CN117245406A - Stainless steel bolt piece manufacturing device - Google Patents

Abstract

The invention discloses a stainless steel bolt piece manufacturing device, which belongs to the technical field of bolt manufacturing and comprises a rod feeding device placed on the ground, wherein the rod feeding device is used for feeding a stainless steel rod into the device and cutting the stainless steel rod into bolt lengths, a transferring device is arranged on the rod feeding device and used for performing tapping and other operations on a semi-finished stainless steel bolt to manufacture the stainless steel bolt, and a head cutting device is arranged on the transferring device and used for cutting the head of the semi-finished stainless steel bolt into a hexagon. The rod feeding mechanism provided by the invention can automatically and continuously feed the stainless steel rods into the device, automatically cut the stainless steel rods into specified lengths and cut the stainless steel rods into stainless steel bolt semi-finished products, so that the subsequent processing is facilitated; the head cutting device cuts the head of the stainless steel bolt semi-finished product into a hexagon, the tapping mechanism taps the stainless steel bolt semi-finished product to finally form the stainless steel bolt, all actions are continuously performed, the degree of automation is high, and the manufacturing efficiency is high.

Description

Stainless steel bolt piece manufacturing device

Technical Field

The invention relates to the technical field of bolt manufacturing, in particular to a stainless steel bolt piece manufacturing device.

Background

Bolts are one of the most widely used standard in industry, and the types are also various, and different materials and different types of bolts are used in different scenes. In a more humid environment, stainless steel bolts must be used to extend the life of the bolts, thereby increasing equipment stability. The chinese patent publication No. CN110792673a discloses a bolt and a method of manufacturing the same, in which a groove is added to a bolt head to suppress the generation of liquid accumulation, and a machine tool is manually operated to manufacture the bolt. However, in the prior art, an operator is still required to operate a machine tool to manufacture the bolt, so that full-automatic machining and manufacturing of the bolt cannot be realized, and the efficiency is low.

Disclosure of Invention

Aiming at the technical problems, the invention adopts the following technical scheme: the utility model provides a stainless steel bolt spare manufacturing installation, includes the stick device that send of placing on ground, send excellent device including cutting the stick frame, cut the stick frame and place subaerial, send excellent device to be used for sending into the device with the stainless steel stick to cut into bolt length, send excellent device on be provided with transfer device, transfer device include outer box, outer box fixed mounting is on cutting the stick frame, transfer device be used for carrying out operations such as tapping with the semi-manufactured stainless steel bolt and make into the stainless steel bolt, transfer device on be provided with the crop device, the crop device include the cutting board, cutting board fixed mounting is on outer box, the crop device be used for half finished stainless steel bolt head to cut into hexagon.

And placing the stainless steel rod into a rod feeding device, cutting the stainless steel rod into bolt lengths, namely semi-finished bolts, then enabling the semi-finished bolts to enter a transferring device, cutting the heads of the semi-finished bolts into hexagons through a head cutting device, and then tapping the semi-finished bolts through the transferring device to finally form the stainless steel bolts.

Further, the rod feeding device comprises a rod sleeve fixedly arranged below a rod cutting frame, an outer roller and an inner roller are rotatably arranged on the rod cutting frame, an outer friction shaft and an inner friction shaft are rotatably arranged on the rod cutting frame, an outer bevel gear is fixedly arranged on the outer friction shaft, an inner bevel gear is fixedly arranged on the inner friction shaft, the outer friction shaft and the outer roller are driven through friction, the inner roller and the inner friction shaft are driven through friction, a main rotating shaft is rotatably arranged on the rod cutting frame, a worm and a main rotating gear are fixedly arranged on the main rotating shaft, the worm is meshed with the outer bevel gear, a rotating rod wheel is rotatably arranged on the rod cutting frame, the main rotating gear is meshed with the rotating rod wheel, a middle end gear is fixedly arranged on the main rotating shaft, an upper rotating shaft is fixedly provided with an upper middle gear and an upper end gear, a cutting blade is rotatably arranged on the rod cutting frame, a blade gear is fixedly arranged on the cutting blade, the blade gear is meshed with the middle end gear, the cutting rod is fixedly arranged on the rod cutting frame, and the inner rotating rod is fixedly arranged on the rod cutting frame.

Further, the teeth on the outer bevel gear and the inner bevel gear are bevel teeth, and the direction of the bevel teeth of the inner bevel gear and the direction of the bevel teeth of the outer bevel gear are opposite.

