CN114367388A - Intelligent manufacturing equipment of metal cutting machine tool - Google Patents

Abstract

The invention relates to the technical field of intelligent manufacturing, and discloses intelligent manufacturing equipment of a metal cutting machine tool, which comprises a shell, wherein a cutter and a spraying mechanism are arranged in the shell, and the spraying mechanism is used for spraying the cutter; the spraying mechanism comprises a second frame arranged in the shell, a plurality of liquid conveying pipelines and spray heads are arranged in the second frame, and the liquid conveying pipelines are respectively communicated with the spray heads and used for conveying coatings to the spray heads; still be provided with intermittent type transport mechanism and bear the weight of the mechanism in the casing, the cutter is connected with intermittent type transport mechanism through bearing the weight of the mechanism, and this metal cutting lathe's intelligent manufacturing equipment drives a plurality of cutter intermittent type and conveys to second frame department through intermittent type transport mechanism, drives its inside a plurality of shower nozzles by the second frame again and covers the tool and carry out the spraying operation on the cutter surface for even coating on the cutter surface, and realized the complete automation of cutter spraying assembly line, in order to improve production efficiency.

Description

Intelligent manufacturing equipment of metal cutting machine tool

Technical Field

The invention relates to the technical field of intelligent manufacturing, in particular to intelligent manufacturing equipment of a metal cutting machine tool.

Background

The intelligent manufacturing is a brand new industrial concept, and the concept of manufacturing automation is updated and expanded to flexibility, intelligence and high integration. Smart manufacturing can be applied in a wide range of industrial fields.

One of them is metal cutting, which is a material removal additive forming method in a metal forming process, and accounts for a large proportion in the current mechanical manufacturing. The metal cutting process is the process by which the workpiece and the tool interact. The tool removes excess metal from the workpiece to be machined and, while controlling productivity and cost, provides the workpiece with geometric, dimensional and surface quality that meets design and process requirements. To accomplish this, there is relative movement between the workpiece and the tool, i.e., cutting movement, which is provided by the metal cutting machine. The machine tool, the clamp, the cutter and the workpiece form a mechanical processing process system. Various phenomena and laws of the metal cutting process are studied in the motion state of the system.

Chinese invention patent CN201810305931.0 discloses an intelligent control metal cutting device. Comprises a base, a plurality of supporting plates, a plurality of cutting displacement tracks, a cutting displacement device, a plurality of traction fixing frames, a plurality of traction boxes, a cutting bearing moving device, a cutting operation cabin, a signal receiver, a control box and a downward pressing cutting device, wherein any supporting plate is positioned at the upper part of the base, the supporting plates are fixedly connected with the base, any cutting displacement track is positioned at the upper part of the supporting plate, the cutting displacement track is fixedly connected with the supporting plate, the cutting displacement device is positioned at the upper part of the cutting displacement track, the cutting displacement device is fixedly connected with the cutting displacement track, any traction fixing frame is positioned at one side of the cutting displacement device, the traction fixing frame is fixedly connected with the cutting displacement device, any traction box is positioned at one side of the base, and the traction boxes are fixedly connected with the base, the traction box is also provided with a traction motor and a traction chain, the traction motor is positioned on one side of the traction box, the traction motor and the traction box are fixedly connected, the traction chain is positioned between the traction box and a traction fixing frame, one end of the traction chain is fixedly connected with the traction box, the other end of the traction chain is fixedly connected with the traction fixing frame, the cutting bearing moving device is positioned on the upper part of the cutting displacement device, the cutting bearing moving device is fixedly connected with the cutting displacement device, the cutting operation cabin is positioned on the upper part of the cutting displacement track, the cutting operation cabin is fixedly connected with a supporting plate, the signal receiver is positioned on the upper part of the cutting operation cabin, the signal receiver is fixedly connected with the cutting operation cabin, the control box is positioned on the upper part of the cutting operation cabin, and the control box is fixedly connected with the cutting operation cabin, the lower pressing and cutting device is positioned in the cutting operation cabin and is fixedly connected with the cutting operation cabin.

However, after machining, the tool for the metal cutting machine needs further post-treatment to enhance the overall performance of the tool. For example, in the coating technology, one, two or even multiple thin layers (such as TiN, TiC and the like) of high-hardness, high-wear-resistance and high-temperature-resistant materials are coated on a substrate with higher toughness of a cutter, so that the cutter has comprehensive and good comprehensive performance.

