CN113579350B - Steel construction material cutting device of high security - Google Patents

Abstract

The invention discloses a high-safety steel structural material cutting device, and particularly relates to the technical field of steel structural material cutting, wherein the device comprises a feeding box, wherein a cutting box is arranged on one side of the feeding box, a cutting mechanism is arranged in the cutting box, a transmission mechanism is arranged on one side of the cutting mechanism, and a feeding mechanism is arranged in the feeding box; the cutting mechanism comprises a transmission rod arranged inside the cutting box. According to the invention, the cutting mechanism is arranged, the fixed rotating rod drives the two connecting blocks to enable the two powerful electromagnets to start to contact the steel structure material on the conveying toothed belt, the steel structure material is powerfully absorbed by electrifying, and the steel structure material starts to contact the two friction belts, so that the steel structure material can be circularly cut, the cutting stability is kept, the cutting efficiency of the steel structure material is effectively improved, the steel structure material is not easy to shake during cutting, the cutting precision is higher, and the cutting quality is higher.

Description

Steel construction material cutting device of high security

Technical Field

The invention relates to the technical field of steel structure material cutting, in particular to a high-safety steel structure material cutting device.

Background

Steel structures are structures composed of steel materials and are one of the main building structure types. The structure mainly comprises steel beams, steel columns, steel trusses and other members made of section steel, steel plates and the like, and rust removing and preventing processes such as silanization, pure manganese phosphating, washing drying, galvanization and the like are adopted. Welding seams, bolts or rivets are usually adopted for connecting all components or parts, the steel structure material is light in self weight and simple and convenient to construct, and can be widely applied to the fields of large-scale factory buildings, venues, super high-rise buildings and the like.

Among the prior art, when cutting steel construction material, can't carry out the continuity cutting, reduced cutting efficiency like this, be unfavorable for carrying out the fly-cutting operation, simultaneously in cutting process stability relatively poor, easily cause the cutting accuracy low, be unfavorable for stably carrying out cutting operation.

Disclosure of Invention

In order to overcome the defects in the prior art, the embodiment of the invention provides a high-safety steel structure material cutting device, by arranging a cutting mechanism, the steel structure material can be circularly cut, the cutting stability is kept, the cutting efficiency of the steel structure material is effectively improved, the steel structure material is not easy to shake during cutting, the cutting precision is higher, the cutting quality is higher, and the problems in the background art are solved.

In order to achieve the purpose, the invention provides the following technical scheme: a high-safety steel structure material cutting device comprises a feeding box, wherein a cutting box is arranged on one side of the feeding box, a cutting mechanism is arranged in the cutting box, a transmission mechanism is arranged on one side of the cutting mechanism, and a feeding mechanism is arranged in the feeding box;

the cutting mechanism is including setting up the transfer line of cutting incasement portion, servo motor is installed to transfer line one end, the transfer line outside is the circumference array and is provided with a plurality of connecting bull sticks, it is provided with fixed bull stick to connect the bull stick outside, fixed bull stick outside is provided with two connecting blocks, the embedding of connecting block one side is provided with powerful electromagnetic, it is connected with the driving disc to connect bull stick one end, driving disc one side is provided with two friction belts, the inside a plurality of location axostylus axostyles that are provided with of friction belt, the inside rolling axostylus axostyle that is provided with of location axostylus axostyle, the outside steady lantern ring board that all is provided with in rolling axostylus axostyle both ends, cutting incasement wall top is provided with the pan feeding guide, pan feeding guide top is connected with a plurality of connections and is led the piece, it is connected with the arc and is led the board to connect and is led piece one side.

In a preferred embodiment, a cutting blade is arranged between the two friction belts, a cutting rod is installed at one end of the cutting blade, a cutting motor is installed at one end of the cutting rod, and two ends of the cutting rod are respectively and fixedly connected with the cutting blade and the output end of the cutting motor in a pairwise mode.

In a preferred embodiment, a pushing plate is installed at the bottom end of the cutting motor, a transverse screw ring block is arranged on one side of the pushing plate, a transverse threaded transmission rod is arranged inside the transverse screw ring block, a longitudinal screw ring block is arranged on the adjacent side of the pushing plate, and a longitudinal screw rod is installed at one end of the longitudinal screw ring block.

