CN117182583B - Stainless steel nut processingequipment - Google Patents

Abstract

The utility model discloses a stainless steel nut processing device, which belongs to the technical field of nut processing and comprises a feeding device placed on the ground, wherein the feeding device is used for cutting a hexagon of a stainless steel rod, a cutting device is arranged on the feeding device and is used for cutting the hexagon of the stainless steel rod, a tapping device is arranged on the cutting device and is used for tapping the stainless steel rod, and finally the nut is formed. The hexagonal cutting mechanism provided by the utility model can cut the stainless steel rod into a hexagon, and pass through the hexagon, the hexagonal stainless steel rod is cut into a plurality of small blocks through the cutting mechanism, and finally the stainless steel nut is tapped through the tapping mechanism, so that the whole process is continuously carried out, the degree of automation is high, and the manufacturing efficiency of the stainless steel nut is high; the cutting motor drives the cutting wheel to cut the hexagonal stainless steel bar into a plurality of small blocks, and the cutting motor drives the six trimming gears to cut the stainless steel bar into a hexagonal shape, so that the degree of automation is high.

Description

Stainless steel nut processingequipment

Technical Field

The utility model relates to the technical field of nut processing, in particular to a stainless steel nut processing device.

Background

The nut is used as a part which is matched with the bolt in industry, the nut is matched according to the condition of the bolt, and the nut has the same performance as the bolt. The base material of the nut made of stainless steel has excellent corrosion resistance, has strength higher than that of conventional materials, and is widely applied in special scenes. The Chinese patent publication No. CN213258219U discloses a stainless steel nut processing device, the prior art is matched with a telescopic rod through a positioning device on a base to position, and then the nut is clamped through a lifting platform. However, in the prior art, only the nut can be clamped, the nut still needs to be processed by manual operation, and automatic processing of the stainless steel nut cannot be realized.

Disclosure of Invention

Aiming at the technical problems, the utility model adopts the following technical scheme: the utility model provides a stainless steel nut processingequipment, includes the feed arrangement who places on ground, feed arrangement include the liftout frame, feed arrangement be used for cutting the hexagonal to the stainless steel stick, feed arrangement on be provided with cutting device, cutting device include cutting groove, cutting groove fixed mounting is on the liftout frame, cutting device be used for cutting the hexagonal stainless steel stick, cutting device on be provided with tapping device, tapping device include the sheave, the sheave rotates to be installed on cutting groove, tapping device be used for carrying out tapping processing to the stainless steel material, finally form the nut.

And (3) putting the stainless steel bar into a feeding device, processing the stainless steel bar into a hexagonal column material through the feeding device, punching and cutting the hexagonal stainless steel material by a blanking device along with goods, and then tapping the stainless steel material by a tapping device to finally finish the processing of the stainless steel nut.

Further, feed arrangement include slidable mounting push rod in the liftout frame, rotate on the push rod and install and push away the frame, push away on the frame fixed mounting and push away the post, placed the stainless steel stick in the liftout frame, fixed mounting has a side cut section of thick bamboo on the liftout frame, fixed mounting has down the silo on the side cut section of thick bamboo, hexagonal pushes away post and down silo slidable mounting, is provided with on the side cut section of thick bamboo and cuts hexagonal mechanism.

Further, the hexagonal mechanism cuts including rotating the bottom gear post of installing in the liftout frame lower part, fixed mounting has the tip gear on the bottom gear post, the outside winding of tip gear has the drive belt, the outside rotation of side cut section of thick bamboo is installed four ring gear, the outside rotation of side cut section of thick bamboo is installed four sets of transfer cut gears, fixed mounting has the side cut gear on the transfer cut gear, wherein the transfer cut gear that is closest to the liftout frame side is located side cut section of thick bamboo directly over, the transfer cut gear that is closest to the lower silo side is located side cut section of thick bamboo under, two sets of transfer cut gears in the middle are provided with two respectively, and two transfer cut gears are located the oblique side of side cut section of thick bamboo respectively, ring gear and transfer cut gear meshing, ring gear and bottom gear post meshing.

Further, the stainless steel rod is cut by the hexagonal cutting mechanism to form a hexagonal stainless steel rod, and the hexagonal stainless steel rod is positioned in the blanking groove.