In view of the above, the present invention provides an intelligent manufacturing apparatus for a metal cutting machine, so as to solve at least the technical problems in the prior art.

Disclosure of Invention

The invention provides intelligent manufacturing equipment of a metal cutting machine tool, which has the beneficial effects of coating a cutter with a uniform coating and realizing the full automation of a cutter spraying production line, and solves the problems that in the manufacturing process of the existing metal cutting machine tool mentioned in the background technology, the degree of intellectualization of the equipment adopted when the cutter is coated with the coating is lower, the spraying production line is not completely automated by combining with an intelligent manufacturing concept, the coated coating is not uniform enough, and the production efficiency is lower.

The invention provides the following technical scheme: the intelligent manufacturing equipment of the metal cutting machine comprises a shell, wherein a cutter and a spraying mechanism are arranged in the shell, and the spraying mechanism is used for spraying the cutter;

the spraying mechanism comprises a second frame arranged in the shell, a plurality of liquid conveying pipelines and spray heads are arranged in the second frame, and the liquid conveying pipelines are respectively communicated with the spray heads and used for conveying coatings to the spray heads;

the shell is internally provided with an intermittent conveying mechanism and a bearing mechanism, the cutter is connected with the intermittent conveying mechanism through the bearing mechanism, and the intermittent conveying mechanism is used for conveying the cutter and the bearing mechanism to the spraying mechanism to be sprayed; the tool is sprayed through a plurality of spray heads.

As an alternative of the intelligent manufacturing apparatus of the metal cutting machine of the present invention, wherein: the intermittent conveying mechanism comprises a first conveying roller and a second conveying roller which are rotatably arranged on the shell, and conveying belts are arranged on the first conveying roller and the second conveying roller; the cutter is conveyed by the rotation of the conveyor belt.

As an alternative of the intelligent manufacturing apparatus of the metal cutting machine of the present invention, wherein: the bearing mechanism comprises a plurality of mounting grooves formed in the conveyor belt, a supporting plate is arranged in one mounting groove, a first frame is rotatably arranged on the supporting plate, and the cutter is mounted in the first frame; the cutter is mounted on the conveyor belt by a carrying mechanism.

As an alternative of the intelligent manufacturing apparatus of the metal cutting machine of the present invention, wherein: the spraying mechanism further comprises a first rotating rod which is rotatably arranged on the shell, a first straight gear is arranged on the first rotating rod, a rack is arranged on the second frame, and the rack is meshed with the first rotating rod; the rack and the second frame are driven to reciprocate up and down through the rotation of the first straight gear.

As an alternative of the intelligent manufacturing apparatus of the metal cutting machine of the present invention, wherein: the spraying mechanism further comprises two limiting blocks symmetrically arranged on the rack, two limiting grooves are symmetrically formed in the shell, and the two limiting blocks are respectively arranged in the two limiting grooves in a sliding mode; the second frame and the rack are supported and limited through the limiting groove.

As an alternative of the intelligent manufacturing apparatus of the metal cutting machine of the present invention, wherein: an auxiliary spraying mechanism is arranged in the shell and comprises a second toothed belt arranged in the shell, a third straight gear is arranged on the first frame and meshed with the second toothed belt; the third straight gear and the cutter are driven to rotate through the second toothed belt, so that the coating is more uniformly covered.

As an alternative of the intelligent manufacturing apparatus of the metal cutting machine of the present invention, wherein: the auxiliary spraying mechanism further comprises a second rotating rod and a third rotating rod which are rotatably arranged on the shell, second straight gears are arranged on the second rotating rod and the third rotating rod respectively, first toothed belts are arranged on the two second straight gears, and the second toothed belts are arranged on the first toothed belts; the second gear belt is driven to rotate through the second rotating rod.

As an alternative of the intelligent manufacturing apparatus of the metal cutting machine of the present invention, wherein: the shell is internally provided with a driving mechanism for driving the intermittent conveying mechanism, the bearing mechanism, the spraying mechanism and the auxiliary spraying mechanism to operate;

the driving mechanism comprises a fourth rotating rod, a fourth straight gear and a fifth straight gear, the fourth rotating rod is rotatably arranged on the shell, the fourth straight gear is arranged on the fourth rotating rod, the fifth straight gear is arranged on the second conveying roller, and the fifth straight gear is meshed with the fourth straight gear; the intermittent conveying of the conveyor belt is realized through the rotation of the fourth rotating rod.