The stainless steel rod is placed in the rod sleeve, the action motor rotates to drive the inclined transmission belt to rotate so as to drive the upper end gear and the upper rotating shaft to rotate, the upper middle gear is driven to rotate through the rotation of the upper rotating shaft so as to drive the middle end gear and the main rotating shaft to rotate so as to drive the main rotating gear to rotate, the rotary rod wheel drives the stainless steel rod to rotate in the rod sleeve, the main rotating shaft rotates to drive the worm to rotate, and the direction of the inclined teeth on the inner bevel gear and the outer bevel gear is opposite, so that the worm drives the outer bevel gear and the inner bevel gear to rotate in opposite directions so as to drive the outer friction shaft and the inner friction shaft to rotate so as to drive the outer roller and the inner roller to rotate, and the stainless steel rod is driven to slide in the rod sleeve, and the stainless steel rod slides forwards in the rod sleeve.

The stainless steel rod rotates in the rod sleeve to advance and can be cut through the fixed knife, so that the diameter of the part of the stainless steel rod cut by the fixed knife is reduced, the main rotating shaft rotates and drives the middle end gear to rotate, the blade gear and the cutting blade are driven to rotate, the stainless steel rod is cut into one section, the cutting position of the cutting blade is in front of the fixed knife, and a semi-finished product of the stainless steel bolt cut by the cutting blade is a section of long small-diameter cylinder plus a section of short large-diameter cylinder, namely a bolt to be processed is dropped into the transfer device.

Further, the transfer device comprises a motor support fixedly arranged on the side face of the outer box body, an action motor is fixedly arranged on the motor support, an inner wheel, a middle wheel and an outer wheel are fixedly arranged on an output shaft of the action motor, oblique transmission belts are wound outside the inner wheel and the upper end gear, transverse transmission belts are wound outside the middle wheel, overturning teeth are fixedly arranged on the outer box body, a middle stand is placed on the ground, a middle wheel is rotatably arranged on the middle stand, lower rod clamping belts are wound outside the middle wheel and the outer wheel, bolts to be processed are arranged on the lower rod clamping belts, an upper driving wheel is rotatably arranged on the middle column of the outer box body and the outer stand, an outer middle wheel is rotatably arranged on the outer wheel stand, a stirring belt is wound outside the upper driving wheel and the outer middle wheel, a part of gear rack is fixedly arranged between the middle driving wheel and the outer wheel rack, a tapping plate is fixedly arranged on the part of the gear rack, and a tapping mechanism is arranged below the tapping plate.

Further, the tapping mechanism comprises a tapping frame placed on the ground, a left tapping wheel and a right tapping wheel are rotatably installed on the tapping frame, a left triangular wheel is fixedly installed on the left tapping wheel, a right triangular wheel is fixedly installed on the right tapping wheel, a middle transmission wheel and a top wheel are rotatably installed on the tapping frame, triangular belts are wound outside the left triangular wheel, the right triangular wheel and the middle transmission wheel, transverse belts are wound outside the middle transmission wheel and the middle wheel, vertical belts are wound outside the top wheel and the middle transmission wheel, an edge transmission wheel is fixedly installed on the outer middle wheel, and an outer transmission belt is wound outside the edge transmission wheel and the top wheel.

Further, the upper clamping bar belt and the lower clamping bar belt are respectively provided with a semicircular groove with the same diameter as the long cylindrical section of the bolt to be processed.

Before using, firstly, manually put several to-be-machined bolts between the upper clamping bar belt and the inner idler wheel, the to-be-machined bolts after cutting are dropped onto the lower clamping bar belt in the outer box body, the action motor rotates to drive the outer wheel to rotate so as to drive the lower clamping bar belt to rotate, thereby the to-be-machined bolts between the upper clamping bar belt and the lower clamping bar belt are conducted, the upper clamping bar belt is driven to rotate, thereby the to-be-machined bolts continuously drop from the stainless steel bar after being cut off are conveyed forwards through the upper clamping bar belt and the lower clamping bar belt, the to-be-machined bolts can rotate when touching the turning gear, the head cutting device is matched with the to-be-machined bolts to cut heads, the two groups of turning gears are used for enabling the to be machined bolts to rotate twice, the heads of the to be machined bolts are cut into hexagons, then the upper clamping bar belt and the lower clamping bar belt drive the intermediate transfer wheel to rotate through the upper clamping bar belt and part of the gear frame, the intermediate transfer wheel is driven to rotate through the upper clamping bar belt and the lower clamping bar belt, the intermediate transfer wheel is driven to rotate through the intermediate transfer wheel, and the top wheel is driven to rotate through the vertical drive belt, and the outer driving wheel and the left side drive wheel and the turning gear rotates towards the left turning gear to drive plate to rotate, and the left side drive part to rotate towards the turning gear to rotate, and the tap is driven to rotate, and finally, the tap is driven to rotate and rotates.

The middle transfer wheel rotates and can drive the right tapping wheel and the left tapping wheel through the triangular belt, the bolt to be processed is driven to be tapped through the right tapping wheel and the left tapping wheel, tapping operation is completed, namely manufacturing of the stainless steel bolt is completed, and the final stainless steel bolt is taken down manually.

