CN116117231A - Circular sawing machine for high-temperature alloy steel bar material sawing - Google Patents

Abstract

The invention discloses a circular sawing machine for sawing high-temperature alloy steel bars, which comprises a lathe bed, a feeding mechanism, a clamping mechanism and a sawing mechanism, wherein the feeding mechanism, the clamping mechanism and the sawing mechanism are arranged on the lathe bed, the clamping mechanism is positioned below the feeding mechanism, the sawing mechanism is positioned in front of the clamping mechanism, the sawing mechanism comprises a motor, a speed reducer, a circular saw blade and a ball screw sliding table module III, the motor and the speed reducer are arranged on a sliding table of the ball screw sliding table module III, the driving end of the motor is in transmission connection with the input end of the speed reducer, the circular saw blade is arranged at the output end of the speed reducer, the speed reducer has a reduction ratio of 32.9, and the speed reducer comprises a box body, a four-stage parallel gear pair mechanism, an input shaft and an output shaft.

Description

Circular sawing machine for high-temperature alloy steel bar material sawing

[ field of technology ]

The invention relates to the technical field of bar sawing equipment, in particular to the technical field of circular sawing machines for sawing high-temperature alloy steel bars.

[ background Art ]

The high-temperature alloy is a metal material which takes iron, nickel and cobalt as base and can work for a long time under the action of a certain stress at the high temperature of above 600 ℃; and has the advantages of high-temperature strength, good oxidation resistance, corrosion resistance, good fatigue performance, fracture toughness and other comprehensive performances. The high-temperature alloy is a single austenite structure, has good structure stability and use reliability at various temperatures, is high in alloying degree based on the performance characteristics, is also called as super alloy, and is an important material widely applied to aviation, aerospace, petroleum, chemical industry and ships. The high-temperature alloy is divided into iron-based, nickel-based, cobalt-based and other high-temperature alloys according to the matrix elements. Iron-based superalloys are typically used at temperatures up to 750-780 ℃, and for heat resistant components used at higher temperatures, alloys based on nickel and refractory metals are used. Nickel-based superalloys are particularly important in the field of superalloys, which are widely used to manufacture the hottest end components of aviation jet engines, and various industrial gas turbines.

In the prior art, a metal bar is generally sawed by a metal circular sawing machine so as to reach the required length, a gear box is a core component on the metal circular sawing machine, and an existing saw disc main shaft is driven by a motor through a speed reducing mechanism (gear box), so that the saw disc main shaft needs larger torque and also needs higher sawing stability. The applicant has filed the application (patent) with the following number: the patent CN202022837430.2 issued a patent relates to a gearbox for a numerical control steel plate sawing and milling machine with low energy consumption and high rigidity, which can improve the torque output and ensure the sawing stability, but is generally used for sawing carbon structural steel, and because of the performance of the superalloy bar, the rotating speed requirement on the saw blade is larger compared with the patent, and the rotating speed and torque of the required motor are higher compared with the patent, so that the patent cannot adapt to the application of the application.

[ invention ]

The invention aims to solve the problems in the prior art, and provides a circular sawing machine for sawing high-temperature alloy steel bars, which can be suitable for cutting and processing the high-temperature alloy steel bars, and has the advantages of high automation degree and simple structure.

In order to achieve the above purpose, the invention provides a circular sawing machine for sawing high-temperature alloy steel bars, which comprises a machine body, a feeding mechanism, a clamping mechanism and a sawing mechanism, wherein the feeding mechanism, the clamping mechanism and the sawing mechanism are arranged on the machine body, the clamping mechanism is positioned below the feeding mechanism, the sawing mechanism is positioned in front of the clamping mechanism, the sawing mechanism comprises a motor, a speed reducer, a circular saw blade and a ball screw sliding table module III, a motor and the speed reducer are arranged on a sliding table of the ball screw sliding table module III, a driving end of the motor is in transmission connection with an input end of the speed reducer, an output end of the speed reducer is provided with the circular saw blade, a reduction ratio of the speed reducer is 33.5, the speed reducer comprises a box body, a four-stage parallel gear pair mechanism, an input shaft and an output shaft, the input shaft are in transmission connection with the output shaft through the four-stage parallel gear pair mechanism, the clamping mechanism comprises a base, a fixed clamp body and a side clamping assembly, the base is provided with the fixed clamp body and the side clamping assembly which are correspondingly arranged, the side clamping assembly comprises the pressing clamp body, the movable clamp body and the sliding seat is connected with the driving end of the sliding seat, and the sliding seat is provided with the movable clamp body.

