CN110281027B

CN110281027B - Intelligent production equipment for mass production of bolts

Info

Publication number: CN110281027B
Application number: CN201910508900.XA
Authority: CN
Inventors: 刘华珍
Original assignee: Ruian Hetai Fastener Co ltd
Current assignee: Ruian Hetai Fastener Co.,Ltd.
Priority date: 2019-06-13
Filing date: 2019-06-13
Publication date: 2021-04-13
Anticipated expiration: 2039-06-13
Also published as: CN110281027A

Abstract

The invention relates to production equipment, in particular to intelligent production equipment for mass production of bolts. The technical problem is as follows: the utility model provides a can alleviate staff's the amount of labour, can improve work efficiency's intelligent production facility of volume production bolt. The technical scheme of the invention is as follows: an intelligent production device for mass production bolts comprises a mounting frame, a control box, a power supply main switch, a mounting ring, a first bearing seat, an extension rod, an annular box, a placing hopper, a fixing ring, a first rotating ring, a first gear ring and the like; the mounting ring and the fixing ring are connected between the mounting frames on the front side and the rear side, the mounting ring is positioned in the fixing ring, a plurality of impurity discharging holes are formed in the bottom of the fixing ring, and the control box is bolted to the lower portion of the rear side of the front side of the mounting frame. According to the invention, through the matching of the tapping device, the hot working device and the quenching device, bolts can be produced rapidly in large batch, so that the working efficiency can be improved, and the labor amount of workers can be reduced.

Description

Intelligent production equipment for mass production of bolts

Technical Field

The invention relates to production equipment, in particular to intelligent production equipment for mass production of bolts.

Background

The bolt is a common mechanical part, is matched with a nut for use, is widely used, and has large demand, so a large amount of bolts need to be produced; in order to improve the working efficiency, a plurality of working personnel are required to use the tapping machine to tap the workpiece, so that the labor is wasted.

Disclosure of Invention

In order to overcome the shortcoming that the staff uses the tapping machine to tap the tooth to the work piece, produce the bolt, the staff is tired more, and work efficiency is low, and the technical problem is: the utility model provides a can alleviate staff's the amount of labour, can improve work efficiency's intelligent production facility of volume production bolt.

The technical scheme of the invention is as follows: an intelligent production device for mass production bolts comprises a mounting frame, a control box, a power supply main switch, a mounting ring, a first bearing seat, an extension rod, an annular box, a placing hopper, a fixing ring, a first rotating ring, a first gear ring, a connecting block, an annular wireless transmitter, a contact switch, a first L-shaped block, a first driving motor, a first gear, a tapping device, a hot processing device, a quenching device, a drying device and an anti-rust treatment device, wherein the mounting ring and the fixing ring are connected between the mounting frame at the front side and the rear side, the mounting ring is positioned in the fixing ring, a plurality of impurity removing holes are formed in the bottom of the fixing ring, the control box is bolted to the lower part of the rear side of the mounting frame at the front side and comprises a power supply module and a control module, the power supply main switch is arranged at the lower part of the right side of the control box, the control module is connected with the power supply module through a wire, the, the rear side of the first bearing seat is provided with an annular box, a fixed ring is contacted with the annular box, the upper side and the lower side of the front side of the first bearing seat are both connected with extension rods which play a supporting role, the two extension rods are both connected with the inner side of the annular box, eight placing hoppers which are hexagonal in shape are evenly embedded at the outer side of the annular box, through holes are arranged on the placing hoppers, a first rotating ring is arranged at the rear side of the annular box, a first gear ring is arranged at the outer side of the first rotating ring, an annular wireless transmitter is arranged at the rear side of the first rotating ring through a connecting block, eight contact switches are arranged at the rear side of the annular wireless transmitter and are all in line connection with the annular wireless transmitter, the annular wireless transmitter is connected with a control module through wireless transmission, the top of a mounting frame at the rear side is connected with a first L-shaped block, and, the mounting bracket front side middle part bolt of rear side has first driving motor, installs first gear on first driving motor's the output shaft, first gear and the meshing of first ring gear, and the collar top is equipped with attacks tooth device, and the collar left side is equipped with hot-working device, and the collar bottom is equipped with guenching unit, and the collar right side downside is equipped with drying device, and the collar right side is equipped with rust-resistant treatment device, and first driving motor has circuit connection with the control module.

Furthermore, the tapping device comprises a first fixing frame, first guide rails, first guide sleeves, a bowl group bearing seat, a second rotating ring, dies, a second gear ring, a speed reducing motor, a second gear, a servo motor, a third gear, an L-shaped plate and a rack, wherein the top of the mounting ring is connected with the first fixing frame, the two first guide rails are respectively arranged at the left side and the right side of the top of the first fixing frame, the two first guide rails are respectively provided with the first guide sleeves, the bowl group bearing seat is arranged between the two first guide sleeves, the second rotating ring is arranged in the bowl group bearing seat, the dies are arranged at the top of the second rotating ring, the second gear ring is arranged at the upper part of the outer side of the second rotating ring, the speed reducing motor is bolted at the top of the first guide sleeve at the right side, the second gear is arranged on an output shaft of the speed reducing motor, the second gear is meshed with the second gear, the servo motor is arranged at the front, the right side rigid coupling of the first guide pin bushing in right side has the L shaped plate, and the rack is installed to L shaped plate front side, and rack and third gear engagement, gear motor and servo motor all have line connection with the control module.

Further, hot-working device is including the second mount, the installation piece, first electric putter, second L-shaped piece, the arc pipe, the flame shower nozzle, the compression fuel tank, first filling valve and hose, the rigid coupling of collar left side has the second mount, the equal rigid coupling in both sides about the second mount is left has the installation piece, all install first electric putter on two installation pieces, equal rigid coupling has second L-shaped piece on two first electric putter, all be connected with the arc pipe on two second L-shaped pieces, all install a plurality of flame shower nozzles on two arc pipes, second mount left side middle part bolted connection has the compression fuel tank, compression fuel tank front side is equipped with first filling valve, compression fuel tank and arc pipe pass through the hose connection, first electric putter and flame shower nozzle all have line connection with the control module.

Further, the quenching device comprises a third fixing frame, connecting frames, second bearing seats, rotary joints, liquid conveying pipes, connectors, water spray heads, a water tank, a water pump, a first water conveying pipe, a second water conveying pipe and a second filling valve, wherein the bottom of the mounting ring is connected with the third fixing frame, the left side and the right side of the bottom of the third fixing frame are connected with the connecting frames, the second bearing seats are bolted on the two connecting frames, the rotary joints are mounted in the two second bearing seats, the two liquid conveying pipes are connected on the two rotary joints, the liquid conveying pipes are connected with the connectors, the water spray heads are connected on the connecting heads, the water tank is bolted in the middle of the bottom of the third fixing frame, the water pump is mounted at the bottom in the water tank, the water pump is connected with a first water conveying pipe for enabling water to flow, the two rotary joints are communicated through the second water conveying pipe, the second water conveying pipe penetrates through the upper, the upper part of the front side of the water tank is provided with a second filling valve, and the water pump is connected with the control module through a line.