Further, the crop device include fixed mounting on the cutting board promote the motor, fixed mounting has the eccentric wheel on the output shaft of promotion motor, rotates on the eccentric wheel and installs the transfer line, rotates on the transfer line and installs the push rod, rotates on the push rod and installs outer push rod and slip motor cabinet, slip motor cabinet and cutting board slidable mounting, push rod below fixed mounting has the slip chassis, slip chassis and cutting board slidable mounting have the cutting motor on the slip motor cabinet, fixed mounting has long gear shaft on the output shaft of cutting motor, fixed mounting has drive gear on the long gear shaft, rotates on the outer push rod and installs the cutting drive wheel, the outer winding of cutting drive wheel and drive gear has the drive belt, fixed mounting has the cutting wheel on the cutting drive wheel.

Further, three pairs of cutting wheels are arranged on the head cutting device.

The driving motor rotates to drive the eccentric wheel to rotate, thereby drive the transfer line to rotate, thereby drive the push rod to rotate, thereby drive outer push rod and slip motor cabinet and slide along the cutting board, finally realize the feeding of cutting wheel, the cutting motor rotates and drives long gear shaft and drive gear to rotate, thereby drive the cutting wheel through the drive belt and rotate, treat the processing bolt head and cut, can pass through two upset teeth in the in-process that moves along with last clamp bar area and lower clamp bar area, after the cutting of the processing bolt head is treated to first cutting wheel, can contact with first upset tooth, upset tooth can make the bolt rotation sixty degrees of waiting to process, then the second cutting wheel is treated the bolt and is accomplished once cutting, then wait to process the bolt and can make waiting to process the bolt and rotate sixty degrees again, then the third cutting wheel is treated to process the bolt and is accomplished last cutting, wait to process the bolt and rotate twice altogether, wait to process the bolt head and be hexagon after cutting.

Compared with the prior art, the invention has the beneficial effects that: (1) The rod feeding mechanism provided by the invention can automatically and continuously feed the stainless steel rods into the device, automatically cut the stainless steel rods into specified lengths and cut the stainless steel rods into stainless steel bolt semi-finished products, so that the subsequent processing is facilitated; (2) The head cutting device and the transfer device are matched, so that the head of the semi-finished stainless steel bolt can be cut into a hexagon, the semi-finished stainless steel bolt is tapped through the tapping mechanism on the transfer device, the stainless steel bolt is finally formed, all actions are continuously performed, the automation degree is high, and the manufacturing efficiency is high; (3) The action motor provided by the invention drives the stainless steel bar to rotate, move, cut and the like, drives the stainless steel bolt semi-finished product to circulate in the device, and simultaneously drives the tapping mechanism to tap the stainless steel bolt semi-finished product, so that the power source is less, the redundancy of a control system is reduced, and the manufacturing efficiency is improved.

Drawings

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

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

FIG. 3 is a schematic view of a rod feeding apparatus according to the present invention.

FIG. 4 is a schematic view of the structure of the inner and outer bevel gears of the present invention.

Fig. 5 is a schematic structural diagram of a transfer device according to the present invention.

Fig. 6 is a schematic structural diagram of a transfer device according to the present invention.

Fig. 7 is a schematic diagram of a transfer device according to the third embodiment of the present invention.

FIG. 8 is a schematic view of the structure of the upper and lower bands of the present invention.

Fig. 9 is a schematic structural view of a head cutting device according to the present invention.

Fig. 10 is a schematic structural diagram of a head cutting device according to the present invention.

Reference numerals: 101-a rod cutting frame; 102-rod sleeve; 103-a main rotating shaft; 104-a worm; 105-inner bevel gear; 106-an outer bevel gear; 107-an outer friction shaft; 108-an outer roller; 109-inner rollers; 110-main rotation gear; 111-stick turning wheels; 112-stainless steel bar; 113-upper spindle; 114-upper middle gear; 115-upper end gear; 116-a middle gear; 117-cutting blades; 118-blade gear; 119-fixing the knife; 120-an inner friction shaft; 201-an outer box; 202-an action motor; 203-a motor bracket; 204-inner wheel; 205-middle wheel; 206-an inclined drive belt; 207-transverse belt; 208-turning teeth; 209-lower grip; 210-upper grip; 211-an outer wheel; 212-an intermediate wheel; 213-middle stand; 214-opposite stand; 215-upper driving wheel; 216-toggle the belt; 217-outer wheel frame; 218-an outer intermediate wheel; 219-partial rack; 220-tapping rack; 221-an intermediate transfer wheel; 222-vertical transmission belts; 223-top wheel; 224-v-belt; 225-right triangle; 226-right tapping wheel; 227-left tapping wheel; 228-left triangle; 229-an outer drive belt; 230-edge driving wheel; 231-tapping the plate; 232-a bolt to be processed; 301-cutting a plate; 302-a push motor; 303-eccentric wheel; 304-a transmission rod; 305-push rod; 306-an outer pushrod; 307-sliding motor mount; 308-a cutting motor; 309-a long gear shaft; 310-a transmission gear; 311-a transmission belt; 312-cutting wheel; 313-cutting the driving wheel; 314-sliding chassis.