As an alternative of the intelligent manufacturing apparatus of the metal cutting machine of the present invention, wherein: the driving mechanism further comprises two second bevel gears, the two second bevel gears are respectively arranged on the second rotating rod and the fourth rotating rod, a motor is arranged on the shell, a fifth rotating rod is arranged on the motor, a first bevel gear is arranged on the fifth rotating rod, and the first bevel gear is meshed with the two second bevel gears; the second rotating rod and the fourth rotating rod are driven to rotate by the motor.

As an alternative of the intelligent manufacturing apparatus of the metal cutting machine of the present invention, wherein: the driving mechanism further comprises two sixth straight gears, the two sixth straight gears are respectively arranged on the first rotating rod and the fifth rotating rod, and a fourth toothed belt is arranged on the two sixth straight gears; the fourth toothed belt drives the first straight gear to rotate.

The invention has the following beneficial effects:

1. this intelligent manufacture equipment of metal cutting lathe drives a plurality of cutters through intermittent type transport mechanism and conveys to second frame department intermittently, drives its inside a plurality of shower nozzles by the second frame again and covers and carry out the spraying operation to the cutter on the cutter surface for even coating has been gone up in the coating of cutter surface, and has realized the full automation of cutter spraying assembly line, in order to improve production efficiency.

2. According to the intelligent manufacturing equipment of the metal cutting machine tool, the auxiliary spraying mechanism drives the cutter to rapidly rotate when the cutter receives spraying, so that the coating can be more uniformly covered; the second toothed belt and the conveying belt keep synchronous motion, and when the cutter stops, the second toothed belt can drive the third straight gear to rotate quickly, so that the cutter is driven to rotate quickly.

3. This intelligent manufacture equipment of metal cutting lathe can realize intermittent type conveying of intermittent type transport mechanism, the up-and-down reciprocating motion of spraying mechanism and drive supplementary spraying mechanism and drive the cutter rotation as single power supply through the motor, plays the effect that reduces device manufacturing cost, energy saving consumed.

Drawings

Fig. 1 is a first overall structural schematic diagram of the present invention.

Fig. 2 is a second overall structural schematic diagram of the present invention.

Fig. 3 is a schematic view of a first partial explosion structure of the present invention.

Fig. 4 is a schematic view of a second partial explosion structure of the present invention.

Fig. 5 is a schematic view of the internal structure of the present invention.

Fig. 6 is a partially enlarged view of a portion a in fig. 5.

In the figure: 1. a housing; 2. a cutter; 3. an intermittent transport mechanism; 301. a first transfer roller; 302. a second transfer roller; 303. a conveyor belt; 4. a carrying mechanism; 401. mounting grooves; 402. a support plate; 403. a first frame; 5. a spraying mechanism; 501. a second frame; 502. a fluid delivery conduit; 503. a spray head; 504. a first rotating lever; 505. a first straight gear; 506. a rack; 507. a limiting block; 508. a limiting groove; 6. an auxiliary spraying mechanism; 601. a second rotating rod; 602. a third rotating rod; 603. a second spur gear; 604. a first toothed belt; 605. a second toothed belt; 606. a third spur gear; 7. a drive mechanism; 701. a fourth rotating rod; 702. a fourth spur gear; 703. a fifth spur gear; 704. a motor; 705. a fifth rotating rod; 706. a first bevel gear; 707. a second bevel gear; 708. a sixth spur gear; 709. and a fourth toothed belt.

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.

Example 1

In order to realize the full automation of the cutter spraying production line, the embodiment discloses intelligent manufacturing equipment of a metal cutting machine tool; referring to fig. 1-6, the device includes a housing 1, a tool 2 and a spraying mechanism 5 are disposed in the housing 1, and the spraying mechanism 5 is used for spraying the tool 2;

the spraying mechanism 5 comprises a second frame 501 arranged in the shell 1, a plurality of liquid conveying pipelines 502 and spray heads 503 are arranged in the second frame 501, and the liquid conveying pipelines 502 are respectively communicated with the spray heads 503 for conveying the coating to the spray heads;

the shell 1 is also internally provided with an intermittent conveying mechanism 3 and a bearing mechanism 4, the cutter 2 is connected with the intermittent conveying mechanism 3 through the bearing mechanism 4, and the intermittent conveying mechanism 3 is used for conveying the cutter 2 and the bearing mechanism 4 to the spraying mechanism 5 for receiving spraying.