Further, the drying device comprises a fourth fixing frame, third guide rails, third guide sleeves, a first L-shaped rod, a first mounting seat, two second electric push rods, a heat preservation box, a heating wire, a filter screen box, a second driving motor and a fan blade, wherein the lower right side of the mounting ring is fixedly connected with the fourth fixing frame, the number of the third guide rails is two, the third guide rails are respectively arranged on the upper side and the lower side of the fourth fixing frame, the third guide sleeves are respectively arranged on the two third guide rails, the first L-shaped rod is connected on the upper third guide sleeve, the top of the fourth fixing frame is connected with the first mounting seat, the first mounting seat is positioned on the upper left side of the upper third guide rail, the second electric push rod is bolted on the first mounting seat, the lower right end of the second electric push rod is fixedly connected with the first L-shaped rod, the heat preservation box is arranged between the two third guide sleeves, the heating wire is arranged on the upper left side of the heat preservation box, the, the output shaft of the second driving motor is provided with fan blades, the inner side of the heat preservation box is provided with a plurality of air outlet holes, and the second electric push rod, the heating wire and the second driving motor are all connected with the control module through circuits.

Furthermore, the rust-proof treatment device comprises a fifth fixing frame, a fourth guide rail, a fourth guide sleeve, a second L-shaped rod, a second mounting seat, a third electric push rod, a supporting rod, a dust-proof box, a supporting block, a first liquid guide pipe, a paint spray head, a rust-proof oil tank, an oil pump, a second liquid guide pipe and a third filling valve, wherein the fifth fixing frame is arranged on the right side of the mounting ring, the fourth guide rail is arranged on the upper part of the right side of the fifth fixing frame, the fourth guide sleeve is sleeved on the fourth guide rail, the upper part of the right side of the fourth guide sleeve is connected with the second L-shaped rod, the top of the fifth fixing frame is bolted with the third electric push rod through the second mounting seat, the right end of the third electric push rod is fixedly connected with the second L-shaped rod, the supporting rod is connected with the lower part of the right side of the fourth guide sleeve, the bottom end of the supporting rod is fixedly connected with the dust-proof, be connected with a plurality of paint spray heads on the first catheter, dust-proof box left side rigid coupling has rust-resistant oil tank, and the oil pump is installed to the right side lower part in the rust-resistant oil tank, is connected with the second catheter on the oil pump, and the second catheter passes rust-resistant oil tank and dust-proof box, and second catheter and first catheter intercommunication, rust-resistant oil tank top are connected with the third filling valve, and third electric putter and oil pump all have line connection with control module.

Further, the device comprises a pushing device, the pushing device comprises a sixth fixing frame, a fourth electric push rod and a pushing block, the upper right side of the mounting ring is connected with the sixth fixing frame, the fourth electric push rod is mounted on the sixth fixing frame, the upper end of the fourth electric push rod is connected with the pushing block used for pushing the bolt, and the fourth electric push rod is in line connection with the control module.

The beneficial effects are that: according to the invention, through the matching of the tapping device, the hot working device and the quenching device, bolts can be produced rapidly in large batch, so that the working efficiency can be improved, and the labor amount of workers can be reduced; antirust oil can be sprayed on the bolt through the antirust treatment device, so that the bolt is prevented from rusting to influence sale; can release the bolt of having produced through ejecting device in the upper right place fill to can make things convenient for the staff to take out the bolt of having produced.

Drawings

Fig. 1 is a first front view structure diagram of the present invention.

Fig. 2 is a second front view structure diagram of the present invention.

Fig. 3 is a partial right view structural diagram of the present invention.

Fig. 4 is a partially enlarged schematic view of the present invention.

Fig. 5 is an enlarged schematic view of the tapping device of the present invention.

FIG. 6 is an enlarged schematic view of the hot working apparatus of the present invention.

FIG. 7 is an enlarged schematic view of the quenching apparatus of the invention.

Fig. 8 is an enlarged schematic view of the drying apparatus of the present invention.

FIG. 9 is an enlarged schematic view of the rust inhibitive treatment apparatus of the present invention.

Fig. 10 is an enlarged schematic view of the ejector of the present invention.

Fig. 11 is a circuit diagram of the present invention.

Fig. 12 is a schematic circuit diagram of the present invention.

In the reference symbols: 1 mounting rack, 101 control box, 102 power main switch, 2 mounting ring, 3 first bearing seat, 4 extending rod, 5 ring box, 6 placing bucket, 7 through hole, 8 fixing ring, 9 impurity discharging hole, 10 first rotating ring, 11 first gear ring, 12 connecting block, 13 ring wireless emitter, 14 contact switch, 15 first L-shaped block, 16 first driving motor, 17 first gear, 30 tapping device, 301 first fixing rack, 302 first guide rail, 303 first guide sleeve, 304 bowl group bearing seat, 305 second rotating ring, 306 threading die, 307 second gear ring, 308 reducing motor, 309 second gear, 3010 servo motor, 3011 third gear, 3012L-shaped plate, 3013 rack, 31 hot processing device, 311 second fixing rack, 312 mounting block, 313 first electric push rod, 314 second L-shaped block, 315 arc-shaped pipe, 316 flame nozzle, 317 compression fuel tank, 318 first filling valve, 319 hose, 32 quenching device, 321 third fixing frame, 322 connecting frame, 323 second bearing seat, 324 swivel joint, 325 transfusion pipe, 326 connector, 327 water nozzle, 328 water tank, 329 water pump, 3210 first aqueduct, 3211 second aqueduct, 3212 second filling valve, 33 drying device, 331 fourth fixing frame, 332 third guide rail, 333 third guide sleeve, 334 first L-shaped rod, 335 first mounting seat, 336 second electric push rod, 337 insulation can, 338 air outlet hole, 339 heating wire, 3310 filter cage 3311 second driving motor, 3312 fan blade, 34 rust-proof processing device, 341 fifth fixing frame, 342 fourth guide rail, 343 fourth guide sleeve, 344 second L-shaped rod, 345 second mounting seat, 346 third electric push rod, 347 support rod, 348 dust-proof box, 349 circular hole, 3410 supporting block, 3411 first liquid guide pipe, 3412 paint spray head, 3413 antirust oil tank, 3414 oil pump, 3415 second liquid guide pipe, 3416 third filling valve, 35 pushing device, 351 sixth fixing frame, 352 fourth electric push rod and 353 pushing block.