Detailed Description

The following describes the embodiments of the present invention further with reference to the drawings.

Examples: referring to fig. 1 to 10, a stainless steel bolt piece manufacturing apparatus includes a bar feeding device placed on the ground, the bar feeding device including a bar cutting frame 101, the bar cutting frame 101 placed on the ground, the bar feeding device for feeding a stainless steel bar into the apparatus and cutting the length of the bolt, a transfer device provided on the bar feeding device, the transfer device including an outer box 201, the outer box 201 being fixedly mounted on the bar cutting frame 101, the transfer device for tapping a stainless steel bolt semi-finished product to be made into a stainless steel bolt, the transfer device being provided with a head cutting device including a cutting plate 301, the cutting plate 301 being fixedly mounted on the outer box 201, the head cutting device for cutting the head of the semi-finished stainless steel bolt into a hexagon.

And placing the stainless steel rod into a rod feeding device, cutting the stainless steel rod into bolt lengths, namely semi-finished bolts, then enabling the semi-finished bolts to enter a transferring device, cutting the heads of the semi-finished bolts into hexagons through a head cutting device, and then tapping the semi-finished bolts through the transferring device to finally form the stainless steel bolts.

As shown in fig. 3 and 4, the rod feeding device comprises a rod sleeve 102 fixedly installed below a rod cutting frame 101, an outer roller 108 and an inner roller 109 are rotatably installed on the rod cutting frame 101, an outer friction shaft 107 and an inner friction shaft 120 are rotatably installed on the rod cutting frame 101, an outer bevel gear 106 is fixedly installed on the outer friction shaft 107, an inner bevel gear 105 is fixedly installed on the inner friction shaft 120, the outer friction shaft 107 and the outer roller 108 are driven by friction force, the inner roller 109 and the inner friction shaft 120 are driven by friction force, a main rotating shaft 103 is rotatably installed on the rod cutting frame 101, a worm 104 and a main rotating gear 110 are fixedly installed on the main rotating shaft 103, the worm 104 is meshed with the outer bevel gear 106, a rod rotating wheel 111 is rotatably installed on the rod cutting frame 101, the main rotating gear 110 is meshed with the rod rotating wheel 111, a middle end gear 116 is fixedly installed on the main rotating shaft 103, an upper rotating shaft 113 is fixedly installed on the upper rotating shaft 113, an upper middle gear 114 and an upper end gear 115, the upper middle gear 114 is meshed with the middle gear 116, a cutter blade 116 is installed on the cutter frame 101, a cutter blade 118 is fixedly meshed with the cutter blade 118, and the cutter blade 116 is fixedly installed on the cutter frame 101.

As shown in fig. 4, the teeth on the outer helical gear 106 and the inner helical gear 105 are helical teeth, and the direction of the helical teeth of the inner helical gear 105 and the outer helical gear 106 are opposite.

The stainless steel rod 112 is placed in the rod sleeve 102, the action motor 202 rotates to drive the inclined transmission belt 206 to rotate so as to drive the upper end gear 115 and the upper rotating shaft 113 to rotate, the upper middle gear 114 is driven to rotate by the rotation of the upper rotating shaft 113 so as to drive the middle end gear 116 and the main rotating shaft 103 to rotate so as to drive the main rotating gear 110 to rotate so as to drive the rotating rod wheel 111 to rotate, the rotating rod wheel 111 drives the stainless steel rod 112 to rotate in the rod sleeve 102, the main rotating shaft 103 rotates and simultaneously drives the worm 104 to rotate, and the directions of the inclined teeth on the inner bevel gear 105 and the outer bevel gear 106 are opposite so that the worm 104 drives the outer bevel gear 106 and the inner bevel gear 105 to rotate in opposite directions so as to drive the outer friction shaft 107 and the inner friction shaft 120 to rotate so as to drive the outer roller 108 and the inner roller 109 to drive the stainless steel rod 112 to slide in the rod sleeve 102, and the stainless steel rod 112 to slide forwards in the rod sleeve 102 to rotate.