In a preferred embodiment, the transmission mechanism comprises two conveying toothed belts arranged at the bottom ends of the friction belts, two transmission gears are arranged inside the conveying toothed belts, an adjusting gear is arranged between the two transmission gears, a movable collar plate is arranged between the two adjusting gears, a conveying rotating rod is movably arranged inside the movable collar plate, and the conveying rotating rod is fixedly connected with the adjusting gears.

In a preferred embodiment, an adjusting bracket is installed at the bottom end of the movable collar plate, a threaded ring block is installed at one end of the adjusting bracket, a transmission screw rod is arranged inside the threaded ring block, and an adjusting motor is installed at the bottom end of the transmission screw rod.

In a preferred embodiment, a guide plate is arranged on one side above the conveying toothed belt, an inclined sliding plate is arranged on one side of the guide plate, the inclined sliding plate and the guide plate are fixedly connected, and the inclined sliding plate is made of alloy materials.

In a preferred embodiment, cutting blade installs the below and inhales the hopper, inhale hopper one end and install the dust exhaust fan, dust exhaust fan output is installed and is connected the dispersion pipe, connect dispersion pipe one end and install the induction-pipe, the induction-pipe outside is the circumference array and is provided with a plurality of circular pipes, adjacent two be provided with between the circular pipe and rub a plurality of access pipes, it is a plurality of the circular pipe is arranged and the diameter increases in proper order from inside to outside, a plurality of lower spray tubes are installed to circular socle end.

In a preferred embodiment, drive mechanism is including setting up the actuating lever of cutting mechanism one side, the outside cover in actuating lever one end is equipped with first drive gear, first drive gear one side is provided with second drive gear, the inside swing joint of second drive gear has the drive shaft, second drive gear one side is provided with third drive gear, the inside swing joint of third drive gear has the access bull stick, access bull stick one end installs driving motor.

In a preferred embodiment, an electrical control cabinet is installed on one side of the cutting box, a control button is installed on one side of the electrical control cabinet, and the control button is fixedly connected with the electrical control cabinet through a bolt.

The invention has the technical effects and advantages that:

1. the invention adopts the cutting mechanism to drive the fixed rotating rod to drive the two connecting blocks, the two powerful electromagnets start to contact the steel structure material on the conveying toothed belt, the steel structure material is powerfully absorbed by electrifying, the steel structure material starts to contact the two friction belts, the steel structure material can carry out cutting operation with the cutting blade, the cut steel structure material can be driven to the feeding guide disc, thus forming the effect of circular cutting, and the steel structure material is subjected to the friction force of the friction belts and the magnetic attraction force of the powerful electromagnets in the circular cutting process, thus ensuring the high stability during cutting, and can be rotated to the connecting lead-in block for collection after cutting, thus not only leading the steel structure material to carry out circular cutting, but also keeping the cutting stability, effectively improving the cutting efficiency of the steel structure material, and being not easy to shake during cutting, the cutting precision is higher, the cutting quality is higher, the cutting operation can be realized only by discharging, so that the accidental injury caused by the contact of operators with a mechanical transmission part is avoided, and the safety is higher;

2. according to the invention, the feeding mechanism is utilized to drive the adjusting motor to drive the transmission screw rod to rotate, the thread ring block drives the movable collar plate to drive the conveying rotating rod to move upwards, the two adjusting gears move upwards, the adjusting gears can rotate on the conveying rotating rod, and the conveying rotating rod can stably rotate on the movable collar plate, so that the transmission force of the conveying toothed belt can be improved in the material conveying process, the stability of a steel material structure in the conveying process can be kept, the conveying toothed belt is not easy to bend and deform, and the conveying parallelism of a steel structure material is kept;

3. according to the invention, the transmission mechanism is adopted to enable the access rotating rod to drive the third transmission gear to rotate, the second transmission gear drives the first transmission gear to rotate, the second transmission gear drives the driving rod to rotate, and the driving rod drives the transmission gear, so that multi-gear stable transmission can be formed, the conveying toothed belt is not easy to shake in the conveying process, meanwhile, gears are meshed, the transmission meshing force is larger, and the transmission is more labor-saving.

Drawings

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

Fig. 2 is a schematic side-view perspective structure of the present invention.

Fig. 3 is an overall sectional structural view of the present invention.

Fig. 4 is a schematic view of the partially broken-away structure of fig. 3 according to the present invention.

Fig. 5 is an enlarged schematic view of a portion a in fig. 3 according to the present invention.