Detailed Description

The invention is described in detail below with reference to the figures and the embodiments.

Example 1

An intelligent production device for mass production bolts, as shown in fig. 1-12, comprises a mounting frame 1, a control box 101, a power main switch 102, a mounting ring 2, a first bearing seat 3, an extension rod 4, an annular box 5, a placing hopper 6, a fixing ring 8, a first rotating ring 10, a first gear ring 11, a connecting block 12, an annular wireless transmitter 13, a contact switch 14, a first L-shaped block 15, a first driving motor 16, a first gear 17, a tapping device 30, a hot processing device 31, a quenching device 32, a drying device 33 and an anti-rust treatment device 34, wherein the mounting ring 2 and the fixing ring 8 are connected between the mounting frame 1 at the front side and the mounting ring 8, the mounting ring 2 is positioned in the fixing ring 8, the bottom of the fixing ring 8 is provided with a plurality of impurity discharging holes 9, the control box 101 is bolted to the lower part of the rear side of the mounting frame 1 at the front side, the control box 101 comprises a power module and a control module, a power main switch 102 is arranged at the lower part of the right side of the control box 101, the control module is connected with the power module through a wire, the power main switch 102 is connected with the power module through a wire, first bearing seats 3 are respectively arranged at the front part and the rear part of a mounting ring 2, a ring-shaped box 5 is arranged on the first bearing seat 3 at the rear side, a fixing ring 8 is contacted with the ring-shaped box 5, extension rods 4 with supporting function are respectively connected at the upper side and the lower side of the first bearing seat 3 at the front side, the two extension rods 4 are both connected with the inner side of the ring-shaped box 5, eight placing hoppers 6 which are uniformly arranged at the outer side of the ring-shaped box 5 at intervals in an embedded mode and are in a hexagon shape, through holes 7 are formed in the placing hoppers 6, a first rotating ring 10 is arranged at the rear side of the ring-shaped box, annular wireless transmitter 13 rear side is equipped with eight contact switch 14, eight contact switch 14 all have line connection with annular wireless transmitter 13, annular wireless transmitter 13 and control module pass through wireless transmission and connect, 1 top of mounting bracket of rear side is connected with first L shape piece 15, first L shape piece 15 contacts with the contact switch 14 that is located annular wireless transmitter 13 rear side top, 1 front side middle part bolt joint of mounting bracket of rear side has first driving motor 16, install first gear 17 on first driving motor 16's the output shaft, first gear 17 and the meshing of

first ring gear

11, 2 tops of mounting ring are equipped with

tapping device

30, 2 left sides of mounting ring are equipped with hot-working

set

31, 2 bottoms of mounting ring are equipped with

quenching device

32, 2 right downside of mounting ring is equipped with

drying device

33, 2 right sides of mounting ring are equipped with rust-resistant processing device 34, first driving motor 16 and control module have line connection.

The tapping device 30 comprises a first fixing frame 301, a first guide rail 302, first guide sleeves 303, a bowl group bearing seat 304, a second rotating ring 305, dies 306, a second gear 307, a speed reducing motor 308, a second gear 309, a servo motor 3010, a third gear 3011, an L-shaped plate 3012 and a rack 3013, wherein the top of the mounting ring 2 is connected with the first fixing frame 301, the mounting ring 2 is connected with the first fixing frame 301 in a welding connection mode, the two first guide rails 302 are respectively arranged on the left side and the right side of the top of the first fixing frame 301, the two first guide rails 302 are respectively provided with the first guide sleeves 303, the bowl group bearing seat 304 is arranged between the two first guide sleeves 303, the second rotating ring 305 is arranged in the bowl group bearing seat 304, the die 306 is arranged on the top of the second rotating ring 305, the second gear 307 is arranged on the upper portion of the outer side of the second rotating ring, the speed reducing motor 308 is bolted to the top of the first guide sleeves 303 on the right side, the second gear 309 is meshed with the second ring gear 307, the servo motor 3010 is installed on the front side of the first guide sleeve 303 on the right side, the third gear 3011 is installed on an output shaft of the servo motor 3010, an L-shaped plate 3012 is fixedly connected to the right side of the first guide sleeve 303 on the right side, a rack 3013 is installed on the front side of the L-shaped plate 3012, the rack 3013 is meshed with the third gear 3011, and the speed reduction motor 308 and the servo motor 3010 are connected with the control module through circuits.

The hot processing device 31 comprises a second fixing frame 311, mounting blocks 312, a first electric push rod 313, a second L-shaped block 314, arc-shaped pipes 315, flame spray heads 316, a compression fuel tank 317, a first filling valve 318 and a hose 319, wherein the left side of the mounting ring 2 is fixedly connected with the second fixing frame 311, the upper side and the lower side of the left side of the second fixing frame 311 are fixedly connected with the mounting blocks 312, the first electric push rod 313 is mounted on each of the two mounting blocks 312, the mounting blocks 312 are connected with the first electric push rod 313 in a bolt connection mode, the two first electric push rods 313 are fixedly connected with the second L-shaped block 314, the two second L-shaped blocks 314 are connected with the arc-shaped pipes 315, the two arc-shaped pipes 315 are respectively provided with a plurality of flame spray heads 316, the middle part of the left side of the second fixing frame 311 is bolted with the compression fuel tank 317, the front side of the compression fuel tank 317 is provided with the first filling valve 318, the first electric push rod 313 and the flame spray nozzle 316 are connected with the control module through a circuit.

The quenching device 32 comprises a third fixing frame 321, a connecting frame 322, a second bearing block 323, a rotary joint 324, a liquid conveying pipe 325, a connector 326, a water nozzle 327, a water tank 328, a water pump 329, a first water guide pipe 3210, a second water guide pipe 3211 and a second filling valve 3212, the bottom of the mounting ring 2 is connected with the third fixing frame 321, the left side and the right side of the bottom of the third fixing frame 321 are connected with the connecting frames 322, the second bearing blocks 323 are bolted on the two connecting frames 322, the rotary joints 324 are respectively arranged in the two second bearing blocks 323, the two liquid conveying pipes 325 are respectively connected on the two rotary joints 324, the liquid conveying pipes 325 are connected with the connector 326, the connector 326 is connected with the water nozzle 327, the water tank 328 is bolted in the middle of the bottom of the third fixing frame 321, the water pump 329 is arranged at the bottom of the water tank 328, the water tank 328 is connected with the water pump 329 in a bolt connection mode, the two rotary joints 324 are communicated through a second water guide pipe 3211, the second water guide pipe 3211 penetrates through the upper portion of the water tank 328, the second water guide pipe 3211 is communicated with the first water guide pipe 3210, a second filling valve 3212 is arranged on the upper portion of the front side of the water tank 328, and the water pump 329 is in line connection with the control module.