The stainless steel rod 112 rotates and advances in the rod sleeve 102 to cut the stainless steel rod 112 through the fixed knife 119, so that the diameter of the part of the stainless steel rod 112 cut by the fixed knife 119 is reduced, the main rotating shaft 103 rotates and drives the middle end gear 116 to rotate, so that the blade gear 118 and the cutting blade 117 are driven to rotate, the stainless steel rod 112 is cut into a section, the cutting position of the cutting blade 117 is in front of the fixed knife 119, and therefore a semi-finished product of the stainless steel bolt cut by the cutting blade 117 is a section of a long small-diameter cylinder plus a section of a short large-diameter cylinder, namely a bolt 232 to be processed, and then the bolt 232 to be processed falls into a transferring device.

As shown in fig. 5 to 8, the transfer device includes a motor bracket 203 fixedly installed at a side of an outer case 201, a motion motor 202 fixedly installed on the motor bracket 203, an inner wheel 204, a middle wheel 205 and an outer wheel 211 fixedly installed on an output shaft of the motion motor 202, an inclined transmission belt 206 externally wound around the inner wheel 204 and the upper end gear 115, a transverse transmission belt 207 externally wound around the middle wheel 205, turning teeth 208 fixedly installed on the outer case 201, a middle stand 213 placed on the ground, a middle wheel 212 rotatably installed on the middle stand 213, a lower clamp bar belt 209 externally wound around the middle wheel 212 and the outer wheel 211, a bolt 232 to be processed provided on the lower clamp bar belt 209, an upper clamp bar belt 210 externally wound around an inner column and the middle stand 213 of the outer case 201, a pair of stand 214 and an outer stand 217 placed on the ground, an upper transmission wheel 215 rotatably installed on the pair of stand 214, an outer transmission belt 216 externally wound around the upper transmission wheel 215, a fixed mounting portion tooth 219 between the upper transmission wheel 215 and the outer wheel stand 217, a pair of stand 219 and a gear 219 fixedly installed on the upper toothed plate 231, and a lower clamp bar 231 installed on the ground, and a tapping mechanism installed on the lower plate 231.

As shown in fig. 5 to 7, the tapping mechanism includes a tapping frame 220 placed on the ground, a left tapping wheel 227 and a right tapping wheel 226 are rotatably mounted on the tapping frame 220, a left triangle wheel 228 is fixedly mounted on the left tapping wheel 227, a right triangle wheel 225 is fixedly mounted on the right tapping wheel 226, a middle transmission wheel 221 and a top wheel 223 are rotatably mounted on the tapping frame 220, a triangle belt 224 is wound outside the left triangle wheel 228, the right triangle wheel 225 and the middle transmission wheel 221, a transverse transmission belt 207 is wound outside the middle transmission wheel 221 and the middle wheel 205, a vertical transmission belt 222 is wound outside the top wheel 223 and the middle transmission wheel 221, a side transmission wheel 230 is fixedly mounted on the outer middle wheel 218, and an outer transmission belt 229 is wound outside the side transmission wheel 230 and the top wheel 223.

As shown in fig. 8, the upper and lower clamp bands 210 and 209 are each provided with a semicircular groove having the same diameter as the long cylindrical section of the bolt 232 to be processed.

Before use, a plurality of bolts 232 to be processed are manually placed between the upper bar clamping belt 210 and the inner roller 109, the bolts 232 to be processed after cutting fall onto the lower bar clamping belt 209 in the outer box 201, the action motor 202 rotates to drive the outer wheel 211 to rotate so as to drive the lower bar clamping belt 209 to rotate, thereby driving the upper bar clamping belt 210 to rotate by conducting the bolts 232 to be processed between the upper bar clamping belt 210 and the lower bar clamping belt 209, continuously conveying the bolts 232 to be processed after cutting off the stainless steel bar 112 forwards by the upper bar clamping belt 210 and the lower bar clamping belt 209, rotating the bolts 232 to be processed when the bolts 232 to be processed touch the overturning teeth 208, cutting heads of the bolts 232 to be processed by matching with the head cutting device, rotating the bolts 232 to be processed twice by two groups of overturning teeth 208, the head of the bolt 232 to be machined is cut into a hexagon, then the upper clamping bar belt 210 and the lower clamping bar belt 209 send the bolt 232 to be machined after the end cutting to a position between the stirring belt 216 and a part of the rack 219, the action motor 202 rotates to drive the middle wheel 205 to rotate simultaneously, the transverse transmission belt 207 drives the middle transmission wheel 221 to rotate, the middle transmission wheel 221 rotates to drive the top wheel 223 to rotate through the vertical transmission belt 222, the outer transmission belt 229 drives the side transmission wheel 230 and the outer middle wheel 218 to rotate, the stirring belt 216 is driven to rotate, the stirring belt 216 rotates to drive the bolt 232 to be machined to move along the part of the rack 219 towards the tapping plate 231, and finally the bolt 232 to be machined falls between the right tapping wheel 226 and the left tapping wheel 227 through the tapping plate 231.

