft support 1-12; belt wheels III 1-13; belts II 1-14; belt pulleys IV 1-15; an input roll shaft I1-16; gears II 1-17; gears III 1 to 18; input roll shafts II 1-19; input rollers 1-20; conveying straightening grooves 1-21; side plates 1-22; chutes 1-23; legs 1-24; 1-25 of a gear I shaft support; straightening the assembly 2; a belt pulley V2-1; a belt III 2-2; a belt wheel VI 2-3; 2-4 of an intermediate connecting shaft; 2-5 of a disc; 2-6 of a shifting shaft; 2-7 of a connecting rod; 2-8 of a lifting support rod; 2-9 of a lifting plate; 2-10 parts of a straightening hammer; straightening the bottom plate 2-11; 2-12 of an inclined plane; 2-13 parts of a straightening groove; floor legs 2-14; cutting the assembly 3; a steel bar outlet 3-1; 3-2 of a rotary handle; 3-3 of a threaded shaft; 3-4 of a sliding block; 3-5 of a slide rail; connecting rods II 3-6; 3-7 of a clamping connecting rod; clamping connecting rod support lugs 3-8; 3-9 parts of a cutting platform; 3-10 parts of a motor carriage; 3-11 parts of a tension spring; 3-12 of a motor II; 3-13 of a motor II shaft; 3-14 parts of a chain wheel; 3-15 parts of a chain; chain wheels II 3-16; 3-17 of a chain wheel; 3-18 brackets of a chain wheel III; cutting off the sliding rails 3-19; 3-20 shafts of a chain wheel II; a chain wheel II shaft support 3-21; 3-22 parts of a cutting saw; lifting the bottom plate I3-23; 3-24 parts of a lifting bottom plate; 3-25 of a lifting bottom plate; 3-26 of a lifting rotary handle; lifting screw thread shafts 3-27; sprocket III shaft 3-28.

Detailed Description

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

The fixed connection in the device is realized by fixing in modes of welding, thread fixing and the like, and different fixing modes are used in combination with different use environments; the rotary connection means that the bearing is arranged on the shaft in a drying mode, a spring retainer ring groove is formed in the shaft or the shaft hole, and the elastic retainer ring is clamped in the retainer ring groove to achieve axial fixation of the bearing and achieve rotation; the sliding connection refers to the connection through the sliding of the sliding block in the sliding groove or the guide rail, and the sliding groove or the guide rail is generally in a step shape, so that the sliding block is prevented from falling off in the sliding groove or the guide rail; the hinge joint is a movable connection mode on connecting parts such as a hinge, a pin shaft, a short shaft and the like; the required sealing positions are sealed by sealing rings or O-shaped rings.

The first embodiment is as follows:

the present embodiment will be described with reference to fig. 1 to 15, wherein the straightening and cutting apparatus is applicable to reinforcing bars with different diameters, and comprises a conveying assembly 1, a straightening assembly 2 and a cutting assembly 3, the conveying assembly 1 is connected to the straightening assembly 2, and the cutting assembly 3 is connected to the conveying assembly 1.

The second embodiment is as follows:

the conveying assembly 1 comprises a motor I1-1, a shell 1-2, a motor I shaft 1-3, a motor I shaft bracket 1-4, a half gear 1-5, a gear I1-6, a gear I shaft 1-7, a belt wheel I1-8, a belt I1-9, a belt wheel II 1-10, a belt wheel II shaft 1-11, a belt wheel II shaft bracket 1-12, a belt wheel III 1-13, a belt II 1-14, a belt wheel IV 1-15, an input roller shaft I1-16, a gear II 1-17, a gear III 1-18, an input roller shaft II 1-19, an input roller 1-20, a conveying straightening groove 1-21, a side plate 1-22, The gear rack comprises chutes 1-23, supporting legs 1-24 and gear I-shaft brackets 1-25, wherein a motor I1-1 is connected with a shell 1-2, a motor I1-1 is connected with a motor I shaft 1-3, a motor I shaft 1-3 is rotationally connected with a motor I shaft bracket 1-4, a motor I shaft bracket 1-4 is connected with a shell 1-2, a motor I shaft 1-3 is connected with a half gear 1-5, a tooth part of the half gear 1-5 is meshed and connected with a gear I1-6, a gear I1-6 is connected with a gear I shaft 1-7, a gear I shaft 1-7 is rotationally connected with a gear I shaft bracket 1-25, a gear I shaft 1-7 is connected with a belt wheel I1-8, a belt wheel I1-8 and a belt wheel II 1-10 are connected through a belt I1-9, the belt wheels II 1-10 are connected with belt wheel II shafts 1-11, the belt wheel II shafts 1-11 are rotatably connected with belt wheel II shaft brackets 1-12, the belt wheel II shaft brackets 1-12 and gear I shaft brackets 1-25 are connected with a shell 1-2, the belt wheel II shafts 1-11 are connected with belt wheels III 1-13, the belt wheels III 1-13 and the belt wheels IV 1-15 are connected through belts II 1-14, the belt wheels IV 1-15 are connected with input roll shafts I1-16, the input roll shafts I1-16 are connected with gears II 1-17, the gears II 1-17 are meshed with gears III 1-18, the gears III 1-18 are connected with input roll shafts II 1-19, the input roll shafts I1-16 and the input roll shafts II 1-19 are rotatably connected with the shell 1-2, the input roll shafts I1-16 and the input roll shafts II 1-19 are respectively connected with two input rolls 1-20, six conveying straightening grooves 1-21 are respectively positioned on the two input rolls 1-20, the side plates 1-22 are connected with the shell 1-2, two sliding grooves 1-23 are respectively positioned on two sides of the shell 1-2, four supporting legs 1-24 are respectively connected with the shell 1-2, and reinforcing steel bars can be conveyed intermittently.

The third concrete implementation mode:

the embodiment is described below by combining with figures 1-15, and the embodiment further describes the first embodiment, the straightening assembly 2 comprises a belt wheel V2-1, a belt III 2-2, a belt wheel VI 2-3, an intermediate connecting shaft 2-4, a disc 2-5, a shifting shaft 2-6, a connecting rod I2-7, a lifting support rod 2-8, a lifting plate 2-9, a straightening hammer 2-10, a straightening bottom plate 2-11, an inclined plane 2-12, a straightening groove 2-13 and a bottom plate supporting leg 2-14, a motor I shaft 1-3 is connected with the belt wheel V2-1, the belt wheel V2-1 and the belt wheel VI 2-3 are connected through the belt III 2-2, the belt wheel VI 2-3 is connected with the intermediate connecting shaft 2-4, the intermediate connecting shaft 2-4 is connected with two discs 2-5, the middle connecting shaft 2-4 is rotatably connected with the shell 1-2, two disks 2-5, two shifting shafts 2-6, two connecting rods I2-7 and two lifting support rods 2-8 are arranged, the disks 2-5 are connected with the shifting shafts 2-6, the shifting shafts 2-6 are rotatably connected with one ends of the connecting rods I2-7, the other ends of the connecting rods I2-7 are rotatably connected with the lifting support rods 2-8, the two lifting support rods 2-8 are respectively connected with the two chutes 1-23 in a sliding manner, the two lifting support rods 2-8 are connected with the lifting plate 2-9, two ends of the lifting plate 2-9 are respectively connected with the shell 1-2 in a sliding manner, the lifting plate 2-9 is connected with the side plate 1-22 in a sliding manner, the inclined plane 2-12 is connected with the straightening bottom plate 2-11, the inclined, The straightening bottom plates 2-11 are connected with the shell 1-2, the straightening grooves 2-13 are located on the straightening bottom plates 2-11, the straightening bottom plates 2-11 are connected with the bottom plate supporting legs 2-14, the bottom plate supporting legs 2-14 are connected with the shell 1-2, and reinforcing steel bars with different diameters can be straightened at the same time.

The fourth concrete implementation mode:

the following describes the present embodiment with reference to fig. 1 to 15, and the present embodiment further describes the first embodiment, where the cutting assembly 3 includes a steel bar outlet 3-1, a rotary handle 3-2, a threaded shaft 3-3, a slide block 3-4, a slide rail 3-5, a link rod II 3-6, a clamping link rod 3-7, a clamping link rod support lug 3-8, a cutting platform 3-9, a motor carriage 3-10, a tension spring 3-11, a motor II 3-12, a motor II shaft 3-13, a sprocket I3-14, a chain 3-15, a sprocket II 3-16, a sprocket III 3-17, a sprocket III support 3-18, a cutting slide rail 3-19, a sprocket II shaft 3-20, a sprocket II shaft support 3-21, a cutting saw 3-22, a lifting bottom plate I3-23, a sprocket II shaft support 3-18, a cutting slide rail 3-19, 3-24 parts of lifting bottom plate II, 3-25 parts of lifting bottom plate III, 3-26 parts of lifting rotating handle, 3-27 parts of lifting threaded shaft and 3-28 parts of chain wheel III shaft, 3-1 parts of steel bar outlet, 3-1 parts of side plate, 3-2 parts of rotating handle, 3-3 parts of threaded shaft, 3-5 parts of slide rail, 3-3 parts of threaded shaft, 3-3 parts of slide block, 3-4 parts of slide block, 3-5 parts of slide rail, 3-9 parts of cutting platform, 3-4 parts of slide block, 3-6 parts of connecting rod, 3-7 parts of clamping connecting rod, 3-8 parts of clamping connecting rod support lug, 3-8 parts of clamping connecting rod, 3-9 parts of cutting platform, the motor II 3-12 is connected with the motor sliding frame 3-10 in a sliding mode, two ends of a tension spring 3-11 are respectively connected with the motor II 3-12 and the motor sliding frame 3-10, the tension spring 3-11 is in a normal state, the motor II 3-12 is connected with a motor II shaft 3-13, the motor II shaft 3-13 is connected with a chain wheel I3-14, the chain wheel I3-14 and three chain wheels II 3-16 are connected through a chain 3-15, the three chain wheels II 3-16 are respectively connected with three chain wheel II shafts 3-20, the three chain wheel II shafts 3-20 are respectively connected with three chain wheel II shaft brackets 3-21 in a rotating mode, the three chain wheel II shaft brackets 3-21 are respectively connected with the lifting bottom plate I3-23, the lifting bottom plate II 3-24 and the lifting bottom plate III 3-25, the lifting bottom plate I3-, The lifting bottom plates II 3-24 and the lifting bottom plates III 3-25 are respectively connected with four cutting slide rails 3-19 in a sliding mode, the four cutting slide rails 3-19 are respectively connected with cutting platforms 3-9, the four chain wheel III supports 3-18 are respectively connected with the four chain wheel III shafts 3-28 in a rotating mode, the four chain wheel III shafts 3-28 are respectively connected with the four chain wheels III 3-17 in a rotating mode, the three chain wheel II shafts 3-20 are respectively connected with the three cutting saws 3-22, the three lifting rotary handles 3-26 are respectively connected with the three lifting threaded shafts 3-27, the three lifting threaded shafts 3-27 are respectively connected with the cutting platforms 3-9 in a rotating mode, and the three lifting threaded shafts 3-27 are respectively connected with the lifting bottom plates I3-23, The lifting bottom plates II 3-24 and the lifting bottom plates III 3-25 are in threaded connection, and reinforcing steel bars with different diameters can be cut off respectively.