Fig. 6 is a schematic view of the structure of the joint between the driving rod and the first transmission gear according to the present invention.

Fig. 7 is a schematic view of the overall structure of the feeding guide disc of the present invention.

Fig. 8 is a schematic view of the structure of the lower part of the cutting motor of the present invention.

FIG. 9 is a schematic view of a portion of the connecting rod of the present invention.

The reference signs are: 1. a feeding box; 2. cutting the box; 3. a transmission rod; 4. a servo motor; 5. connecting the rotating rod; 6. fixing the rotating rod; 7. connecting blocks; 8. a powerful electromagnet; 9. a drive plate; 10. rubbing the belt; 11. positioning the shaft lever; 12. a rolling shaft rod; 13. stabilizing the collar plate; 14. feeding a guide disc; 15. connecting the guide block; 16. an arc-shaped guide-in plate; 17. a cutting blade; 18. cutting the rod; 19. cutting the motor; 20. a push plate; 21. a transverse screw ring block; 22. a transverse threaded drive rod; 23. a longitudinal helicoidal block; 24. a longitudinal screw rod; 25. a conveying toothed belt; 26. a transmission gear; 27. an adjusting gear; 28. a movable collar plate; 29. a conveying rotating rod; 30. a threaded ring block; 31. adjusting the motor; 32. a guide plate; 33. an inclined sliding plate; 34. a suction hopper; 35. a dust exhaust fan; 36. connecting a dispersion pipe; 37. an introducing pipe; 38. a circular tube; 39. an access pipe; 40. a lower nozzle; 41. a drive rod; 42. a first drive gear; 43. a second transmission gear; 44. a drive shaft; 45. a third transmission gear; 46. a rotating rod is connected; 47. a drive motor; 48. a transmission screw rod; 49. and adjusting the bracket.

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.

The high-safety steel structure material cutting device shown in the attached figures 1-9 comprises a feeding box 1, wherein a cutting box 2 is arranged on one side of the feeding box 1, a cutting mechanism is arranged in the cutting box 2, a transmission mechanism is arranged on one side of the cutting mechanism, and a feeding mechanism is arranged in the feeding box 1;

cutting mechanism is including setting up at the inside transfer line 3 of cutting case 2, servo motor 4 is installed to 3 one ends of transfer line, 3 outside of transfer line is the circumference array and is provided with a plurality of commentaries on classics poles of connecting 5, it is provided with fixed bull stick 6 to connect 5 outside of bull stick, fixed bull stick 6 outside is provided with two connecting blocks 7, the embedding of connecting block 7 one side is provided with powerful electromagnet 8, it is connected with driving disc 9 to connect 5 one end of bull stick, driving disc 9 one side is provided with two friction belt 10, the inside a plurality of locating shaft pole 11 that is provided with of friction belt 10, the inside rolling axostylus axostyle 12 that is provided with of locating shaft pole 11, the outside solid lantern ring board 13 that all is provided with in rolling axostylus axostyle 12 both ends, cutting case 2 inner wall top is provided with pan feeding guide 14, pan feeding guide 14 top is connected with a plurality of connections and is led into piece 15, it is connected with arc and is led into board 16 to connect and lead into piece 15 one side.

As shown in fig. 2 and fig. 3 and 5, a cutting blade 17 is arranged between the two friction belts 10, a cutting rod 18 is mounted at one end of the cutting blade 17, a cutting motor 19 is mounted at one end of the cutting rod 18, and two ends of the cutting rod 18 are respectively fixedly connected with output ends of the cutting blade 17 and the cutting motor 19 in pairs, so that the cutting motor 19 drives the cutting rod 18 to rotate the cutting blade 17, and thus the cutting blade 17 can perform stable cutting operation on the steel structure material in the rotating process.

As shown in fig. 8, a pushing plate 20 is installed at the bottom end of the cutting motor 19, a transverse screw ring block 21 is arranged on one side of the pushing plate 20, a rotating transverse threaded transmission rod 22 is arranged inside the transverse screw ring block 21, a longitudinal screw ring block 23 is arranged on the adjacent side of the pushing plate 20, a longitudinal screw rod 24 is installed at one end of the longitudinal screw ring block 23 so that the transverse threaded transmission rod 22 can be rotated, the rotating transverse threaded transmission rod 22 can rotate in the transverse screw ring block 21, the rotating transverse threaded transmission rod 22 can extrude the pushing plate 20 to move transversely, and then the rotating longitudinal screw rod 24 rotates in the longitudinal screw ring block 23 so that the pushing plate 20 can be extruded to move longitudinally, so that the position of the cutting motor 19 can be finely adjusted conveniently, and the cutting depth and the offset position can be adjusted conveniently.