The stainless steel rod is placed in the ejector rack, the ejector rack and the push rod are driven to slide in the ejector rack through the forward movement of the hexagonal pushing column, the push rod ejects the stainless steel rod in the ejector rack into the trimming cylinder, the end gear is driven to rotate through the transmission belt, the bottom gear column is driven to rotate, the movable ring gear is driven to rotate, the transmission gear and the trimming gear are driven to rotate, the stainless steel rod is cut into the hexagonal stainless steel rod through the rotation of the trimming gear, the hexagonal stainless steel rod is pushed into the blanking groove by the push rod, meanwhile the hexagonal pushing column slides in the hexagonal stainless steel rod, and the hexagonal stainless steel rod is pushed into the blanking device from the blanking groove.

Further, the cutting device include fixed mounting in the horizontal sliding chute of cutting groove side, slidable mounting has the ejection of compact to push away the post on the horizontal sliding chute, fixed mounting has ejection of compact push rod on the ejection of compact push rod, fixed mounting has the motor of punching a hole on the ejection of compact push rod, fixed mounting has the punch head on the output shaft of the motor of punching a hole, fixed mounting has the spout of punching a hole on the cutting groove, punch head and spout slidable mounting of punching a hole, fixed mounting has the motor frame on the cutting groove, is provided with actuating mechanism on the motor frame, is provided with cutting mechanism on the cutting groove.

Further, the driving mechanism comprises a motor fixedly installed on a motor frame, a large gear is rotatably installed on the motor frame, a connecting rod is rotatably installed on the large gear, a lifting frame is rotatably installed on the connecting rod, a limiting plate is fixedly installed on a cutting groove, the lifting frame and the limiting plate are slidably installed, a left pull rod and a right pull rod are rotatably installed on the lifting frame, the left pull rod and the punching motor are rotatably installed, and the right pull rod and the hexagonal pushing column are rotatably installed.

Further, the cutting mechanism comprises a cutting motor fixedly mounted on the cutting groove, a lower cutting shaft is fixedly mounted in the cutting groove, a cutting shaft is fixedly mounted on an output shaft of the cutting motor, a cutting gear is fixedly mounted on the cutting shaft, a transmission shaft is fixedly mounted on the cutting shaft, a transmission gear is fixedly mounted on the transmission shaft, a transmission belt is externally wound on the transmission gear, a cutting wheel is rotatably mounted on the lower cutting shaft, a lower wheel is fixedly mounted on the cutting wheel, and a cutting transmission belt is externally wound on the lower wheel and the cutting gear.

The large gear rotates to drive the connecting rod to rotate, thereby drive the crane to slide back and forth in the limiting plate, thereby drive left pull rod and right pull rod periodic rotation, thereby drive ejection of compact push rod and ejection of compact push rod to slide back and forth on the horizontal spout, and the motor of punching a hole slides back and forth on the spout of punching a hole, and the hexagonal push rod slides back and forth in the blanking groove, thereby realize that the push rod pushes the stainless steel rod into the side cut section of thick bamboo and cuts the hexagon and then get into the blanking groove, and the hexagonal push rod pushes the last hexagonal stainless steel rod that cuts and finishes in the blanking groove into the cutting groove, and the motor of punching a hole rotates to drive the punching head to rotate, simultaneously the motor of punching a hole slides along the spout of punching a hole and simultaneously punches the hexagonal stainless steel rod that is pushed out by the hexagonal push rod, simultaneously the ejection of compact push rod slides along the horizontal spout, drive the last hexagonal stainless steel rod that is cut by the cutting mechanism to push into the tapping device, after the hexagonal stainless steel rod is punched, then because the hexagonal push rod pushes the hexagonal push rod into the cutting device along the return groove after the hexagonal stainless steel rod is punched.

The cutting motor rotates to drive the cutting shaft to rotate, so that the transmission shaft and the transmission gear are driven to rotate, the end gear and the bottom gear column are driven to rotate through the transmission belt, and the hexagonal cutting mechanism is driven to act; meanwhile, the cutting shaft rotates to drive the cutting gear to rotate, so that the lower wheel is driven to rotate through the cutting conveyor belt, the cutting wheel is driven to rotate, the punched hexagonal stainless steel rod is cut into a plurality of nut-shaped stainless steel materials, and then the stainless steel materials are pushed into the tapping device through the discharging pushing column.