The invention relates to straightening and cutting equipment suitable for reinforcing steel bars with different diameters, which has the working principle that: inserting steel bars into the upper part of the straightening grooves 2-13 along the conveying straightening grooves 1-21, simultaneously inserting a plurality of steel bars with different diameters, starting a motor I1-1, driving a motor I shaft 1-3 to rotate by the motor I shaft 1-3, driving a half gear 1-5 to rotate by the motor I shaft 1-3, driving a gear I1-6 to rotate by a toothed part of the half gear 1-5, driving a gear I shaft 1-6 to rotate by the gear I1-6, driving a gear I shaft 1-7 to rotate by the gear I shaft 1-7, driving a belt wheel I1-8 to rotate by the belt wheel I1-8 through a belt I1-9, driving a belt wheel II 1-10 to rotate by the belt wheel II 1-10, driving a belt wheel II shaft 1-11 to rotate by the belt wheel II shaft 1-11, driving a belt wheel 1-13 to rotate by the belt wheel III 1-13, driving a belt wheel IV, the belt pulleys IV 1-15 drive the input roll shafts I1-16 to rotate, the input roll shafts I1-16 drive the gears II 1-17 to rotate, the gears II 1-17 drive the gears III 1-18 to rotate oppositely, the gears III 1-18 drive the input roll shafts II 1-19 to rotate, the input roll shafts I1-16 and the input roll shafts II 1-19 respectively drive the two input rolls 1-20 to rotate oppositely, the two input rolls 1-20 advance the steel bars in the conveying straightening grooves 1-21 in the straightening grooves 2-13, the motor I shaft 1-3 drives the belt pulley V2-1 to rotate, the belt pulley V2-1 drives the belt pulley VI 2-3 to rotate through the belt III 2-2, the belt pulley VI 2-3 drives the middle connecting shaft 2-4 to rotate, the middle connecting shaft 2-4 drives the two circular discs 2-5 to rotate, the two disks 2-5, the dial shaft 2-6, the connecting rod I2-7 and the lifting support rod 2-8 are arranged symmetrically on two sides of the shell 1-2, the disks 2-5 drive the dial shaft 2-6 to do circular motion, the dial shaft 2-6 drives one end of the connecting rod I2-7 to do circular motion, the other end of the connecting rod I2-7 drives the lifting support rod 2-8 to slide in the sliding chute 1-23, the two lifting support rods 2-8 slide in the two sliding chutes 1-23, the two lifting support rods 2-8 drive the lifting plate 2-9 to do up-and-down reciprocating motion, two ends of the lifting plate 2-9 are connected with the shell 1-2 in a sliding manner, the lifting plate 2-9 is connected with the side plate 1-22 in a sliding manner, the lifting plate 2-9 can not turn over when vertically lifting, the lifting plate 2-9 drives the straightening hammer 2-, when the toothed part of the half gear 1-5 is meshed with the gear I1-6, the input roller 1-20 conveys the reinforcing steel bar, the straightening hammer 2-10 is lifted without interference, when the half gear 1-5 is not meshed with the gear I1-6, the input roller 1-20 stops conveying, the straightening hammer 2-10 descends to straighten the reinforcing steel bar, the straightened reinforcing steel bar is discharged from the reinforcing steel bar outlet 3-1 to finish straightening, after the input of the input roller 1-20 is finished, the residual reinforcing steel bar in the equipment can be pulled out manually to finish straightening, when the reinforcing steel bar needs to be cut off, the motor I1-1 is closed, the reinforcing steel bar is not conveyed, the rotary handle 3-2 is rotated, the rotary handle 3-2 drives the threaded shaft 3-3 to rotate, the threaded shaft 3-3 is axially limited by the slide rail 3-5, the threaded shaft 3-3 drives the slide block 3-4 to slide in the slide rail 3-5 through the thread, the slide block 3-4 drives the hinged connecting rod II 3-6 to tend to be horizontal, the connecting rod II 3-6 clamps the steel bar, the motor II 3-12 is started, the motor II 3-12 drives the motor II shaft 3-13 to rotate, the motor II shaft 3-13 drives the chain wheel I3-14 to rotate, the chain wheel I3-14 drives the three chain wheels II 3-16 to rotate through the chain 3-15, the three chain wheels II 3-16 drive the three chain wheel II shafts 3-20 to rotate, the three chain wheel II shafts 3-20 drive the three cutting saws 3-22 to rotate, at the moment, the three cutting saws 3-22 are all positioned below the cutting platform 3-9, when the steel bar needs to be cut, the corresponding lifting rotary handle 3-26 is rotated, the lifting rotary handle 3-26 drives the lifting threaded shaft 3-27 to rotate, the lifting threaded shafts 3-27 are axially limited by the cutting platform 3-9, the lifting threaded shafts 3-27 drive corresponding lifting bottom plates I3-23, lifting bottom plates II 3-24 and lifting bottom plates III 3-25 to rise through threads, the lifting bottom plates I3-23, lifting bottom plates II 3-24 and lifting bottom plates III 3-25 drive corresponding chain wheel II shaft brackets 3-21 to rise, the chain wheel II shaft brackets 3-21 drive chain wheels II shafts 3-20 to rise, the chain wheel II shafts 3-20 drive chain wheels II 3-16 to rise, the chain wheels II 3-16 drive the chain wheels I3-14 to rise through chains 3-15, the chain wheels I3-14 drive motors II 3-12 to slide upwards in the motor sliding frames 3-10 through the motor II shafts 3-13, the motors II 3-12 drive tension springs 3-11 to stretch to tension the chains 3-15, the chain wheels II 3-16 continue to rise to drive the chains 3-15 to be in contact with the chain wheels III 3-17, the chain wheels III 3-17 rotate and support the chains 3-15, and therefore the chains 3-15 are guaranteed not to interfere with the cutting platform 3-9, the cutting saws 3-22 are guaranteed to rise, power cannot be cut off and continue to rotate at a high speed, and the cutting saws 3-22 rotating at the high speed are in contact with reinforcing steel bars to cut off the reinforcing steel bars to finish cutting.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (4)

1. The utility model provides an applicable alignment cutting equipment in different diameter reinforcing bars, is including carrying assembly (1), alignment assembly (2) and cutting off assembly (3), its characterized in that: the conveying assembly (1) is connected with the straightening assembly (2), and the cutting assembly (3) is connected with the conveying assembly (1).