As shown in fig. 3, 4 and 5, the transmission mechanism includes two conveying belts 25 disposed at the bottom end of the friction belt 10, two transmission gears 26 are disposed inside the conveying belts 25, an adjusting gear 27 is disposed between the two transmission gears 26, a movable collar plate 28 is disposed between the two adjusting gears 27, a conveying rotating rod 29 is movably disposed inside the movable collar plate 28, and the conveying rotating rod 29 and the adjusting gear 27 are fixedly connected, so that the transmission gears 26 and the adjusting gear 27 can transmit simultaneously, the adjusting gear 27 can rotate on the conveying rotating rod 29, and the conveying rotating rod 29 can stably rotate on the movable collar plate 28.

As shown in fig. 4, an adjusting bracket 49 is installed at the bottom end of the movable collar plate 28, a threaded ring block 30 is installed at one end of the adjusting bracket 49, a transmission screw rod 48 is arranged inside the threaded ring block 30, and an adjusting motor 31 is installed at the bottom end of the transmission screw rod 48, so that the adjusting motor 31 drives the transmission screw rod 48 to drive the threaded ring block 30 to move upwards under the action of threads, and the movable collar plate 28 drives the two adjusting gears 27 to move upwards to adjust the tightness.

As shown in fig. 4, a guide plate 32 is disposed on one side above the conveying belt 25, an inclined sliding plate 33 is disposed on one side of the guide plate 32, the inclined sliding plate 33 is fixedly connected with the guide plate 32, and the inclined sliding plate 33 is made of an alloy material, so that a steel structural material can be neatly slid into the guide plate 32 through the inclined sliding plate 33 and placed above the conveying belt 25.

As shown in fig. 1 and fig. 3, a suction hopper 34 is installed below the cutting blade 17, a dust exhaust fan 35 is installed at one end of the suction hopper 34, a connection dispersion pipe 36 is installed at an output end of the dust exhaust fan 35, a lead-in pipe 37 is installed at one end of the connection dispersion pipe 36, a plurality of circular pipes 38 are arranged outside the lead-in pipe 37 in a circumferential array, a plurality of inlet pipes 39 are arranged between two adjacent circular pipes 38, the circular pipes 38 are arranged from inside to outside and have diameters sequentially increased, a plurality of lower spray pipes 40 are installed at the bottom ends of the circular pipes 38, so that the dust exhaust fan 35 sucks the cutting dust into the connection dispersion pipe 36, enters the circular pipes 38 along the lead-in pipe 37, then enters the lower spray pipes 40 along the inlet pipes 39, is dispersed and discharged out by the lower spray pipes 40, and is conveniently dispersed and discharged in an outward expanding manner, thereby the dust can be diffused more quickly and is not easy to accumulate at a discharge port, the damage of parts of the equipment caused by excessive dust and impurities accumulated in the cutting box 2 is also avoided, and the safety is higher.

As shown in fig. 5 and 6, the transmission mechanism includes a driving rod 41 disposed on one side of the cutting mechanism, a first transmission gear 42 is sleeved outside one end of the driving rod 41, a second transmission gear 43 is disposed on one side of the first transmission gear 42, a driving shaft 44 is movably connected inside the second transmission gear 43, a third transmission gear 45 is disposed on one side of the second transmission gear 43, an access rotating rod 46 is movably connected inside the third transmission gear 45, a driving motor 47 is installed on one end of the access rotating rod 46, so that the driving motor 47 drives the access rotating rod 46 to rotate the second transmission gear 43, and the second transmission gear 43 drives the first transmission gear 42 to rotate the driving rod 41.

As shown in the attached drawing 1, an electric appliance control cabinet is installed on one side of a cutting box 2, a control button is installed on one side of the electric appliance control cabinet, the control button is fixedly connected with the electric appliance control cabinet through a bolt, so that the control button can control the start and stop of equipment, and meanwhile, an electric appliance is installed and configured in the electric appliance control cabinet to play a dustproof role.