Further, the tapping device comprises an intermittent gear fixedly mounted on a motor shaft of the motor, a gradual change high wheel is fixedly mounted on the intermittent gear, an inner support and an outer support are placed on the ground, a small oil cylinder is fixedly mounted on the inner support, a large oil cylinder is fixedly mounted on the outer support, an oil pipe is fixedly mounted between the small oil cylinder and the large oil cylinder, an oil pushing rod is slidably mounted in the small oil cylinder, a rebound spring is arranged between the oil pushing rod and the small oil cylinder, the oil pushing rod is in contact with the gradual change high wheel, a tapping push rod is slidably mounted in the large oil cylinder, a tapping head is rotatably mounted on the tapping push rod, the tapping gear is meshed with the intermittent gear, and oil is filled in the small oil cylinder, the oil pipe and the large oil cylinder.

Further, the grooved pulley is provided with an arc-shaped groove, the intermittent gear is provided with a poking rod, and the poking rod slides in the arc-shaped groove.

The stainless steel piece pushed out by the ejection of compact pushing pillar enters into the recess of sheave, the motor rotates and drives intermittent gear and rotate, thereby drive the tapping head and rotate, intermittent gear rotates and drives the gradual change high wheel and rotate simultaneously, thereby gradual change high wheel drive oil pushing rod slides in the little oily section of thick bamboo, rebound spring initial state is the state of loosening, in the in-process of gradual change high wheel rotation, rebound spring is compressed repeatedly and released, oil pushing rod slides repeatedly in the little oily section of thick bamboo, thereby under the effect of the oil in little oily section of thick bamboo, oil pipe and the big oily section of thick bamboo, promote the tapping push rod and slide reciprocally in the big oily section of thick bamboo, thereby drive the tapping head and rotate and advance, thereby carry out the tapping to the stainless steel nut in the sheave, the in-process of intermittent gear rotation can be through the slip of stirring rod in the arc groove simultaneously, drive the sheave rotates, every round of intermittent gear, the sheave rotates one quarter circle, thereby make every sheave accomplish one tap, just rotate ninety degrees, pour out the stainless steel nut that the tapping is accomplished.

The intermittent gear can drive the large gear to rotate simultaneously in the rotation process.

Compared with the prior art, the utility model has the beneficial effects that: (1) The hexagonal cutting mechanism provided by the utility model can cut the stainless steel rod into a hexagon, and pass through the hexagon, the hexagonal stainless steel rod is cut into a plurality of small blocks through the cutting mechanism, and finally the stainless steel nut is tapped through the tapping mechanism, so that the whole process is continuously carried out, the degree of automation is high, and the manufacturing efficiency of the stainless steel nut is high; (2) The motor provided by the utility model drives various pushing actions at the same time, so that the pushing actions are periodically and continuously carried out, and the automation degree is high; (3) The cutting motor drives the cutting wheel to cut the hexagonal stainless steel bar into a plurality of small blocks, and the cutting motor drives the six trimming gears to cut the stainless steel bar into a hexagonal shape, so that the degree of automation is high.

Drawings

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

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

Fig. 3 is a schematic structural diagram of a feeding device according to the present utility model.

Fig. 4 is a schematic diagram of a feeding device according to a second embodiment of the present utility model.

FIG. 5 is a schematic view of a hexagonal cutting mechanism according to the present utility model.

Fig. 6 is a schematic structural diagram of a blanking device of the present utility model.

Fig. 7 is a schematic structural diagram of a blanking device according to the present utility model.

FIG. 8 is a schematic view of a cutting mechanism according to the present utility model.

Fig. 9 is a schematic diagram of the driving mechanism of the present utility model.

Fig. 10 is a schematic view of a tapping unit according to the present utility model.

FIG. 11 is a schematic illustration of the intermittent gear and sheave engagement of the present utility model.

Fig. 12 is a schematic diagram of a tapping unit according to the present utility model.