2. The straightening and cutting device applicable to reinforcing steel bars with different diameters as claimed in claim 1, wherein: the conveying assembly (1) comprises a motor I (1-1), a shell (1-2), a motor I shaft (1-3), a motor I shaft support (1-4), a half gear (1-5), a gear I (1-6), a gear I shaft (1-7), a belt wheel I (1-8), a belt I (1-9), a belt wheel II (1-10), a belt wheel II shaft (1-11), a belt wheel II shaft support (1-12), a belt wheel III (1-13), a belt II (1-14), a belt wheel IV (1-15), an input roller shaft I (1-16), a gear II (1-17), a gear III (1-18), an input roller shaft II (1-19), an input roller (1-20), a conveying straightening groove (1-21), The side plates (1-22), the chutes (1-23), the support legs (1-24) and the first gear shaft supports (1-25), the motor I (1-1) is connected with the shell (1-2), the motor I (1-1) is connected with the first motor shaft (1-3), the first motor shaft (1-3) is rotatably connected with the first motor shaft supports (1-4), the first motor shaft supports (1-4) are connected with the shell (1-2), the first motor shaft (1-3) is connected with the half gears (1-5), the half gears (1-5) are in meshing connection with the gears I (1-6) through tooth parts, the gears I (1-6) are connected with the first gear shaft (1-7), the first gear shaft (1-7) is rotatably connected with the first gear shaft supports (1-25), the first gear shaft (1-7) is connected with the first belt wheel (1-8), the first belt wheel (1-8) and the second belt wheel (1-10) are connected through a belt I (1-9), the second belt wheel (1-10) is connected with the second belt wheel shaft (1-11), the second belt wheel shaft (1-11) is rotatably connected with the second belt wheel shaft bracket (1-12), the second belt wheel shaft bracket (1-12) and the first gear shaft bracket (1-25) are connected with the shell (1-2), the second belt wheel shaft (1-11) is connected with the third belt wheel (1-13), the third belt wheel (1-13) and the fourth belt wheel (1-15) are connected through a belt II (1-14), the fourth belt wheel (1-15) is connected with the first input roller shaft (1-16), the first input roller shaft (1-16) is connected with the second gear (1-17), the gear II (1-17) is meshed with the gear III (1-18), the gear III (1-18) is connected with the input roll shaft II (1-19), the input roll shaft I (1-16) and the input roll shaft II (1-19) are rotatably connected with the shell (1-2), the input roll shaft I (1-16) and the input roll shaft II (1-19) are respectively connected with the two input rolls (1-20), the six conveying straightening grooves (1-21) are respectively positioned on the two input rolls (1-20), the side plates (1-22) are connected with the shell (1-2), the two sliding grooves (1-23) are respectively positioned on two sides of the shell (1-2), and four supporting legs (1-24) are respectively connected with the shell (1-2).

3. The straightening and cutting device applicable to reinforcing steel bars with different diameters as claimed in claim 1, wherein: the straightening assembly (2) comprises a belt wheel V (2-1), a belt III (2-2), a belt wheel VI (2-3), an intermediate connecting shaft (2-4), a disc (2-5), a shifting shaft (2-6), a connecting rod I (2-7), a lifting support rod (2-8), a lifting plate (2-9), a straightening hammer (2-10), a straightening bottom plate (2-11), an inclined plane (2-12), a straightening groove (2-13) and a bottom plate support leg (2-14), a motor I shaft (1-3) is connected with the belt wheel V (2-1), the belt wheel V (2-1) and the belt wheel VI (2-3) are connected through the belt III (2-2), the belt wheel VI (2-3) is connected with the intermediate connecting shaft (2-4), the middle connecting shaft (2-4) is connected with two discs (2-5), the middle connecting shaft (2-4) is rotationally connected with the shell (1-2), the discs (2-5), the shifting shaft (2-6), the connecting rod I (2-7) and the lifting support rod (2-8) are respectively provided with two discs, the discs (2-5) are connected with the shifting shaft (2-6), the shifting shaft (2-6) is rotationally connected with one end of the connecting rod I (2-7), the other end of the connecting rod I (2-7) is rotationally connected with the lifting support rod (2-8), the two lifting support rods (2-8) are respectively connected with two chutes (1-23) in a sliding manner, the two lifting support rods (2-8) are respectively connected with the lifting plate (2-9), two ends of the lifting plate (2-9) are respectively connected with the shell (1-2) in a sliding manner, the lifting plate (2-9) is connected with the side plate (1-22) in a sliding mode, the inclined surface (2-12) is connected with the straightening bottom plate (2-11), the inclined surface (2-12) and the straightening bottom plate (2-11) are connected with the shell (1-2), the straightening groove (2-13) is located on the straightening bottom plate (2-11), the straightening bottom plate (2-11) is connected with the bottom plate supporting leg (2-14), and the bottom plate supporting leg (2-14) is connected with the shell (1-2).