The middle transfer wheel 221 rotates to drive the right tapping wheel 226 and the left tapping wheel 227 through the triangular belt 224, and the bolt 232 to be processed is driven to be tapped through the right tapping wheel 226 and the left tapping wheel 227, so that tapping operation is completed, namely, manufacturing of the stainless steel bolt is completed, and the final stainless steel bolt is taken down manually.

As shown in fig. 9 and 10, the head cutting device comprises a push motor 302 fixedly mounted on a cutting board 301, an eccentric wheel 303 is fixedly mounted on an output shaft of the push motor 302, a transmission rod 304 is rotatably mounted on the eccentric wheel 303, a push rod 305 is rotatably mounted on the transmission rod 304, an outer push rod 306 and a sliding motor seat 307 are rotatably mounted on the push rod 305, the sliding motor seat 307 is slidably mounted with the cutting board 301, a sliding bottom frame 314 is fixedly mounted below the push rod 306, the sliding bottom frame 314 is slidably mounted with the cutting board 301, a cutting motor 308 is fixedly mounted on the sliding motor seat 307, a long gear shaft 309 is fixedly mounted on an output shaft of the cutting motor 308, a transmission gear 310 is fixedly mounted on the long gear shaft 309, a cutting transmission wheel 313 is rotatably mounted on the push rod 306, a transmission belt 311 is wound outside the cutting transmission wheel 313 and the transmission gear 310, and a cutting wheel 312 is fixedly mounted on the cutting transmission wheel 313.

Three pairs of cutting wheels 312 are provided on the crop apparatus.

The pushing motor 302 rotates to drive the eccentric wheel 303 to rotate so as to drive the transmission rod 304 to rotate so as to drive the push rod 305 to rotate, thereby driving the outer push rod 306 and the sliding motor seat 307 to slide along the cutting plate 301, and finally realizing the feeding of the cutting wheel 312, the cutting motor 308 rotates to drive the long gear shaft 309 and the transmission gear 310 to rotate, thereby driving the cutting wheel 312 to rotate through the transmission belt 311, the head of the bolt 232 to be processed is cut, the bolt 232 to be processed passes through two turnover teeth 208 in the moving process along with the upper clamping bar belt 210 and the lower clamping bar belt 209, after the head of the bolt 232 to be processed is cut by the first cutting wheel 312, the bolt 232 to be processed is contacted with the first turnover teeth 208, the turnover teeth 208 enable the bolt 232 to be processed to rotate for sixty degrees, then the second cutting wheel 312 is contacted with the second turnover teeth 208, the bolt 232 to be processed is rotated for sixty degrees again, then the third cutting wheel 312 is completed to cut the bolt 232 to be processed for the last time, and after the bolt 232 to be processed is cut for two times, the head of the bolt 232 to be processed into a hexagon.