The cutter 2 is arranged on the intermittent conveying mechanism 3 through the bearing mechanism 4, the intermittent conveying mechanism 3 drives the cutter 2 and the bearing mechanism 4 to convey towards the front side, and when the cutter reaches the spraying mechanism 5, the spraying mechanism 5 performs spraying operation on the cutter 2.

A plurality of liquid conveying pipelines 502 and a plurality of spray heads 503 are installed in the second frame 501, the plurality of spray heads 503 are installed on the inner wall of the second frame 501, one ends of the plurality of liquid conveying pipelines 502 penetrate through the second frame 501 for inputting spraying liquid, the other two ends of the plurality of liquid conveying pipelines 502 are respectively communicated with the plurality of spray heads 503 for outputting the spraying liquid, and after the cutter 2 enters the second frame 501, the plurality of spray heads 503 spray the surface of the cutter.

Further, in order to drive the cutter 2 to convey to the front side in the housing 1 to complete the spraying assembly line, referring to fig. 1-5, the intermittent transportation mechanism 3 includes a first conveying roller 301 and a second conveying roller 302 rotatably disposed on the housing 1, and a conveying belt 303 is disposed on the first conveying roller 301 and the second conveying roller 302.

Wherein, the both ends of first transfer roller 301 and second transfer roller 302 rotate respectively at the left and right sides inner wall of casing 1, realize the transmission through conveyer belt 303 between first transfer roller 301 and the second transfer roller 302, when second transfer roller 302 rotates, can drive first transfer roller 301 and conveyer belt 303 and rotate, drive cutter 2 by conveyer belt 303 and convey to the front side.

Further, to support the cutter 2 and mount the cutter 2 on the conveyor belt 303, referring to fig. 1-4, the support mechanism 4 includes a plurality of mounting slots 401 opened on the conveyor belt 303, wherein a supporting plate 402 is disposed in one of the mounting slots 401, a first frame 403 is rotatably disposed on the supporting plate 402, and the cutter 2 is mounted in the first frame 403.

The surface of the conveyor belt 303 is provided with a plurality of uniformly distributed mounting grooves 401, wherein a supporting plate 402 is mounted in one mounting groove 401, a first frame 403 is rotated at the upper end of the supporting plate 402, and the cutter 2 is mounted in the first frame 403. The upper support plate 402 and the first frame 403 can be mounted in the remaining mounting grooves 401, so that a large number of cutters 2 can be completely pipelined.

Further, in order to enable the second frame 501 to descend to wrap the tool 2 to spray the tool 2 when the tool 2 passes through, and then ascend and leave after the spraying is finished, so as to perform a complete spraying operation on a large number of tools 2, referring to fig. 1-5, the spraying mechanism 5 further includes a first rotating rod 504 rotatably disposed on the housing 1, the first rotating rod 504 is provided with a first straight gear 505, the second frame 501 is provided with a rack 506, and the rack 506 is engaged with the first rotating rod 504.

The first rotating rod 504 rotates on the rear inner wall of the housing 1, the first straight gear 505 is fixed on the first rotating rod 504, the rack 506 is fixed at the rear end of the second frame 501, the rack 506 is annular, straight-line teeth are distributed on the left inner wall and the right inner wall of the rack 506, and the first straight gear 505 is half-tooth.

When the first rotating rod 504 rotates, the first straight gear 505 is driven to rotate, and when the first straight gear 505 is meshed with the teeth on the left side of the rack 506, the rack 506 is driven to move downwards, so that the second frame 501 is driven to move downwards, and when the first straight gear 505 rotates to be separated from the teeth on the left side of the rack 506, the first straight gear is meshed with the teeth on the right side of the rack 506, so that the rack 506 is driven to move upwards, and the second frame 501 reciprocates up and down to complete the spraying operation of the plurality of tools 2.

Further, in order to limit the rack 506 and make the rack move up and down more stably, please refer to fig. 1 to 5, the spraying mechanism 5 further includes two limiting blocks 507 symmetrically disposed on the rack 506, the housing 1 is symmetrically provided with two limiting grooves 508, and the two limiting blocks 507 are respectively slidably disposed in the two limiting grooves 508.