Reference numerals: 101-jacking a material rack; 102-pushing rod; 103-pushing a frame; 104-stainless steel bars; 105-trimming cylinder; 106-a ring gear; 107-transfer gear; 108-a trimming gear; 109-a bottom gear post; 110-end gear; 111-a transmission belt; 112-hexagonal pushing columns; 113-blanking groove; 114-hexagonal stainless steel bar; 201-cutting grooves; 202-a horizontal chute; 203-a discharge pushing column; 204, a discharge push rod; 205-a punching motor; 206-punching head; 207-punching a chute; 208-a cutting motor; 209-cutting shaft; 210-cutting a gear; 211-cutting the conveyor belt; 212-lower wheel; 213-cutting wheel; 214-lower cutting shaft; 215-an electric motor; 216-large gear; 217-limiting plate; 218-a connecting rod; 219-lifting frame; 220-left pull rod; 221-a transmission shaft; 222-a transmission gear; 223-motor frame; 224-right tie rod; 301-grooved wheels; 3011-an arc-shaped slot; 302-intermittent gear; 3021-a tap lever; 303-gradual high wheel; 304-an oil pushing rod; 305-rebound spring; 306-small oil cylinder; 307-tubing; 308-a large oil drum; 309-an inner stent; 310-outer rack; 311-tapping the push rod; 312-tapping gears; 313-tapping head.

Detailed Description

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

Examples: referring to fig. 1-12, a stainless steel nut processing device comprises a feeding device placed on the ground, wherein the feeding device comprises a jacking frame 101, the feeding device is used for cutting a hexagon of a stainless steel rod, a cutting device is arranged on the feeding device and comprises a cutting groove 201, the cutting groove 201 is fixedly arranged on the jacking frame 101 and is used for cutting the hexagon of the stainless steel rod, a tapping device is arranged on the cutting device and comprises a grooved wheel 301, the grooved wheel 301 is rotatably arranged on the cutting groove 201 and is used for tapping the stainless steel rod, and finally a nut is formed.

And (3) putting the stainless steel bar into a feeding device, processing the stainless steel bar into a hexagonal column material through the feeding device, punching and cutting the hexagonal stainless steel material by a blanking device along with goods, and then tapping the stainless steel material by a tapping device to finally finish the processing of the stainless steel nut.

As shown in fig. 3-5, the feeding device comprises a push rod 102 slidably installed in a top material frame 101, a push frame 103 is rotatably installed on the push rod 102, a hexagonal push column 112 is fixedly installed on the push frame 103, a stainless steel rod 104 is placed in the top material frame 101, a trimming barrel 105 is fixedly installed on the top material frame 101, a discharging groove 113 is fixedly installed on the trimming barrel 105, the hexagonal push column 112 and the discharging groove 113 are slidably installed, and a hexagonal cutting mechanism is arranged on the trimming barrel 105.

As shown in fig. 3 to 5, the hexagonal cutting mechanism includes a bottom gear column 109 rotatably mounted at the lower part of the top frame 101, an end gear 110 is fixedly mounted on the bottom gear column 109, a transmission belt 111 is wound outside the end gear 110, four ring gears 106 are rotatably mounted outside the trimming cylinder 105, four sets of transfer gears 107 are rotatably mounted outside the trimming cylinder 105, a trimming gear 108 is fixedly mounted on the transfer gears 107, wherein the transfer gear 107 closest to the top frame 101 side is located directly above the trimming cylinder 105, the transfer gear 107 closest to the lower trough 113 side is located directly below the trimming cylinder 105, two transfer gears 107 are respectively provided in the middle two sets, and the two transfer gears 107 are respectively located obliquely to the trimming cylinder 105, the ring gears 106 are meshed with the transfer gears 107, and the ring gears 106 are meshed with the bottom gear column 109.

The stainless steel rod 104 is cut by a hexagonal cutting mechanism to form a hexagonal stainless steel rod 114, and the hexagonal stainless steel rod 114 is positioned in a blanking groove 113.

The stainless steel rod 104 is placed in the top material frame 101, the push frame 103 and the push rod 102 are driven to slide in the top material frame 101 by the forward movement of the hexagonal push rod 112, the push rod 102 ejects the stainless steel rod 104 in the top material frame 101 into the trimming barrel 105, the end gear 110 is driven to rotate by the driving belt 111, the bottom gear column 109 is driven to rotate, the ring gear 106 is driven to rotate, the transfer gear 107 and the trimming gear 108 are driven to rotate, the stainless steel rod 104 is cut into the hexagonal stainless steel rod 114 by the rotation of the trimming gear 108, the hexagonal stainless steel rod 114 is pushed into the blanking groove 113 by the push rod 102, meanwhile, the hexagonal push rod 112 slides in the hexagonal stainless steel rod 114, and the hexagonal stainless steel rod 114 is pushed into the cutting device from the blanking groove 113.