Example 2

An intelligent production device for production bolts, as shown in fig. 1-12, comprises a mounting frame 1, a control box 101, a main power switch 102, a mounting ring 2, a first bearing seat 3, an extension rod 4, an annular box 5, a placing hopper 6, a fixing ring 8, a first rotating ring 10, a first gear ring 11, a connecting block 12, an annular wireless transmitter 13, a contact switch 14, a first L-shaped block 15, a first driving motor 16, a first gear 17, a tapping device 30, a hot processing device 31, a quenching device 32, a drying device 33 and an anti-rust treatment device 34, wherein the mounting ring 2 and the fixing ring 8 are connected between the mounting frame 1 at the front side and the mounting ring 8, the mounting ring 2 is positioned in the fixing ring 8, a plurality of impurity discharge holes 9 are arranged at the bottom of the fixing ring 8, the control box 101 is bolted in the lower part at the rear side of the mounting frame 1 at the front side, the control box 101 comprises a power module and a control module, the main, the control module is connected with the power module by a wire, the power main switch 102 is connected with the power module by a wire, the front part and the rear part of the mounting ring 2 are respectively provided with a first bearing seat 3, the first bearing seat 3 at the rear side is provided with an annular box 5, the fixing ring 8 is contacted with the annular box 5, the upper side and the lower side of the first bearing seat 3 at the front side are respectively connected with an extension rod 4 which plays a supporting role, the two extension rods 4 are both connected with the inner side of the annular box 5, eight placing buckets 6 which are in hexagonal shapes are embedded at the outer side of the annular box 5 at uniform intervals, a through hole 7 is arranged on the placing buckets 6, the first rotating ring 10 is arranged at the rear side of the annular box 5, the outer side of the first rotating ring 10 is provided with a first gear ring 11, the rear side of the first rotating ring 10 is provided with an annular wireless emitter 13 by a connecting block 12, the rear side of the annular wireless, annular wireless transmitter 13 and control module pass through wireless transmission connection, 1 top of mounting bracket of rear side is connected with first L shape piece 15, first L shape piece 15 and the contact switch 14 contact that is located annular wireless transmitter 13 rear side top, 1 front side middle part bolt joint of mounting bracket of rear side has first driving motor 16, install first gear 17 on first driving motor 16's the output shaft, first gear 17 and the meshing of

first ring gear

11, 2 tops of collar are equipped with

attack tooth device

30, 2 left sides of collar are equipped with hot-working

device

31, 2 bottoms of collar are equipped with

guenching unit

32, 2 right downside of collar are equipped with

drying device

33, 2 right sides of collar are equipped with rust-resistant processing device 34, first driving motor 16 and control module have line connection.

The tapping device 30 comprises a first fixing frame 301, a first guide rail 302, a first guide sleeve 303, a bowl group bearing seat 304, a second rotating ring 305, a threading die 306, a second gear 307, a speed reducing motor 308, a second gear 309, a servo motor 3010, a third gear 3011, an L-shaped plate 3012 and a rack 3013, wherein the top of the mounting ring 2 is connected with the first fixing frame 301, the two first guide rails 302 are respectively arranged at the left side and the right side of the top of the first fixing frame 301, the two first guide rails 302 are respectively provided with the first guide sleeve 303, the bowl group bearing seat 304 is arranged between the two first guide sleeves 303, the second rotating ring 305 is arranged in the bowl group bearing seat 304, the threading die 306 is arranged at the top of the second rotating ring 305, the second gear 307 is arranged at the upper part of the outer side of the second rotating ring 305, the speed reducing motor 308 is bolted at the top of the first guide sleeve 303 at the right side, the second gear 309 is arranged on the output, the servo motor 3010 is installed on the front side of the first guide sleeve 303 on the right side, the third gear 3011 is installed on an output shaft of the servo motor 3010, an L-shaped plate 3012 is fixedly connected to the right side of the first guide sleeve 303 on the right side, a rack 3013 is installed on the front side of the L-shaped plate 3012, the rack 3013 is meshed with the third gear 3011, and the speed reduction motor 308 and the servo motor 3010 are both connected with the control module through circuits.

The hot processing device 31 comprises a second fixing frame 311, a mounting block 312, a first electric push rod 313, a second L-shaped block 314, an arc-shaped pipe 315, a flame nozzle 316, a compression fuel tank 317, a first filling valve 318 and a hose 319, the left side of the mounting ring 2 is fixedly connected with a second fixing frame 311, the upper side and the lower side of the left side of the second fixing frame 311 are fixedly connected with mounting blocks 312, a first electric push rod 313 is mounted on each of the two mounting blocks 312, a second L-shaped block 314 is fixedly connected on each of the two first electric push rods 313, arc-shaped pipes 315 are connected on each of the two second L-shaped blocks 314, a plurality of flame spray nozzles 316 are mounted on each of the two arc-shaped pipes 315, a compression fuel tank 317 is bolted in the middle of the left side of the second fixing frame 311, a first filling valve 318 is arranged on the front side of the compression fuel tank 317, the compression fuel tank 317 and the arc-shaped pipes 315 are connected through hoses 319, and the first electric push rods 313 and the.

The quenching device 32 comprises a third fixing frame 321, a connecting frame 322, a second bearing block 323, a rotary joint 324, a transfusion pipe 325, a connector 326, a water nozzle 327, a water tank 328, a water pump 329, a first aqueduct 3210, a second aqueduct 3211 and a second filling valve 3212, the bottom of the mounting ring 2 is connected with the third fixing frame 321, the left side and the right side of the bottom of the third fixing frame 321 are connected with the connecting frame 322, the second bearing block 323 is bolted on the two connecting frames 322, the rotary joints 324 are respectively arranged in the two second bearing blocks 323, the two rotary joints 324 are respectively connected with the two transfusion pipes 325, the transfusion pipe 325 is connected with the connector 326, the connector 326 is connected with the water nozzle 327, the water tank 328 is bolted in the middle of the bottom of the third fixing frame 321, the water pump 329 is arranged at the bottom of the water tank 328, the water pump 329 is connected with the first aqueduct 3210 for making water flow, the, the second water guide pipe 3211 penetrates the upper part of the water tank 328, the second water guide pipe 3211 is communicated with the first water guide pipe 3210, a second filling valve 3212 is arranged at the upper part of the front side of the water tank 328, and the water pump 329 is in line connection with the control module.