The left end and the right end of the rack 506 are both fixed with limiting blocks 507, and the rack 506 and the second frame 501 can be supported and limited by the two limiting blocks 507 which slide up and down along the two limiting grooves 508 respectively, so that the movement of the rack 506 and the second frame 501 is more stable.

Further, in order to enable the cutter 2 to rotate when the cutter 2 receives the spraying from the plurality of nozzles 503, so as to make the coating coverage more uniform, please refer to fig. 1-5, an auxiliary spraying mechanism 6 is disposed in the housing 1, the auxiliary spraying mechanism 6 includes a second toothed belt 605 disposed in the housing 1, a third spur gear 606 is disposed on the first frame 403, and the third spur gear 606 is meshed with the second toothed belt 605;

the auxiliary spraying mechanism 6 further comprises a second rotating rod 601 and a third rotating rod 602 which are rotatably arranged on the housing 1, wherein the second rotating rod 601 and the third rotating rod 602 are both provided with a second straight gear 603, the two second straight gears 603 are provided with a first toothed belt 604, and the second toothed belt 605 is arranged on the first toothed belt 604.

The second rotating rod 601 rotates on the left inner wall of the housing 1, the third rotating rod 602 rotates between the left inner wall and the right inner wall of the housing 1, transmission is realized between the second rotating rod 601 and the third rotating rod 602 through a first toothed belt 604 and two second spur gears 603, the second toothed belt 605 is installed at the right end of the first toothed belt 604, and the third spur gear 606 is fixed on the surface of the first frame 403.

When the first toothed belt 604 and the conveyor belt 303 rotate in the same direction, the second toothed belt 605 drives the third spur gear 606 to rotate slowly, so as to drive the first frame 403 and the cutter 2 to rotate slowly, and the intermittent conveying mechanism 3 is used for intermittent conveying, so that when the conveyor belt 303 conveys one cutter 2 to the lower end of the second frame 501 and stops, the second toothed belt 605 drives the first frame 403 and the cutter 2 to rotate at a faster speed, so that the coating coverage of the cutter 2 is more uniform.

Further, in order to realize the intermittent conveying of the conveying belt 303, the up-and-down reciprocating movement of the second frame 501, the keeping of the first toothed belt 604 and the rotation of the conveying belt 303 in the same direction, referring to fig. 1 to 5, a driving mechanism 7 is arranged in the housing 1 for driving the intermittent conveying mechanism 3, the carrying mechanism 4, the spraying mechanism 5 and the auxiliary spraying mechanism 6 to operate;

the driving mechanism 7 comprises a fourth rotating rod 701, a fourth straight gear 702 and a fifth straight gear 703, the fourth rotating rod 701 is rotatably arranged on the housing 1, the fourth straight gear 702 is arranged on the fourth rotating rod 701, the fifth straight gear 703 is arranged on the second conveying roller 302, and the fifth straight gear 703 is meshed with the fourth straight gear 702;

the driving mechanism 7 further includes two second bevel gears 707, the two second bevel gears 707 are respectively disposed on the second rotating rod 601 and the fourth rotating rod 701, the housing 1 is provided with a motor 704, the motor 704 is provided with a fifth rotating rod 705, the fifth rotating rod 705 is provided with a first bevel gear 706, and the first bevel gear 706 is engaged with both the two second bevel gears 707;

the driving mechanism 7 further includes two sixth spur gears 708, the two sixth spur gears 708 are respectively disposed on the first rotating rod 504 and the fifth rotating rod 705, and a fourth toothed belt 709 is disposed on the two sixth spur gears 708.

Through the operation of the motor 704, the fifth rotating rod 705 and the first bevel gear 706 are driven to rotate, and further the two second bevel gears 707 are driven to rotate in opposite directions, so that the second rotating rod 601 and the fourth rotating rod 701 rotate in opposite directions.

The fourth rotating rod 701 can drive the fourth straight gear 702 to rotate, and further drive the fifth straight gear 703 to rotate, and since the fourth straight gear 702 is half-tooth, the fifth straight gear 703 and the second conveying roller 302 can intermittently rotate, so that the conveying belt 303 intermittently conveys the cutter 2.

The rotation of the second rotating rod 601 will drive the first toothed belt 604 and the second toothed belt 605 to rotate in the same direction as the conveyor belt 303, but at a slightly faster speed.