As shown in fig. 6-9, the cutting device comprises a horizontal sliding groove 202 fixedly installed on the side surface of a cutting groove 201, a discharging pushing post 203 is slidably installed on the horizontal sliding groove 202, a discharging pushing rod 204 is fixedly installed on the discharging pushing post 203, a punching motor 205 is fixedly installed on the discharging pushing rod 204, a punching head 206 is fixedly installed on an output shaft of the punching motor 205, a punching sliding groove 207 is fixedly installed on the cutting groove 201, the punching head 206 is slidably installed with the punching sliding groove 207, a motor frame 223 is fixedly installed on the cutting groove 201, a driving mechanism is arranged on the motor frame 223, and a cutting mechanism is arranged on the cutting groove 201.

As shown in fig. 7 and 9, the driving mechanism includes a motor 215 fixedly mounted on a motor frame 223, a large gear 216 is rotatably mounted on the motor frame 223, a connecting rod 218 is rotatably mounted on the large gear 216, a lifting frame 219 is rotatably mounted on the connecting rod 218, a limiting plate 217 is fixedly mounted on the cutting groove 201, the lifting frame 219 is slidably mounted on the limiting plate 217, a Zuo Lagan and a right pull rod 224 are rotatably mounted on the lifting frame 219, a left pull rod 220 is rotatably mounted on the punching motor 205, and a right pull rod 224 is rotatably mounted on the hexagonal push column 112.

As shown in fig. 6 to 8, the cutting mechanism includes a cutting motor 208 fixedly installed on a cutting groove 201, a lower cutting shaft 214 is fixedly installed in the cutting groove 201, a cutting shaft 209 is fixedly installed on an output shaft of the cutting motor 208, a cutting gear 210 is fixedly installed on the cutting shaft 209, a transmission shaft 221 is fixedly installed on the cutting shaft 209, a transmission gear 222 is fixedly installed on the transmission shaft 221, a transmission belt 111 is externally wound around the transmission gear 222, a cutting wheel 213 is rotatably installed on the lower cutting shaft 214, a lower wheel 212 is fixedly installed on the cutting wheel 213, and a cutting transmission belt 211 is externally wound around the lower wheel 212 and the cutting gear 210.

The large gear 216 rotates to drive the connecting rod 218 to rotate, thereby driving the lifting frame 219 to slide back and forth in the limiting plate 217, thereby driving the left pull rod 220 and the right pull rod 224 to periodically rotate, thereby driving the discharging push rod 204 and the discharging push rod 203 to slide back and forth on the horizontal sliding groove 202, and the punching motor 205 to slide back and forth on the punching sliding groove 207, and the hexagonal push rod 112 to slide back and forth in the lower material groove 113, and the push rod 102 to slide back and forth in the top material frame 101, thereby realizing that the push rod 102 pushes the stainless steel rod 104 into the trimming cylinder 105 to cut the hexagon and then enters the lower material groove 113, and the hexagonal push rod 112 pushes the last cut hexagonal stainless steel rod 114 positioned in the lower material groove 113 into the cutting groove 201, and the punching motor 205 rotates to drive the punching head 206 to rotate, and simultaneously the punching motor 205 slides along the punching sliding groove 207 to simultaneously punch the hexagonal stainless steel rod 114 pushed out by the hexagonal push rod 112, and simultaneously the discharging push rod 203 slides along the horizontal sliding groove 202, thereby driving the last hexagonal stainless steel rod 205 cut by the cutting mechanism to cut the hexagon and then enter the lower material groove 113, and the hexagonal push rod 112 is cut after the hexagonal push rod 114 is cut and punched by the hexagonal push rod 114 and the stainless steel rod 112 returns to the cut stainless steel rod 114.