The invention discloses a stainless steel bolt piece manufacturing device, which has the working principle that: the stainless steel rod 112 is placed in the rod sleeve 102, the action motor 202 rotates to drive the inclined transmission belt 206 to rotate so as to drive the upper end gear 115 and the upper rotating shaft 113 to rotate, the upper middle gear 114 is driven to rotate by the rotation of the upper rotating shaft 113 so as to drive the middle end gear 116 and the main rotating shaft 103 to rotate so as to drive the main rotating gear 110 to rotate so as to drive the rotating rod wheel 111 to rotate, the rotating rod wheel 111 drives the stainless steel rod 112 to rotate in the rod sleeve 102, the main rotating shaft 103 rotates and simultaneously drives the worm 104 to rotate, and the directions of the inclined teeth on the inner bevel gear 105 and the outer bevel gear 106 are opposite so that the worm 104 drives the outer bevel gear 106 and the inner bevel gear 105 to rotate in opposite directions so as to drive the outer friction shaft 107 and the inner friction shaft 120 to rotate so as to drive the outer roller 108 and the inner roller 109 to drive the stainless steel rod 112 to slide in the rod sleeve 102, and the stainless steel rod 112 to slide forwards in the rod sleeve 102 to rotate. Before use, a plurality of bolts 232 to be processed are manually placed between the upper rod clamping belt 210 and the inner roller 109, the bolts 232 to be processed after cutting are dropped onto the lower rod clamping belt 209 in the outer box 201, the action motor 202 rotates to drive the outer wheel 211 to rotate so as to drive the lower rod clamping belt 209 to rotate, the bolts 232 to be processed between the upper rod clamping belt 210 and the lower rod clamping belt 209 are conducted, the upper rod clamping belt 210 is driven to rotate, the bolts 232 to be processed after cutting off the stainless steel rod 112 are continuously conveyed forwards through the upper rod clamping belt 210 and the lower rod clamping belt 209, the pushing motor 302 rotates to drive the eccentric wheel 303 to rotate so as to drive the transmission rod 304 to rotate so as to drive the push rod 305 to drive the outer push rod 306 and the sliding motor seat 307 to slide along the cutting plate 301, finally, the feeding of the cutting wheel 312 is realized, the cutting motor 308 rotates to drive the long gear shaft 309 and the transmission gear 310 to rotate, the cutting wheel 312 is driven to rotate through the driving belt 311, the head of the bolt 232 to be processed is cut, the bolt 232 to be processed passes through the two overturning teeth 208 in the process of moving along with the upper rod clamping belt 210 and the lower rod clamping belt 209, after the head of the bolt 232 to be processed is cut by the first cutting wheel 312, the bolt 232 to be processed is contacted with the first overturning tooth 208, the overturning teeth 208 enable the bolt 232 to be processed to rotate for sixty degrees, then the second cutting wheel 312 completes one-time cutting of the bolt 232 to be processed, then the bolt 232 to be processed is contacted with the second overturning tooth 208, the overturning tooth 208 enables the bolt 232 to be processed to rotate for sixty degrees again, then the third cutting wheel 312 completes the last cutting of the bolt 232 to be processed, the bolt 232 to be processed rotates twice in total, the head of the bolt 232 to be processed is hexagonal after cutting is completed, the upper clamping bar belt 210 and the lower clamping bar belt 209 then convey the bolt 232 to be processed after the end cutting to a position between the stirring belt 216 and a part of the rack 219, the action motor 202 rotates to drive the middle wheel 205 to rotate simultaneously, so that the middle transmission wheel 221 is driven to rotate through the transverse transmission belt 207, the middle transmission wheel 221 rotates to drive the top wheel 223 to rotate through the vertical transmission belt 222, the outer transmission belt 229 drives the side transmission wheel 230 and the outer middle wheel 218 to rotate, so that the stirring belt 216 is driven to rotate, the stirring belt 216 rotates to drive the bolt 232 to be processed to move towards the tapping inlet plate 231 along the part of the rack 219, the bolt 232 to be processed finally falls between the right tapping wheel 226 and the left tapping wheel 227 through the tapping inlet plate 231, the middle transmission wheel 221 rotates to drive the right tapping wheel 226 and the left tapping wheel 227 through the triangular belt 224, and the right tapping wheel 226 and the left tapping wheel 227 drive the bolt 232 to be processed to complete tapping operation, namely the manufacturing of the stainless steel bolt is completed, and the final finished stainless steel bolt is manually taken down.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present invention, and not for limiting the same; although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some or all of the technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit of the invention.

Claims (8)

1. The utility model provides a stainless steel bolt piece manufacturing installation, includes to place at the stick device that send on ground, its characterized in that: the rod feeding device comprises a rod cutting frame (101), the rod cutting frame (101) is placed on the ground, the rod feeding device is used for feeding stainless steel rods into the device and cutting the stainless steel rods into bolt lengths, the rod feeding device is provided with a transferring device, the transferring device comprises an outer box body (201), the outer box body (201) is fixedly arranged on the rod cutting frame (101), the transferring device is used for manufacturing stainless steel bolts into stainless steel bolt semi-finished products through tapping and the like, the transferring device is provided with a head cutting device, the head cutting device comprises a cutting plate (301), the cutting plate (301) is fixedly arranged on the outer box body (201), and the head cutting device is used for cutting the heads of the semi-finished stainless steel bolts into hexagons.

2. A stainless steel bolt member manufacturing apparatus according to claim 1, wherein: the rod feeding device comprises a rod sleeve (102) fixedly arranged below a rod cutting frame (101), an outer roller (108) and an inner roller (109) are rotatably arranged on the rod cutting frame (101), an outer friction shaft (107) and an inner friction shaft (120) are rotatably arranged on the rod cutting frame (101), an outer bevel gear (106) is fixedly arranged on the outer friction shaft (107), an inner bevel gear (105) is fixedly arranged on the inner friction shaft (120), the outer friction shaft (107) and the outer roller (108) are in transmission through friction, the inner roller (109) and the inner friction shaft (120) are in transmission through friction, a main rotating shaft (103) is rotatably arranged on the rod cutting frame (101), a worm (104) and a main rotating gear (110) are fixedly arranged on the main rotating shaft (103), the worm (104) is meshed with the outer bevel gear (106), a rotating rod wheel (111) is rotatably arranged on the rod cutting frame (101), the main rotating gear (110) is meshed with the rotating rod wheel (111), a middle rotating shaft (103) is fixedly arranged on the main rotating shaft (103), a middle rotating shaft (116) is fixedly arranged on the end of the rod cutting frame (101), a middle rotating shaft (116) is fixedly arranged on the middle rotating shaft (116), and a middle rotating shaft (114) is fixedly arranged on the upper end of the rotating shaft (116), a cutting blade (117) is rotatably arranged on the cutting rod frame (101), a blade gear (118) is fixedly arranged on the cutting blade (117), the blade gear (118) is meshed with the middle end gear (116), a fixed knife (119) is fixedly arranged on the cutting rod frame (101), and a stainless steel rod (112) is placed in the rod sleeve (102).