The drying device 33 comprises a fourth fixing frame 331, a third guide rail 332, a third guide sleeve 333, a first L-shaped rod 334, a first mounting seat 335, a second electric push rod 336, a heat preservation box 337, a heating wire 339, a filter screen box 3310, a second driving motor 3311 and a wind blade 3312, wherein the right lower side of the mounting ring 2 is fixedly connected with the fourth fixing frame 331, the mounting ring 2 is connected with the fourth fixing frame 331 by welding, the two third guide rails 332 are respectively arranged at the upper side and the lower side of the fourth fixing frame 331, the two third guide rails 332 are respectively provided with a third guide sleeve 333, the upper third guide sleeve 333 is connected with the first L-shaped rod 334, the top of the fourth fixing frame 331 is connected with a first mounting seat 335, the fourth fixing frame 331 is connected with the first mounting seat 335 by welding, the first mounting seat 335 is positioned at the left upper side of the third guide rail 332, the first mounting seat 335 is bolted with the second electric push rod 336, the right lower end of the second electric push rod 336 is fixedly connected with the first L-shaped rod 334, an insulation can 337 is arranged between the two third guide sleeves 333, a heating wire 339 is arranged on the left upper part of the insulation can 337, the filter screen box 3310 is fixedly connected to the left upper side of the insulation can 337, a second driving motor 3311 is bolted on the left side in the filter screen box 3310, a fan blade 3312 is arranged on an output shaft of the second driving motor 3311, a plurality of air outlet holes 338 are formed in the inner side of the insulation can 337, and a second electric push rod 336, the heating wire 339 and the second driving motor 3311 are all connected with the control module through lines.

The rust-proof treatment device 34 comprises a fifth fixing frame 341, a fourth guide rail 342, a fourth guide sleeve 343, a second L-shaped rod 344, a second mounting seat 345, a third electric push rod 346, a support rod 347, a dust-proof box 348, a support block 3410, a first liquid guide tube 3411, a paint spraying head 3412, a rust-proof oil tank 3413, an oil pump 3414, a second liquid guide tube 3415 and a third filling valve 3416, wherein the fifth fixing frame 341 is mounted on the right side of the mounting ring 2, the fifth fixing frame 341 is connected with the mounting ring 2 by welding, the fourth guide rail 342 is mounted on the upper portion of the right side of the fifth fixing frame 341, the fourth guide sleeve 343 is sleeved on the fourth guide rail 342, the second L-shaped rod 344 is connected to the upper portion of the right side of the fourth guide sleeve 343, the third electric push rod 346 is bolted to the top of the fifth fixing frame 341 through the second mounting seat 345, the right end of the third electric push rod 346 is fixedly connected with the second L-, a dust-proof box 348 is fixedly connected to the bottom end of the supporting rod 347, the supporting rod 347 is connected with the dust-proof box 348 through a welding connection mode, a circular hole 349 is formed in the right side of the dust-proof box 348, a supporting block 3410 is connected to the left side in the dust-proof box 348, a first liquid guide tube 3411 used for enabling rust-proof oil to flow is fixedly connected to the right side of the supporting block 3410, a plurality of paint spraying heads 3412 are connected to the first liquid guide tube 3411, a rust-proof oil tank 3413 is fixedly connected to the left side of the dust-proof box 348, an oil pump 3414 is installed on the lower portion of the right side in the rust-proof oil tank 3413, the rust-proof oil tank 3413 is connected with the oil pump 3414 through a bolt connection mode, a second liquid guide tube 5 is connected to the oil pump 4, the second liquid guide tube 3415 penetrates through the rust-proof oil tank 3413 and the dust-proof box 348, the second liquid guide tube.

The bolt pushing device is characterized by further comprising a pushing device 35, wherein the pushing device 35 comprises a sixth fixing frame 351, a fourth electric push rod 352 and a pushing block 353, the sixth fixing frame 351 is connected to the upper right side of the mounting ring 2, the fourth electric push rod 352 is mounted on the sixth fixing frame 351, the pushing block 353 used for pushing a bolt is connected to the upper end of the fourth electric push rod 352, and the fourth electric push rod 352 is in line connection with the control module.