The cutting motor 208 rotates to drive the cutting shaft 209 to rotate, so as to drive the transmission shaft 221 and the transmission gear 222 to rotate, and drive the end gear 110 and the bottom gear column 109 to rotate through the transmission belt 111, so as to drive the hexagonal cutting mechanism to act; simultaneously, the cutting shaft 209 rotates to drive the cutting gear 210 to rotate, so that the lower wheel 212 is driven to rotate by the cutting conveyor belt 211, so that the cutting wheel 213 is driven to rotate, the punched hexagonal stainless steel rod 114 is cut into a plurality of nut-shaped stainless steel materials, and then the nut-shaped stainless steel materials are pushed into the tapping device through the discharging pushing column 203.

As shown in fig. 10 to 12, the tapping device comprises an intermittent gear 302 fixedly mounted on a motor shaft of the motor 215, a gradual elevating wheel 303 is fixedly mounted on the intermittent gear 302, an inner bracket 309 and an outer bracket 310 are placed on the ground, a small oil cylinder 306 is fixedly mounted on the inner bracket 309, a large oil cylinder 308 is fixedly mounted on the outer bracket 310, an oil pipe 307 is fixedly mounted between the small oil cylinder 306 and the large oil cylinder 308, an oil pushing rod 304 is slidably mounted in the small oil cylinder 306, a rebound spring 305 is arranged between the oil pushing rod 304 and the small oil cylinder 306, the oil pushing rod 304 is in contact with the gradual elevating wheel 303, a tapping push rod 311 is slidably mounted in the large oil cylinder 308, a tapping head 313 is rotatably mounted on the push rod 311, a tapping gear 312 is fixedly mounted on the tapping head 313, the tapping gear 312 is meshed with the intermittent gear 302, and oil is filled in the small oil cylinder 306, the oil pipe 307 and the large oil cylinder 308.

As shown in fig. 11, the grooved wheel 301 is provided with an arc-shaped groove 3011, the intermittent gear 302 is provided with a toggle rod 3021, and the toggle rod 3021 slides in the arc-shaped groove 3011.

The stainless steel piece pushed out by the ejection pushing column 203 enters the groove of the grooved pulley 301, the motor 215 rotates to drive the intermittent gear 302 to rotate, and thus drive the tapping gear 312 to rotate, and meanwhile, the intermittent gear 302 rotates to drive the gradual high wheel 303 to rotate, and thus, the gradual high wheel 303 drives the oil pushing rod 304 to slide in the small oil drum 306, the initial state of the rebound spring 305 is in a relaxed state, the rebound spring 305 is repeatedly compressed and released in the process of rotating the gradual high wheel 303, the oil pushing rod 304 repeatedly slides in the small oil drum 306, and thus, under the action of oil in the small oil drum 306, the oil pipe 307 and the large oil drum 308, the tapping push rod 311 is pushed to slide back and forth in the large oil drum 308, and thus, the tapping head 313 is driven to rotate and simultaneously, the stainless steel nut in the 301 is tapped, and meanwhile, the intermittent gear 302 rotates through the sliding of the poking rod 3021 in the arc-shaped groove 3011, and the grooved pulley 302 rotates one fourth of the grooved pulley 301, and the grooved pulley 301 rotates one round for one round, and the grooved pulley 301 rotates for one hundred degrees, so that the stainless steel nut is tapped by nine times.

The intermittent gear 302 rotates to drive the large gear 216 to rotate simultaneously.