4. The straightening and cutting device applicable to reinforcing steel bars with different diameters as claimed in claim 1, wherein: the cutting-off assembly (3) comprises a steel bar outlet (3-1), a rotary handle (3-2), a threaded shaft (3-3), a sliding block (3-4), a sliding rail (3-5), a connecting rod II (3-6), a clamping connecting rod (3-7), a clamping connecting rod support lug (3-8), a cutting-off platform (3-9), a motor sliding frame (3-10), a tension spring (3-11), a motor II (3-12), a motor II shaft (3-13), a chain wheel I (3-14), a chain (3-15), a chain wheel II (3-16), a chain wheel III (3-17), a chain wheel III support (3-18), a cutting-off sliding rail (3-19), a chain wheel II shaft (3-20), a chain wheel II shaft support (3-21), a cutting-off saw (3-22), A lifting base plate I (3-23), a lifting base plate II (3-24), a lifting base plate III (3-25), lifting rotating handles (3-26), lifting threaded shafts (3-27) and chain wheel III shafts (3-28), a reinforcing steel bar outlet (3-1) is positioned on a side plate (1-22), a rotating handle (3-2) is connected with a threaded shaft (3-3), the threaded shaft (3-3) is rotationally connected with a sliding rail (3-5), the threaded shaft (3-3) is in threaded connection with a sliding block (3-4), the sliding block (3-4) is in sliding connection with the sliding rail (3-5), the sliding rail (3-5) is connected with a cutting platform (3-9), the sliding block (3-4) is hinged with a connecting rod II (3-6), the connecting rod II (3-6) is hinged with a clamping connecting rod (3-7), the clamping connecting rod (3-7) is hinged with a clamping connecting rod support lug (3-8), the clamping connecting rod support lug (3-8) is connected with a cutting platform (3-9), a motor II (3-12) is connected with a motor carriage (3-10) in a sliding mode, two ends of a tension spring (3-11) are respectively connected with the motor II (3-12) and the motor carriage (3-10), the tension spring (3-11) is in a normal state, the motor II (3-12) is connected with a motor II shaft (3-13), the motor II shaft (3-13) is connected with a chain wheel I (3-14), the chain wheel I (3-14) and three chain wheels II (3-16) are connected through chains (3-15), the three chain wheels II (3-16) are respectively connected with three chain wheel II shafts (3-20), three chain wheel II shafts (3-20) are respectively rotatably connected with three chain wheel II shaft supports (3-21), the three chain wheel II shaft supports (3-21) are respectively connected with a lifting bottom plate I (3-23), a lifting bottom plate II (3-24) and a lifting bottom plate III (3-25), the lifting bottom plate I (3-23), the lifting bottom plate II (3-24) and the lifting bottom plate III (3-25) are respectively slidably connected with four cutting slide rails (3-19), the four cutting slide rails (3-19) are respectively connected with a cutting platform (3-9), the four chain wheel III supports (3-18) are respectively connected with the cutting platform (3-9), the four chain wheel III supports (3-18) are respectively rotatably connected with the four chain wheel III shafts (3-28), the four chain wheel III shafts (3-28) are respectively rotatably connected with the four chain wheels III (3-17), three chain wheel II shafts (3-20) are respectively connected with three cutting saws (3-22), three lifting rotary handles (3-26) are respectively connected with three lifting threaded shafts (3-27), the three lifting threaded shafts (3-27) are respectively in rotary connection with a cutting platform (3-9), and the three lifting threaded shafts (3-27) are respectively in threaded connection with a lifting bottom plate I (3-23), a lifting bottom plate II (3-24) and a lifting bottom plate III (3-25).

Images