In addition, the first rotating rod 504 is also driven to rotate by the transmission action of the fourth toothed belt 709 and the two sixth spur gears 708, so that the motor 704 is used as a power source to drive the whole device to operate.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the technical principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (6)

1. Intelligent manufacturing equipment of metal cutting machine, including casing (1), its characterized in that: a cutter (2) and a spraying mechanism (5) are arranged in the shell (1), and the spraying mechanism (5) is used for spraying the cutter (2);

the spraying mechanism (5) comprises a second frame (501) arranged in the shell (1), a plurality of liquid conveying pipelines (502) and spray heads (503) are arranged in the second frame (501), the liquid conveying pipelines (502) are respectively connected with the spray heads (503) and are commonly used for conveying coatings to the spray heads, a first rotating rod (504) arranged on the shell (1) is rotated, a first straight gear (505) is arranged on the first rotating rod (504), a rack (506) is arranged on the second frame (501), the rack (506) is meshed with the first rotating rod (504), and two limiting blocks (507) are symmetrically arranged on the rack (506), two limiting grooves (508) are symmetrically arranged on the shell (1), and the two limiting blocks (507) are respectively arranged in the two limiting grooves (508) in a sliding manner;

an intermittent conveying mechanism (3) and a bearing mechanism (4) are further arranged in the shell (1), the cutter (2) is connected with the intermittent conveying mechanism (3) through the bearing mechanism (4), and the intermittent conveying mechanism (3) is used for conveying the cutter (2) and the bearing mechanism (4) to the spraying mechanism (5) to be sprayed;

the intermittent conveying mechanism (3) comprises a first conveying roller (301) and a second conveying roller (302) which are rotatably arranged on the shell (1), and conveying belts (303) are arranged on the first conveying roller (301) and the second conveying roller (302);

the carrying mechanism (4) comprises a plurality of mounting grooves (401) formed in the conveying belt (303), a supporting plate (402) is arranged in one of the mounting grooves (401), a first frame (403) is arranged on the supporting plate (402) in a rotating mode, and the cutter (2) is mounted in the first frame (403).

2. The intelligent manufacturing apparatus of a metal cutting machine according to claim 1, characterized in that: be provided with supplementary spraying mechanism (6) in casing (1), supplementary spraying mechanism (6) including set up in second cingulum (605) in casing (1), be provided with third straight-teeth gear (606) on first frame (403), just third straight-teeth gear (606) with second cingulum (605) meshing.

3. The intelligent manufacturing apparatus of a metal cutting machine according to claim 1 or 2, characterized in that: supplementary spraying mechanism (6) still including rotate set up in second bull stick (601) and third bull stick (602) on casing (1), second bull stick (601) with all be provided with second straight-tooth gear (603), two on third bull stick (602 be provided with first cingulum (604) on second straight-tooth gear (603), second cingulum (605) set up in on first cingulum (604).

4. The intelligent manufacturing apparatus of a metal cutting machine according to any one of claims 1 to 3, characterized in that: a driving mechanism (7) is arranged in the shell (1) and used for driving the intermittent conveying mechanism (3), the bearing mechanism (4), the spraying mechanism (5) and the auxiliary spraying mechanism (6) to operate;

drive mechanism (7) include fourth bull stick (701), fourth spur gear (702) and fifth spur gear (703), fourth bull stick (701) rotate set up in on casing (1), fourth spur gear (702) set up in on fourth bull stick (701), fifth spur gear (703) set up on second conveying roller (302), just fifth spur gear (703) with fourth spur gear (702) meshing.

5. The intelligent manufacturing apparatus of a metal cutting machine according to any one of claims 1 to 4, characterized in that: the driving mechanism (7) further comprises two second bevel gears (707), the two second bevel gears (707) are respectively arranged on the second rotating rod (601) and the fourth rotating rod (701), the shell (1) is provided with a motor (704), the motor (704) is provided with a fifth rotating rod (705), the fifth rotating rod (705) is provided with a first bevel gear (706), and the first bevel gear (706) is meshed with the two second bevel gears (707).

6. The intelligent manufacturing apparatus of a metal cutting machine according to any one of claims 1 to 5, characterized in that: the driving mechanism (7) further comprises two sixth straight gears (708), the two sixth straight gears (708) are respectively arranged on the first rotating rod (504) and the fifth rotating rod (705), and a fourth toothed belt (709) is arranged on the two sixth straight gears (708).

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