When the bolt is required to be produced, a worker puts a workpiece into the placing hopper 6 at the upper right, inserts the workpiece into the through hole 7 at the upper right, injects fuel into the hot processing device 31, injects water into the quenching device 32, injects rust preventive oil into the rust preventive treatment device 34, programs are programmed according to the length of the workpiece, then the programs are input into the control module, then the power main switch 102 is pressed to electrify the device, then the key A on the remote controller of the device is pressed, the remote controller sends out signals, the control module receives the signals and controls the first driving motor 16 to rotate clockwise, meanwhile, the control module controls the tapping device 30 and the hot processing device 31 to work, the first driving motor 16 rotates clockwise to drive the first gear 17 to rotate clockwise, so as to drive the first gear ring 11 to rotate counterclockwise, the annular box 5 is driven to rotate counterclockwise by the first rotating ring 10, and then drive and place the fill 6 and rotate counterclockwise, the work piece rotates counterclockwise with it, can also drive the joint block 12 and rotate counterclockwise through the first rotating ring 10, thus drive the annular wireless launcher 13 to rotate counterclockwise, the contact switch 14 rotates counterclockwise with it, when the contact switch 14 rotates counterclockwise and contacts with first L-shaped block 15, the contact switch 14 sends out the signal, the annular wireless launcher 13 sends out the signal, the control module controls the first driving motor 16 to stop rotating clockwise for 30 seconds after receiving the signal, the work piece rotates to directly over the tapping device 30 at this moment, because the tapping device 30 is working, thus can carry on the tapping to the work piece, meanwhile, the staff puts a work piece into and rotates to the upper right place fill 6 again, and when the first driving motor 16 stops rotating clockwise for 30 seconds each time, the staff all need to put the work piece into and rotate to the upper right place the fill 6, after 30 seconds, the first driving motor 16 continues to rotate clockwise, the workpiece and the contact switch 14 rotate anticlockwise, when the next contact switch 14 is in contact with the first L-shaped block 15, the first driving motor 16 stops rotating clockwise for 30 seconds, at this time, the workpiece with teeth attacked rotates anticlockwise to be close to the hot processing device 31, because the hot processing device 31 is working, fire can be sprayed on the workpiece with teeth attacked for hot processing, meanwhile, the control module controls the drying device 33 to work for 28 seconds, after 28 seconds, the drying device 33 stops working, and when the first driving motor 16 stops rotating clockwise for 30 seconds each time, the drying device 33 works for 28 seconds, meanwhile, the control module controls the rust prevention processing device 34 to work for 11 seconds, after 11 seconds, the rust prevention processing device 34 stops working, and when the first driving motor 16 stops rotating clockwise for 30 seconds each time, the rust prevention processing device 34 works for 11 seconds, after 30 seconds, the first driving motor 16 continues to rotate clockwise, the workpiece and the contact switch 14 rotate anticlockwise, when the next contact switch 14 is in contact with the first L-shaped block 15, the first driving motor 16 stops rotating clockwise for 30 seconds, at this time, the hot-working device 31 performs hot working on the workpiece with the teeth, after 30 seconds, the first driving motor 16 continues rotating clockwise, the workpiece and the contact switch 14 rotate anticlockwise, when the next contact switch 14 is in contact with the first L-shaped block 15, the first driving motor 16 stops rotating clockwise for 30 seconds, at this time, the quenching device 32 is close to the workpiece after hot working, because the quenching device 32 works for 10 seconds when the first driving motor 16 stops rotating clockwise for 30 seconds each time, the quenching device 32 can spray water on the workpiece after hot working to quench the workpiece after hot working, after 10 seconds, the quenching device 32 stops working, after 30 seconds, the first driving motor 16 continues to rotate clockwise, the workpiece and the contact switch 14 rotate anticlockwise, when the next contact switch 14 contacts with the first L-shaped block 15, the first driving motor 16 stops rotating clockwise for 30 seconds, at this time, the quenching device 32 works for 10 seconds, water is sprayed on the hot-processed workpiece again, the hot-processed workpiece is quenched, after 10 seconds, the quenching device 32 stops working, at this time, the hot-processed workpiece is processed into a bolt, after 30 seconds, the first driving motor 16 continues rotating clockwise, the workpiece and the contact switch 14 rotate anticlockwise, when the next contact switch 14 contacts with the first L-shaped block 15, the first driving motor 16 stops rotating clockwise for 30 seconds, at this time, the bolt approaches the drying device 33, because the first driving motor 16 stops rotating clockwise for 30 seconds each time, the drying device 33 works for 28 seconds, so that the drying device 33 can spray hot air on the bolt to dry the bolt, after 28 seconds, the drying device 33 stops working, after 30 seconds, the first driving motor 16 continues to rotate clockwise, the workpiece and the contact switch 14 rotate anticlockwise, when the next contact switch 14 contacts with the first L-shaped block 15, the first driving motor 16 stops rotating clockwise for 30 seconds, at the moment, the bolt approaches the rust prevention processing device 34, because the rust prevention processing device 34 works for 11 seconds when the first driving motor 16 stops rotating clockwise for 30 seconds each time, the rust prevention processing device 34 can spray rust prevention oil on the bolt to prevent rust on the bolt, so that the bolt is prevented from influencing sale, after 11 seconds, the rust prevention processing device 34 stops working, after 30 seconds, the first driving motor 16 continues to rotate clockwise, the workpiece and the contact switch 14 rotate anticlockwise, when next contact switch 14 contacts with first L-shaped block 15, first driving motor 16 stops clockwise rotation for 30 seconds, the bolt rotates to the upper right side this moment, people can take off the bolt that has produced, because first driving motor 16 stops clockwise rotation for 30 seconds at every turn, tapping device 30, hot-working device 31, quenching device 32, drying device 33 and rust-resistant treatment device 34 all can work, thereby can be fast and large batch production bolt, and then can improve work efficiency, and can alleviate staff's the amount of labour, in the annular box 5 was fallen to debris that produces in the course of working, then discharge from row's miscellaneous hole 9 through-hole 7. When the bolts do not need to be produced, the worker stops putting the workpiece into the placing hopper 6 which rotates to the upper right, then presses the B key on the remote controller equipped in the device, the remote controller sends out a signal, the control module receives the signal and controls the first driving motor 16 to stop rotating clockwise, meanwhile, the control module controls the tapping device 30 and the hot processing device 31 to stop working, the worker presses the power supply main switch 102 again, and the device is powered off.

The worker presses a key A on a remote controller equipped in the device, the remote controller sends a signal, the control module receives the signal and controls the reducing motor 308 to rotate clockwise to drive the second gear 309 to rotate clockwise, thereby driving the second gear 307 to rotate clockwise, further driving the second rotating ring 305 to rotate clockwise, the dies 306 rotate clockwise, meanwhile, the control module controls the servo motor 3010 to rotate clockwise to drive the third gear 3011 to rotate clockwise, the third gear 3011 rolls upwards on the rack 3013, so that the servo motor 3010 moves upwards, thereby driving the first guide sleeve 303 on the right side to move upwards, the bowl group bearing seat 304 drives the second rotating ring 305 to move upwards, the dies 306 move upwards along with the third gear, tapping is performed on a workpiece, when the dies 306 move upwards to a position set in a program, the control module controls the reducing motor 308 to rotate anticlockwise to drive the dies 306 to rotate anticlockwise, meanwhile, the control module controls the servo motor 3010 to rotate anticlockwise to drive the die 306 to move downwards, when the die 306 moves downwards to a position set in a program, the control module controls the speed reducing motor 308 to stop rotating anticlockwise, meanwhile, the control module controls the servo motor 3010 to stop rotating anticlockwise, and the whole process can be completed within 30 seconds, so that the rotation of a workpiece is not influenced.

The operator opens the first fill valve 318 and then fills the compressed fuel tank 317 with fuel. When the compression tank 317 contains an appropriate amount of fuel, the operator stops filling the compression tank 317 with fuel and then closes the first fill valve 318. The staff presses down the A key on the remote controller that this device was equipped with, the remote controller sends a signal, control module control flame shower nozzle 316 circular telegram behind the control module received signal, flame shower nozzle 316 spouts flame, control module control first electric putter 313 extends simultaneously, drive second L-shaped piece 314 and move left, thereby drive arc pipe 315 and move left, and then drive flame shower nozzle 316 and move left, make flame shower nozzle 316 spout flame can carry out hot working to the work piece of attacking the tooth, when flame shower nozzle 316 moves left to the position of setting for in the procedure, electric putter shortens, drive flame shower nozzle 316 and move right, when flame shower nozzle 316 moves right to the position of setting for in the procedure, flame shower nozzle 316 cuts off the power supply and stops spouting fire, electric putter stops shortening, whole process can be accomplished within 30 seconds, consequently, do not influence the work piece and rotate.

The worker opens the second filling valve 3212 and then fills the water tank 328 with water. When a proper amount of water is filled in the water tank 328, the worker stops filling the water into the water tank 328 and then closes the second filling valve 3212. When the contact switch 14 rotates anticlockwise and contacts with the first L-shaped block 15, the contact switch 14 sends a signal, the control module receives the signal and then controls the water pump 329 to work for 10 seconds, the water pump 329 works to suck water in the water tank 328 into the first water guide pipe 3210, then the water flows into the rotary joint 324 through the second water guide pipe 3211 and flows into the connector 326 through the liquid conveying pipe 325, and finally the water is sprayed out of the water spray head 327 and sprayed onto a workpiece after thermal processing, the water spray head 327 is driven to rotate through reaction force, so that the water can be uniformly sprayed onto the workpiece after thermal processing, and the workpiece after thermal processing is quenched. After 10 seconds, the water pump 329 stops working, the water stops spraying from the water spray head 327, and the water spray head 327 stops rotating, at this moment, the hot-processed workpiece has already been processed into the bolt, can finish this process in 10 seconds, therefore do not influence the workpiece rotation.