The working principle of the invention is as follows: when the conveying toothed belt 25 is adjusted, the adjusting motor 31 can be started to drive the transmission screw rod 48 to rotate, the transmission screw rod 48 drives the threaded ring block 30 to move upwards under the action of threads, the threaded ring block 30 drives the movable collar plate 28 to move upwards, the movable collar plate 28 drives the conveying rotating rod 29 to move upwards, the conveying rotating rod 29 drives the two adjusting gears 27 to move upwards, and after the tightness adjustment of the two ends of the conveying toothed belt 25 is finished;

during stacking feeding, steel structure material plates can be neatly slid into the guide plate 32 through the inclined sliding plate 33, the steel structure material plates are stacked on the two conveying toothed belts 25 through the guide plate 32, the driving motor 47 is started to drive the access rotating rod 46 to rotate, the access rotating rod 46 drives the second transmission gear 43 to rotate, the second transmission gear 43 drives the second transmission gear 43 on the driving shaft 44 to rotate, the second transmission gear 43 drives the first transmission gear 42 to rotate, the second transmission gear 43 drives the driving rod 41 to rotate, the driving rod 41 drives the transmission gear 26 to rotate, the transmission gear 26 drives the two conveying toothed belts 25 to rotate, meanwhile, the conveying toothed belts 25 are also driven on the adjusting gear 27, and therefore the conveying toothed belts 25 can drive the steel structure materials to be conveyed to the positions of the two friction belts 10;

when in transmission cutting, the servo motor 4 is started simultaneously to drive the transmission rod 3 to rotate, the transmission rod 3 drives the transmission disc 9 to rotate, the transmission disc 9 drives the connecting rotating rod 5 to rotate, the connecting rotating rod 5 enables the fixed rotating rod 6 to drive the two connecting blocks 7 to rotate, the connecting blocks 7 drive the two powerful electromagnets 8 to start to contact with the steel structure material on the conveying toothed belt 25, the powerful electromagnets 8 are electrified to suck the steel structure material, the steel structure material is driven to start to contact with the two friction belts 10 along with the transmission of the transmission disc 9, the friction belts 10 can rotate on the positioning shaft lever 11, the positioning shaft lever 11 drives the rolling shaft lever 12 to rotate on the stable lantern ring plate 13, the cutting motor 19 is started again to drive the cutting rod 18 to rotate, the cutting rod 18 drives the cutting blade 17 to rotate, when the steel structure material is conveyed to the bending positions of the two friction belts 10, the steel structure material and the cutting blade 17 are cut, the cut steel structure material is driven to the feeding guide disc 14, meanwhile, the powerful electromagnet 8 is not electrified, the cut steel structure material falls onto the connecting and guiding block 15 and enters the arc-shaped guiding plate 16 through the connecting and guiding block 15, and a circular cutting guide is formed;

during dust removal, the dust exhaust fan 35 is started to enable the suction hopper 34 to suck the cutting dust in the cutting box 2 into the connecting dispersion pipe 36, the cutting dust is injected into the inlet pipe 37 through the connecting dispersion pipe 36, enters the circular pipe 38 through the inlet pipe 37, is injected into the access pipe 39 through the circular pipes 38, is injected into the lower spray pipes 40 along the access pipe 39, and is dispersed and discharged outside through the lower spray pipes 40.

The points to be finally explained are: first, in the description of the present application, it should be noted that, unless otherwise specified and limited, the terms "mounted," "connected," and "connected" should be understood broadly, and may be a mechanical connection or an electrical connection, or a communication between two elements, and may be a direct connection, and "upper," "lower," "left," and "right" are only used to indicate a relative positional relationship, and when the absolute position of the object to be described is changed, the relative positional relationship may be changed;

secondly, the method comprises the following steps: in the drawings of the disclosed embodiments of the invention, only the structures related to the disclosed embodiments are referred to, other structures can refer to common designs, and the same embodiment and different embodiments of the invention can be combined with each other without conflict;

and finally: the above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that are within the spirit and principle of the present invention are intended to be included in the scope of the present invention.