Preferably, the four-stage parallel gear pair mechanism comprises a gear shaft I, a gear shaft II, a gear shaft III, a primary gear pair, a secondary gear pair, a tertiary gear pair and a four-stage gear pair, wherein the input shaft is in transmission connection with the gear shaft I through the primary gear pair, the gear shaft I is in transmission connection with the gear shaft II through the secondary gear pair, the gear shaft II is in transmission connection with the gear shaft III through the tertiary gear pair, the gear shaft III is in transmission connection with the output shaft through the four-stage gear pair, the reduction ratio of the primary gear pair is 1.3, the reduction ratio of the secondary gear pair is 3.3, the reduction ratio of the tertiary gear pair is 2.9, and the reduction ratio of the four-stage gear pair is 2.7.

Preferably, the speed reducer further comprises a brake shaft, a brake gear and a magnetic powder brake, wherein the upper end of the brake shaft is in transmission connection with the four-stage gear pair through the brake gear, and the magnetic powder brake is fixedly connected with the lower end of the brake shaft.

Preferably, the clamping mechanism further comprises an upper clamping assembly of the same structure as the side clamping assembly.

Preferably, the output end of the base is sequentially provided with a fixed blanking groove and a rotary blanking groove, and the base is provided with a cylinder for driving the rotary blanking groove to act.

Preferably, the driving end of the motor is provided with a small belt pulley, the input end of the input shaft is provided with a large belt pulley, and belts are arranged on the small belt pulley and the large belt pulley.

Preferably, the feeding mechanism comprises a ball screw sliding table module I, a ball screw sliding table module II which is obliquely arranged and a supporting roller which is positioned in front of the ball screw sliding table module II are arranged on a sliding table of the ball screw sliding table module I, a supporting table is arranged on a sliding table of the ball screw sliding table module II, a pressing mechanism and a supporting body corresponding to the pressing mechanism are arranged on the supporting table, and a supporting roller is arranged on a front screw supporting seat of the ball screw sliding table module I.

Preferably, the compressing mechanism comprises a plurality of guide slide bars, compressing bodies and a feeding oil cylinder, wherein the compressing bodies are arranged on the driving end of the feeding oil cylinder and the guide slide bars.

Preferably, the driving end of the pressing oil cylinder is provided with a T-shaped movable joint with a downward large end, the sliding seat is provided with a clamping groove used for being connected with the T-shaped movable joint, and the T-shaped movable joint can freely move in a certain range in the clamping groove.

The invention has the beneficial effects that: according to the invention, the four-stage parallel gear pair mechanism, the input shaft and the output shaft are arranged in the box body, the input shaft is in transmission connection with the output shaft through the four-stage parallel gear pair mechanism, the reduction ratio of the speed reducer is 33.5, the automatic feeding is carried out through the feeding mechanism, the bar is clamped and fixed through the clamping mechanism, and then the sawing is carried out through the sawing mechanism. Compared with the prior art, the cutting machine can be suitable for cutting and processing high-temperature alloy steel bars, and has high degree of automation and simple structure.

The features and advantages of the present invention will be described in detail by way of example with reference to the accompanying drawings.

[ description of the drawings ]

FIG. 1 is a schematic view of a circular sawing machine for sawing superalloy steel rods in accordance with the present invention;

FIG. 2 is a partial cross-sectional view of the sawing mechanism;

FIG. 3 is a schematic structural view of the clamping mechanism;

fig. 4 is a schematic structural view of the feeding mechanism.

In the figure: the machine comprises a machine body, a 2-feeding mechanism, a 3-clamping mechanism, a 4-sawing mechanism, a 21-ball screw sliding table module I, a 22-ball screw sliding table module II, a 23-supporting table, a 24-compressing mechanism, a 25-supporting body, a 26-supporting roller, a 31-base, a 32-fixed clamping body, a 33-side clamping assembly, a 34-upper clamping assembly, a 35-fixed blanking groove, a 36-rotating blanking groove, a 37-cylinder, a 41-motor, a 42-speed reducer, a 43-circular saw blade, a 44-small belt pulley, a 45-large belt pulley, a 46-belt, a 241-guiding slide bar, a 242-compressing body, a 243-feeding cylinder, a 331-compressing cylinder, a 332-sliding seat, a 333-moving clamping body, a 334-T-shaped movable joint, a 335-clamping groove, a 421-box, a 422-four-stage parallel gear pair mechanism, a 423-input shaft, a 424-output shaft, a 425-42shaft, a 426-braking gear, a 427-magnetic powder brake, a 21-gear shaft I, a 22-gear shaft II, a 4223-gear shaft III, a 4224-stage 4224-two-stage gear pair, a three-stage gear pair, a 26-stage pair gear pair, a three-stage pair gear pair and a 27-stage pair gear pair.