3. A stainless steel bolt member manufacturing apparatus according to claim 2, wherein: the teeth on the outer bevel gear (106) and the inner bevel gear (105) are helical teeth, and the directions of the helical teeth of the inner bevel gear (105) and the helical teeth of the outer bevel gear (106) are opposite.

4. A stainless steel bolt member manufacturing apparatus according to claim 2, wherein: the transfer device comprises a motor bracket (203) fixedly arranged on the side surface of an outer box body (201), an action motor (202) is fixedly arranged on the motor bracket (203), an inner wheel (204), a middle wheel (205) and an outer wheel (211) are fixedly arranged on an output shaft of the action motor (202), an inclined transmission belt (206) is externally wound on the inner wheel (204) and an upper end gear (115), a transverse transmission belt (207) is externally wound on the middle wheel (205), a turnover gear (208) is fixedly arranged on the outer box body (201), a middle stand (213) is arranged on the ground, a middle wheel (212) is rotatably arranged on the middle stand (213), a lower clamping bar belt (209) is externally wound on the middle wheel (212) and the outer wheel (211), a bolt (232) to be processed is arranged on the lower clamping bar belt (209), an upper clamping bar belt (210) is externally wound on the inner column of the outer box body (201), a stand (214) and a stand (217) are arranged on the ground, an upper transmission wheel (215) is rotatably arranged on the stand (214), a middle wheel (217) is rotatably arranged on the stand (217), a middle wheel (217) is rotatably arranged on the stand (214), a lower clamping bar (218) and an outer wheel (218) is fixedly arranged on the outer stand (219), part of the rack (219) is fixedly provided with a tapping inlet plate (231), and a tapping mechanism is arranged below the tapping inlet plate (231).

5. A stainless steel bolt member manufacturing apparatus according to claim 4, wherein: the tapping mechanism comprises a tapping frame (220) placed on the ground, a left tapping wheel (227) and a right tapping wheel (226) are rotatably installed on the tapping frame (220), a left triangle wheel (228) is fixedly installed on the left tapping wheel (227), a right triangle wheel (225) is fixedly installed on the right tapping wheel (226), a middle transmission wheel (221) and a top wheel (223) are rotatably installed on the tapping frame (220), a triangle belt (224) is externally wound on the left triangle wheel (228), the right triangle wheel (225) and the middle transmission wheel (221), a transverse transmission belt (207) is externally wound on the middle transmission wheel (221) and the middle wheel (205), a vertical transmission belt (222) is externally wound on the top wheel (223), an edge transmission wheel (230) is fixedly installed on the outer middle wheel (218), and an outer transmission belt (229) is externally wound on the edge transmission wheel (230) and the top wheel (223).

6. A stainless steel bolt member manufacturing apparatus according to claim 4, wherein: the upper rod clamping belt (210) and the lower rod clamping belt (209) are respectively provided with a semicircular groove with the same diameter as the long cylindrical section of the bolt (232) to be processed.

7. A stainless steel bolt member manufacturing apparatus according to claim 1, wherein: the head cutting device comprises a pushing motor (302) fixedly arranged on a cutting plate (301), an eccentric wheel (303) is fixedly arranged on an output shaft of the pushing motor (302), a transmission rod (304) is rotatably arranged on the eccentric wheel (303), a push rod (305) is rotatably arranged on the transmission rod (304), an outer push rod (306) and a sliding motor seat (307) are rotatably arranged on the push rod (305), the sliding motor seat (307) is slidably arranged on the cutting plate (301), a sliding underframe (314) is fixedly arranged below the outer push rod (306), the sliding underframe (314) is slidably arranged on the cutting plate (301), a cutting motor (308) is fixedly arranged on the output shaft of the cutting motor (308), a long gear shaft (309) is fixedly arranged on the output shaft of the long gear shaft (309), a cutting transmission wheel (313) is rotatably arranged on the outer push rod (306), a transmission belt (311) is wound outside the cutting transmission wheel (313), and a cutting transmission wheel (312) is fixedly arranged on the cutting transmission wheel (313).

8. A stainless steel bolt member manufacturing apparatus according to claim 7, wherein: three pairs of cutting wheels (312) are arranged on the head cutting device.