Claims (9)

1. The utility model provides a steel structural material cutting device of high security, includes feed box (1), its characterized in that: a cutting box (2) is arranged on one side of the feeding box (1), a cutting mechanism is arranged in the cutting box (2), a transmission mechanism is arranged on one side of the cutting mechanism, and a feeding mechanism is arranged in the feeding box (1);

the cutting mechanism comprises a transmission rod (3) arranged inside the cutting box (2), a servo motor (4) is installed at one end of the transmission rod (3), a plurality of connecting rotating rods (5) are arranged on the outer portion of the transmission rod (3) in a circumferential array mode, a fixed rotating rod (6) is arranged on the outer portion of each connecting rotating rod (5), two connecting blocks (7) are arranged on the outer portion of each fixed rotating rod (6), powerful electromagnets (8) are embedded into one sides of the connecting blocks (7), one end of each connecting rotating rod (5) is connected with a transmission disc (9), two friction belts (10) are arranged on one side of each transmission disc (9), a plurality of positioning shaft levers (11) are arranged inside the friction belts (10), rolling shaft levers (12) are arranged inside the positioning shaft levers (11), and stabilizing sleeve plates (13) are arranged on the outer portions of the two ends of the rolling shaft levers (12), cutting case (2) inner wall top is provided with pan feeding guide plate (14), pan feeding guide plate (14) top is connected with a plurality of connections and leads into piece (15), it leads into piece (15) one side and is connected with arc and leads into board (16) to connect.

2. The high-safety steel structural material cutting device as claimed in claim 1, wherein: two be provided with cutting blade (17) between friction belt (10), cutting blade (17) one end installation cutting pole (18), cutting motor (19) are installed to cutting pole (18) one end, cutting pole (18) both ends respectively with cutting blade (17) with cutting motor (19) output fixed connection between two liang.

3. The high-safety steel structural material cutting device as claimed in claim 2, wherein: push plate (20) are installed to cutting motor (19) bottom, push plate (20) one side is provided with horizontal screw ring piece (21), horizontal screw ring piece (21) inside is provided with rotates horizontal screw thread transfer line (22), push plate (20) adjacent side is provided with vertical screw ring piece (23), vertical lead screw (24) are installed to vertical screw ring piece (23) one end.

4. The high-safety steel structural material cutting device as claimed in claim 1, wherein: drive mechanism is including setting up two conveying toothed belt (25) of friction belt (10) bottom, conveying toothed belt (25) inside is provided with two drive gear (26), two be provided with between drive gear (26) adjusting gear (27), two be provided with between adjusting gear (27) activity lantern ring board (28), activity lantern ring board (28) inside activity is provided with carries bull stick (29), carry bull stick (29) with fixed connection between adjusting gear (27).

5. The high-safety steel structural material cutting device as claimed in claim 4, wherein: adjusting support (49) is installed to activity lantern ring board (28) bottom, screw ring piece (30) is installed to adjusting support (49) one end, screw ring piece (30) inside is provided with drive screw (48) adjustment motor (31) are installed to drive screw (48) bottom.

6. The high-safety steel structural material cutting device as claimed in claim 4, wherein: a guide plate (32) is arranged on one side above the conveying toothed belt (25), an inclined sliding plate (33) is arranged on one side of the guide plate (32), the inclined sliding plate (33) is fixedly connected with the guide plate (32), and the inclined sliding plate (33) is made of alloy materials.

7. The high-safety steel structural material cutting device as claimed in claim 2, wherein: cutting blade (17) below is installed and is inhaled hopper (34), inhale hopper (34) one end and install dust exhaust fan (35), dust exhaust fan (35) output is installed and is connected dispersion pipe (36), it installs leading-in pipe (37) to connect dispersion pipe (36) one end, leading-in pipe (37) outside is the circumference array and is provided with a plurality of circular pipes (38), adjacent two be provided with between circular pipe (38) and rub a plurality of access pipe (39), a plurality of circular pipe (38) are arranged and the diameter increases in proper order from inside to outside, a plurality of lower spray tube (40) are installed to circular pipe (38) bottom.

8. The high-safety steel structural material cutting device as claimed in claim 1, wherein: drive mechanism is including setting up actuating lever (41) of cutting mechanism one side, the outside cover in actuating lever (41) one end is equipped with first drive gear (42), first drive gear (42) one side is provided with second drive gear (43), the inside swing joint of second drive gear (43) has drive shaft (44), second drive gear (43) one side is provided with third drive gear (45), the inside swing joint of third drive gear (45) has access bull stick (46), access bull stick (46) one end and install driving motor (47).

9. The high-safety steel structural material cutting device as claimed in claim 1, wherein: an electrical appliance control cabinet is installed on one side of the cutting box (2), a control button is installed on one side of the electrical appliance control cabinet, and the control button is fixedly connected with the electrical appliance control cabinet through bolts.

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