When the contact switch 14 rotates counterclockwise to contact with the first L-shaped block 15, the contact switch 14 sends a signal, the control module receives the signal and controls the second electric push rod 336 to extend for 4 seconds, so as to drive the first L-shaped rod 334 to move to the right and downward, so as to drive the right third guide sleeve 333 to move to the right and downward, so as to drive the thermal insulation box 337 to move to the right and downward, after 4 seconds, the second electric push rod 336 stops extending, at this time, the bolt is just located in the thermal insulation box 337, the control module controls the heating wire 339 to be powered on for 20 seconds, so as to heat air, the control module controls the second driving motor 3311 to work for 20 seconds, so as to drive the fan blade 3312 to rotate to generate wind, so as to blow hot air, so that the hot air is sprayed out through the air outlet 338 and onto the bolt, so as to dry the bolt, after 20 seconds, the heating wire 339 is powered off, so as to stop working of the driving motor, and controls the, the thermal insulation box 337 is driven to move to the upper left, and after 4 seconds, the second electric push rod 336 stops shortening, and the thermal insulation box 337 moves to the initial position.

The worker opens the third filling valve 3416 and then fills rust preventive oil into the rust preventive oil tank 3413. When the rust-preventive oil tank 3413 is filled with a proper amount of rust-preventive oil, the worker stops pouring the rust-preventive oil into the rust-preventive oil tank 3413, and then closes the third pouring valve 3416. When the contact switch 14 rotates counterclockwise to contact with the first L-shaped block 15, the contact switch 14 sends a signal, the control module receives the signal and controls the third electric push rod 346 to extend for 4 seconds to drive the second L-shaped rod 344 to move rightwards, thereby driving the fourth guide sleeve 343 to move rightwards, the support rod 347 drives the dust-proof box 348 to move rightwards, after 4 seconds, the third electric push rod 346 stops extending, at this time, the dried workpiece is just positioned in the dust-proof box 348, the control module controls the oil pump 3414 to work for 3 seconds, the oil pump 3414 sucks the rust-proof oil in the rust-proof oil tank 3413 into the second liquid guide tube 5, then the rust-proof oil is sprayed from the spray head 3412 through the first liquid guide tube 1 to be sprayed on the bolt 3414 to rust-proof the bolt, so as to avoid the bolt from influencing rust-proof sale, after 3 seconds, the oil pump 3414 stops working, and at the same time, the control module controls, after 4 seconds, the third motorized push bar 346 stops shortening, at which time the dust box 348 moves to the home position.

When contact switch 14 anticlockwise rotation contacts with first L-shaped piece 15, contact switch 14 signals, control module control fourth electric putter 352 extends 3 seconds behind the control module received signal, drive ejector pad 353 and move to the upper right, ejector pad 353 promotes the bolt, release the bolt of having produced in the upper right place fill 6, thereby can make things convenient for the staff to take out the bolt of having produced, 3 seconds back, fourth electric putter 352 stops the extension, control module control fourth electric putter 352 shortens 3 seconds simultaneously, drive ejector pad 353 and move to the left side below, 3 seconds back, fourth electric putter 352 stops to shorten.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by the present specification, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims

1. An intelligent production device for production bolts comprises a mounting frame (1), a control box (101), a power main switch (102), a mounting ring (2), a first bearing seat (3), an extension rod (4), an annular box (5), a placing hopper (6) and a fixing ring (8), wherein the mounting ring (2) and the fixing ring (8) are connected between the mounting frame (1) on the front side and the rear side, the mounting ring (2) is positioned in the fixing ring (8), the bottom of the fixing ring (8) is provided with a plurality of impurity removing holes (9), the lower part of the rear side of the mounting frame (1) on the front side is bolted with the control box (101), the control box (101) internally comprises a power module and a control module, the lower part of the right side of the control box (101) is provided with the power main switch (102), the control module is in line connection with the power module, the power main switch (102) is in line connection with the power module, the first bearing seat (3), the device is characterized by further comprising a first rotating ring (10), a first gear ring (11), a connecting block (12), an annular wireless transmitter (13), a contact switch (14), a first L-shaped block (15), a first driving motor (16), a first gear (17), a tapping device (30), a hot processing device (31), a quenching device (32), a drying device (33) and an anti-rust treatment device (34), the first rotating ring (10) is installed on the rear side of the annular box (5), a first gear ring (11) is installed on the outer side of the first rotating ring (10), an annular wireless transmitter (13) is installed on the rear side of the first rotating ring (10) through a connecting block (12), eight contact switches (14) are arranged on the rear side of the annular wireless transmitter (13), the eight contact switches (14) are in circuit connection with the annular wireless transmitter (13), the annular wireless transmitter (13) is in wireless transmission connection with a control module, a first L-shaped block (15) is connected to the top of the mounting frame (1) on the rear side, the first L-shaped block (15) is in contact with the contact switches (14) located above the rear side of the annular wireless transmitter (13), a first driving motor (16) is bolted to the middle portion of the front side of the mounting frame (1) on the rear side, and a first gear (17) is installed on an output shaft of the first driving, first gear (17) and first ring gear (11) meshing, collar (2) top is equipped with tapping device (30), collar (2) left side is equipped with hot-working set (31), collar (2) bottom is equipped with guenching unit (32), collar (2) right side downside is equipped with drying device (33), collar (2) right side is equipped with rust-resistant treatment device (34), first driving motor (16) and control module have the line connection.

2. The intelligent production equipment for the mass production of the bolts as claimed in claim 1, wherein the tapping device (30) comprises a first fixing frame (301), a first guide rail (302), a first guide sleeve (303), a bowl group bearing seat (304), a second rotating ring (305), a die (306), a second gear ring (307), a speed reduction motor (308), a second gear (309), a servo motor (3010), a third gear (3011), an L-shaped plate (3012) and a rack (3013), the top of the mounting ring (2) is connected with the first fixing frame (301), the two first guide rails (302) are respectively arranged at the left side and the right side of the top of the first fixing frame (301), the two first guide rails (302) are respectively provided with the first guide sleeve (303), the bowl group bearing seat (304) is arranged between the two first guide sleeves (303), the second rotating ring (305) is arranged in the bowl group bearing seat (304), the top of the second rotating ring (305) is provided with a threading die (306), the upper part of the outer side of the second rotating ring (305) is provided with a second gear ring (307), the top of the first guide sleeve (303) on the right side is connected with a speed reducing motor (308) in a bolt mode, the output shaft of the speed reducing motor (308) is provided with a second gear (309), the second gear (309) is meshed with the second gear ring (307), a servo motor (3010) is arranged on the front side of the first guide sleeve (303) on the right side, the output shaft of the servo motor (3010) is provided with a third gear (3011), the right side of the first guide sleeve (303) on the right side is fixedly connected with an L-shaped plate (3012), the front side of the L-shaped plate (3012) is provided with a rack (3013), the rack (3013) is meshed with the third gear (3011), and the speed.