[ detailed description ] of the invention

Referring to fig. 1, 2, 3 and 4, the circular sawing machine for sawing high-temperature alloy steel bars comprises a machine body 1, a feeding mechanism 2, a clamping mechanism 3 and a sawing mechanism 4, wherein the feeding mechanism 2, the clamping mechanism 3 and the sawing mechanism 4 are arranged on the machine body 1, the clamping mechanism 3 is positioned below the feeding mechanism 2, the sawing mechanism 4 is positioned in front of the clamping mechanism 3, the sawing mechanism 4 comprises a motor 41, a speed reducer 42, a circular saw blade 43 and a ball screw sliding table module III47, the sliding table of the ball screw sliding table module III47 is provided with the motor 41 and the speed reducer 42, the driving end of the motor 41 is in transmission connection with the input end of the speed reducer 42, the output end of the speed reducer 42 is provided with the circular saw blade 43, the reduction ratio of the speed reducer 42 is 33.5, the speed reducer 42 comprises a box 421, a four-stage parallel gear pair mechanism 422, an input shaft 423 and an output shaft 424, the box 421 is internally provided with a four-stage parallel gear pair mechanism 422, an input shaft 423 and an output shaft 424, the input shaft 423 is in transmission connection with the output shaft 424 through the four-stage parallel gear pair mechanism 422, the clamping mechanism 3 comprises a base 31, a fixed clamping body 32 and a side clamping assembly 33, the base 31 is provided with the fixed clamping body 32 and the side clamping assembly 33 which are correspondingly arranged, the side clamping assembly 33 comprises a compression cylinder 331, a sliding seat 332 and a movable clamping body 333, the driving end of the compression cylinder 331 is movably connected with the sliding seat 332, the sliding seat 332 is provided with the movable clamping body 333, the four-stage parallel gear pair mechanism 422 comprises a gear shaft I4221, a gear shaft II4222, a gear shaft III4223, a primary gear pair 4224, a secondary gear pair 4225, a tertiary gear pair 4226 and a four-stage gear pair 4227, the input shaft 423 is in transmission connection with the gear shaft I4221 through the primary gear pair 4224, the gear shaft I4221 is in transmission connection with the gear shaft II4222 through a secondary gear pair 4225, the gear shaft II4222 is in transmission connection with the gear shaft III4223 through a tertiary gear pair 4226, the gear shaft III4223 is in transmission connection with the output shaft 424 through a quaternary gear pair 4227, the reduction ratio of the primary gear pair 4224 is 1.3, the reduction ratio of the secondary gear pair 4225 is 3.3, the reduction ratio of the tertiary gear pair 4226 is 2.9, the reduction ratio of the quaternary gear pair 4227 is 2.7, the speed reducer 42 further comprises a brake shaft 425, a brake gear 426 and a magnetic powder brake 427, the upper end of the brake shaft 425 is in transmission connection with the quaternary gear pair 4227 through the brake gear 426, the magnetic powder brake 427 is fixedly connected with the lower end of the brake shaft 425, the clamping mechanism 3 further comprises an upper clamping assembly 34 with the same structure as the side clamping assembly 33, the output end of the base 31 is sequentially provided with a fixed blanking groove 35 and a rotary blanking groove 36, the base 31 is provided with a cylinder 37 for driving the rotary blanking groove 36 to act, the driving end of the motor 41 is provided with a small belt pulley 44, the input end of the input shaft 423 is provided with a large belt pulley 45, the small belt pulley 44 and the large belt pulley 45 are provided with a belt 46, the feeding mechanism 2 comprises a ball screw sliding table module I21, a sliding table of the ball screw sliding table module I21 is provided with a ball screw sliding table module II22 which is obliquely arranged and a supporting roller 26 which is positioned in front of the ball screw sliding table module II22, the sliding table of the ball screw sliding table module II22 is provided with a supporting table 23, the supporting table 23 is provided with a pressing mechanism 24 and a supporting body 25 which corresponds to the pressing mechanism 24, the front screw supporting seat of the ball screw sliding table module I21 is provided with a supporting roller 26, the pressing mechanism 24 comprises a plurality of guide sliding rods 241, a pressing body 242 and a feeding cylinder 243, the driving end of the feeding cylinder 243 and the guiding sliding rod 241 are provided with a pressing body 242, the driving end of the pressing cylinder 331 is provided with a T-shaped movable joint 334 with a downward large end, the sliding seat 332 is provided with a clamping groove 335 connected with the T-shaped movable joint 334, and the T-shaped movable joint 334 can freely move within a certain range in the clamping groove 335. The box 421 is made of QT500 nodular cast iron material; the coaxiality required by the processing precision technology is 0.005mm; the gear and the gear material are 20Cr2Ni4A forgings; gear machining precision is five-level; the input shaft 423, the output shaft 424, the gear shaft I4221, the gear shaft II4222 and the gear shaft III4223 are made of 38CrMoALA, the brake shaft 421 is made of 42CrMo, and the radial runout of the input shaft 423, the output shaft 424, the gear shaft I4221, the gear shaft II4222 and the gear shaft III4223 is 0.005mm; the axial runout is 0.005mm.

The working process of the invention comprises the following steps:

in the working process of the circular sawing machine for sawing high-temperature alloy steel bars, the bars are placed on the feeding mechanism 2 and are pressed and fixed through the pressing mechanism 24, then the feeding mechanism 2 sends the bars into the clamping mechanism 3, the bars are pressed and fixed through the side clamping assembly 33 and the upper clamping assembly 34, and then the bars are sawed through the sawing mechanism 4.

When the feeding mechanism 2 works, the feeding oil cylinder 243 is started to drive the pressing body 242 to move towards the supporting body 25 to clamp and fix the bar, then the ball screw sliding table module II22 is started to drive the supporting table 23 to move upwards, the supporting table 23 drives the bar to lift to be higher than the upper end of the base 31, then the ball screw sliding table module I21 is started to drive the ball screw sliding table module II22 to move backwards, so that the bar is fed into the clamping mechanism 3, and then the ball screw sliding table module II22 is started to drive the supporting table 23 to move downwards to return.

When the clamping mechanism 3 works, the pressing oil cylinder 331 is started to push the sliding seat 332 to drive the movable clamp 333 to move towards the fixed clamp 32, so as to clamp the bar, and then the bar is clamped again through the upper clamping assembly 34. When the output is the stub bar, the cylinder 37 drives the rotary blanking groove 36 to rotate, so that the stub bar falls into the stub bar collecting frame.

When the sawing mechanism 4 works, the motor 41 drives the input end of the speed reducer 42 to rotate through the cooperation of the small belt pulley 44, the large belt pulley 45 and the belt 46, the output end of the speed reducer 42 drives the circular saw blade 43 to rotate, and then the ball screw sliding table module III47 is started to drive the motor 41, the speed reducer 42 and the circular saw blade 43 to move towards the bar, and the circular saw blade 43 cuts the bar.

The above embodiments are illustrative of the present invention, and not limiting, and any simple modifications of the present invention fall within the scope of the present invention.

Claims (9)

1. A circular sawing machine for sawing high-temperature alloy steel bars, which is characterized in that: the device comprises a lathe bed (1), a feeding mechanism (2), a clamping mechanism (3) and a sawing mechanism (4), wherein the feeding mechanism (2), the clamping mechanism (3) and the sawing mechanism (4) are arranged on the lathe bed (1), the clamping mechanism (3) is positioned below the feeding mechanism (2), the sawing mechanism (4) is positioned in front of the clamping mechanism (3), the sawing mechanism (4) comprises a motor (41), a speed reducer (42), a circular saw blade (43) and a ball screw sliding table module III (47), the motor (41) and the speed reducer (42) are arranged on a sliding table of the ball screw sliding table module III (47), the driving end of the motor (41) is in transmission connection with the input end of the speed reducer (42), the output end of the speed reducer (42) is provided with the circular saw blade (43), the speed reducer (42) has a reduction ratio of 32-36, the speed reducer (42) comprises a box (421), a four-stage parallel auxiliary mechanism (422), an input shaft (423) and an output shaft (424), a gear pair (422) are arranged in the box (421), the gear pair is connected with the input shaft (423) through the input shaft (424) and the output shaft (422) in parallel with the transmission mechanism, clamping mechanism (3) are including base (31), fixation clamp body (32) and side clamp assembly (33), be equipped with corresponding fixation clamp body (32) and side clamp assembly (33) that set up on base (31), side clamp assembly (33) are including compressing cylinder (331), slide (332) and removal clamp body (333), the drive end and slide (332) swing joint of compressing cylinder (331), be equipped with on slide (332) and remove clamp body (333).