3. The intelligent production equipment for the production of the bolts according to claim 2, wherein the hot working device (31) comprises a second fixing frame (311), a mounting block (312), a first electric push rod (313), a second L-shaped block (314), an arc-shaped pipe (315), a flame spray nozzle (316), a compression fuel tank (317), a first filling valve (318) and a hose (319), the second fixing frame (311) is fixedly connected to the left side of the mounting ring (2), the mounting blocks (312) are fixedly connected to the upper side and the lower side of the left side of the second fixing frame (311), the first electric push rods (313) are respectively mounted on the two mounting blocks (312), the second L-shaped block (314) is fixedly connected to the two first electric push rods (313), the arc-shaped pipe (315) is respectively connected to the two second L-shaped blocks (314), the plurality of flame spray nozzles (316) are respectively mounted to the two arc-shaped pipes (315), the compression fuel tank (317) is bolted to the middle portion of the left side of the, the front side of the compression fuel tank (317) is provided with a first filling valve (318), the compression fuel tank (317) is connected with the arc-shaped pipe (315) through a hose (319), and the first electric push rod (313) and the flame nozzle (316) are connected with the control module through circuits.

4. The intelligent production equipment for the mass production bolt according to claim 3, wherein the quenching device (32) comprises a third fixing frame (321), a connecting frame (322), a second bearing seat (323), a rotary joint (324), a transfusion tube (325), a connector (326), a water nozzle (327), a water tank (328), a water pump (329), a first aqueduct (3210), a second aqueduct (3211) and a second filling valve (3212), the bottom of the mounting ring (2) is connected with the third fixing frame (321), the left side and the right side of the bottom of the third fixing frame (321) are connected with the connecting frame (322), the two connecting frames (322) are bolted with the second bearing seat (323), the rotary joint (324) is installed in the two second bearing seats (323), the two rotary joints (324) are connected with the two 325), the transfusion tube (325) is connected with the connector (326), be connected with water shower nozzle (327) on connector (326), water tank (328) are bolted connection in the middle of third mount (321) bottom, water pump (329) are installed to the bottom in water tank (328), be connected with first aqueduct (3210) that are used for making rivers to flow on water pump (329), two rotary joint (324) are through second aqueduct (3211) intercommunication, water tank (328) upper portion is passed in second aqueduct (3211), second aqueduct (3211) and first aqueduct (3210) intercommunication, water tank (328) front side upper portion is equipped with second filling valve (3212), water pump (329) and control module have line connection.

5. The intelligent production equipment of a production quantity bolt according to claim 4, characterized in that the drying device (33) comprises a fourth fixing frame (331), a third guide rail (332), a third guide sleeve (333), a first L-shaped rod (334), a first mounting seat (335), a second electric push rod (336), a heat preservation box (337), a heating wire (339), a filter screen box (3310), a second driving motor (3311) and fan blades (3312), the right lower side of the mounting ring (2) is fixedly connected with the fourth fixing frame (331), the number of the third guide rails (332) is two, the third guide rails (332) are respectively arranged on the upper side and the lower side of the fourth fixing frame (331), the third guide sleeve (333) is arranged on each of the two third guide rails (332), the first L-shaped rod (334) is connected on the upper third guide sleeve (333), the first mounting seat (335) is connected to the top of the fourth fixing frame (331), and the first mounting seat (335) is positioned on the left upper side of the third guide rail (, first mount pad (335) are gone up the bolt and are had second electric putter (336), second electric putter (336) right side lower extreme and first L shape pole (334) fixed connection, install insulation can (337) between two third guide pin bushings (333), heater strip (339) are installed on insulation can (337) upper left portion, strain box (3310) rigid coupling in insulation can (337) upper left side, it has second driving motor (3311) to strain the left side bolt connection in box (3310), install fan blade (3312) on the output shaft of second driving motor (3311), insulation can (337) inboard is opened has a plurality of ventholes (338), second electric putter (336), heater strip (339) and second driving motor (3311) all have the line connection with control module.

6. The intelligent production equipment for the production bolt according to claim 5, wherein the rust prevention treatment device (34) comprises a fifth fixing frame (341), a fourth guide rail (342), a fourth guide sleeve (343), a second L-shaped rod (344), a second mounting seat (345), a third electric push rod (346), a support rod (347), a dust box (348), a support block (3410), a first liquid guide pipe (3411), a paint spraying head (3412), a rust prevention oil tank (3413), an oil pump (3414), a second liquid guide pipe (3415) and a third filling valve (3416), the fifth fixing frame (341) is installed on the right side of the mounting ring (2), the fourth guide rail (342) is installed on the upper portion of the right side of the fifth fixing frame (341), the fourth guide sleeve (343) is sleeved on the fourth guide rail (343), the second L-shaped rod (344) is connected to the upper portion of the right side of the fourth guide rail (343), and the top of the fifth fixing frame (341) is connected with the third electric push rod (346) through the second mounting seat (345), the right end of a third electric push rod (346) is fixedly connected with a second L-shaped rod (344), a support rod (347) is connected to the lower portion of the right side of a fourth guide sleeve (343), a dust box (348) is fixedly connected to the bottom end of the support rod (347), a circular hole (349) is formed in the right side of the dust box (348), a support block (3410) is connected to the left side in the dust box (348), a first liquid guide pipe (3411) used for enabling rust-proof oil to flow is fixedly connected to the right side of the support block (3410), a plurality of paint spraying heads (3412) are connected to the first liquid guide pipe (3411), a rust-proof oil tank (3413) is fixedly connected to the left side of the dust box (348), an oil pump (3414) is installed on the lower portion of the right side in the rust-proof oil tank (3413), a second liquid guide pipe (3415) is connected to the oil pump (3414), the second liquid guide pipe (3415) penetrates through the rust-proof oil tank (3413) and the dust box (348), the second, the third electric push rod (346) and the oil pump (3414) are connected with the control module through a circuit.

7. A production bolt intelligent production equipment according to claim 6, further comprising a push-out device (35), wherein the push-out device (35) comprises a sixth fixing frame (351), a fourth electric push rod (352) and a push block (353), the sixth fixing frame (351) is connected to the upper right side of the mounting ring (2), the fourth electric push rod (352) is mounted on the sixth fixing frame (351), the push block (353) used for pushing the bolt is connected to the upper end of the fourth electric push rod (352), and the fourth electric push rod (352) is in line connection with the control module.