2. The circular sawing machine for sawing high temperature alloy steel bars according to claim 1, wherein: the four-stage parallel gear pair mechanism (422) comprises a gear shaft I (4221), a gear shaft II (4222), a gear shaft III (4223), a primary gear pair (4224), a secondary gear pair (4225), a tertiary gear pair (4226) and a four-stage gear pair (4227), wherein the input shaft (423) is in transmission connection with the gear shaft I (4221) through the primary gear pair (4224), the gear shaft I (4221) is in transmission connection with the gear shaft II (4222) through the secondary gear pair (4225), the gear shaft II (4222) is in transmission connection with the gear shaft III (4223) through the tertiary gear pair (4226), the gear shaft III (4223) is in transmission connection with the output shaft (424) through the four-stage gear pair (4227), the reduction ratio of the primary gear pair (4224) is 1.3, the reduction ratio of the secondary gear pair (4225) is 3.3, the reduction ratio of the tertiary gear pair (4226) is 2.9, and the reduction ratio of the four-stage gear pair (4227) is 2.7.

3. A circular sawing machine for sawing superalloy steel rods as claimed in claim 2, wherein: the speed reducer (42) further comprises a brake shaft (425), a brake gear (426) and a magnetic powder brake (427), wherein the upper end of the brake shaft (425) is in transmission connection with the four-stage gear pair (4227) through the brake gear (426), and the magnetic powder brake (427) is fixedly connected with the lower end of the brake shaft (425).

4. The circular sawing machine for sawing high temperature alloy steel bars according to claim 1, wherein: the clamping mechanism (3) further comprises an upper clamping assembly (34) which is structurally identical to the side clamping assembly (33).

5. The circular sawing machine for sawing high temperature alloy steel bars according to claim 1, wherein: the output end of the base (31) is sequentially provided with a fixed blanking groove (35) and a rotary blanking groove (36), and the base (31) is provided with an air cylinder (37) for driving the rotary blanking groove (36) to act.

6. The circular sawing machine for sawing high temperature alloy steel bars according to claim 1, wherein: the driving end of the motor (41) is provided with a small belt pulley (44), the input end of the input shaft (423) is provided with a large belt pulley (45), the small belt pulley (44) and the large belt pulley (45) are provided with a belt (46), and the reduction ratio of the small belt pulley (44) to the large belt pulley (45) is 2.2.

7. The circular sawing machine for sawing high temperature alloy steel bars according to claim 1, wherein: feeding mechanism (2) are including ball screw slip table module I (21), be equipped with ball screw slip table module II (22) and be located the backing roll (26) of ball screw slip table module II (22) the place ahead of slope setting on the slip table of ball screw slip table module I (21), be equipped with brace table (23) on the slip table of ball screw slip table module II (22), be equipped with hold-down mechanism (24) and support body (25) corresponding with hold-down mechanism (24) on brace table (23), be equipped with backing roll (26) on the preceding lead screw supporting seat of ball screw slip table module I (21).

8. The circular sawing machine for sawing high temperature alloy steel bars according to claim 7, wherein: the compressing mechanism (24) comprises a plurality of guide sliding rods (241), compressing bodies (242) and a feeding oil cylinder (243), wherein the compressing bodies (242) are arranged on the driving end of the feeding oil cylinder (243) and the guide sliding rods (241).

9. The circular sawing machine for sawing high temperature alloy steel bars according to claim 1, wherein: the driving end of the compaction oil cylinder (331) is provided with a T-shaped movable joint (334) with a forward large end, the sliding seat (332) is provided with a clamping groove (335) used for being connected with the T-shaped movable joint (334), and the T-shaped movable joint (334) can freely move in a certain range in the clamping groove (335).

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