The utility model discloses a working principle of a stainless steel nut processing device, which comprises the following steps: the stainless steel rod 104 is placed in the top material frame 101, the push frame 103 and the push rod 102 are driven to slide in the top material frame 101 by the forward movement of the hexagonal push rod 112, the push rod 102 ejects the stainless steel rod 104 in the top material frame 101 into the trimming barrel 105, the end gear 110 is driven to rotate by the transmission belt 111, the bottom gear column 109 is driven to rotate, the ring gear 106 is driven to rotate, the transfer gear 107 and the trimming gear 108 are driven to rotate, the stainless steel rod 104 is cut into the hexagonal stainless steel rod 114 by the rotation of the trimming gear 108, the hexagonal stainless steel rod 114 is pushed into the blanking groove 113 by the push rod 102, meanwhile, the hexagonal push rod 112 slides in the hexagonal stainless steel rod 114, and the hexagonal stainless steel rod 114 is pushed into the cutting groove 201 from the blanking groove 113. The intermittent gear 302 rotates to drive the large gear 216 to rotate, the large gear 216 rotates to drive the connecting rod 218 to rotate, thereby driving the lifting frame 219 to slide back and forth in the limiting plate 217, thereby driving the left pull rod 220 and the right pull rod 224 to periodically rotate, thereby driving the discharging push rod 204 and the discharging push rod 203 to slide back and forth on the horizontal sliding groove 202, and the punching motor 205 to slide back and forth on the punching sliding groove 207, and the hexagonal push rod 112 to slide back and forth in the blanking groove 113, and the push rod 102 to slide back and forth in the ejector frame 101, thereby realizing that the push rod 102 pushes the stainless steel rod 104 into the trimming cylinder 105 to cut the hexagon and then enters the blanking groove 113, and the hexagonal push rod 112 pushes the last cut hexagonal steel rod 114 positioned in the blanking groove 113 into the cutting groove 201, and the punching motor 205 rotates to drive the punching head 206 to rotate, and simultaneously the punching motor 205 to slide along the punching sliding groove 207 to punch the hexagonal stainless steel rod 114 pushed out by the hexagonal push rod 112, and simultaneously driving the discharging push rod 203 to slide along the horizontal sliding groove 202 to slide back and the upper push rod 205 to cut the hexagon by the hexagonal push rod 112 into the cutting groove 114, and then completing the perforation of the cut hexagonal stainless steel rod 114, and the cut stainless steel rod 114, and the perforation device, after the cut hexagonal rod 114, and the cut stainless steel rod is cut by the hexagonal rod and the cut by the hexagonal rod. The cutting motor 208 rotates to drive the cutting shaft 209 to rotate, so as to drive the transmission shaft 221 and the transmission gear 222 to rotate, and drive the end gear 110 and the bottom gear column 109 to rotate through the transmission belt 111, so as to drive the hexagonal cutting mechanism to act; simultaneously, the cutting shaft 209 rotates to drive the cutting gear 210 to rotate, so that the lower wheel 212 is driven to rotate by the cutting conveyor belt 211, so that the cutting wheel 213 is driven to rotate, the punched hexagonal stainless steel rod 114 is cut into a plurality of nut-shaped stainless steel materials, and then the nut-shaped stainless steel materials are pushed into the tapping device through the discharging pushing column 203. The stainless steel piece pushed out by the ejection pushing column 203 enters the groove of the grooved pulley 301, the motor 215 rotates to drive the intermittent gear 302 to rotate, and thus drive the tapping gear 312 to rotate, and meanwhile, the intermittent gear 302 rotates to drive the gradual high wheel 303 to rotate, and thus, the gradual high wheel 303 drives the oil pushing rod 304 to slide in the small oil drum 306, the initial state of the rebound spring 305 is in a relaxed state, the rebound spring 305 is repeatedly compressed and released in the process of rotating the gradual high wheel 303, the oil pushing rod 304 repeatedly slides in the small oil drum 306, and thus, under the action of oil in the small oil drum 306, the oil pipe 307 and the large oil drum 308, the tapping push rod 311 is pushed to slide back and forth in the large oil drum 308, and thus, the tapping head 313 is driven to rotate and simultaneously, the stainless steel nut in the 301 is tapped, and meanwhile, the intermittent gear 302 rotates through the sliding of the poking rod 3021 in the arc-shaped groove 3011, and the grooved pulley 302 rotates one fourth of the grooved pulley 301, and the grooved pulley 301 rotates one round for one round, and the grooved pulley 301 rotates for one hundred degrees, so that the stainless steel nut is tapped by nine times.

The push rod 102 slides in the top material frame 101 to push the stainless steel rod 104 to enter the trimming cylinder 105 to cut a hexagon to form a hexagonal stainless steel rod 114, at this time, the hexagonal push column 112 slides in the blanking groove 113, the hexagonal stainless steel rod 114 which is finished by the last hexagonal cutting is pushed into the cutting groove 201 through the hexagonal push column 112, meanwhile, the hexagonal stainless steel rod 114 is perforated by matching with the punching head 206, the hexagonal stainless steel rod 114 reaches the lower part of the cutting wheel 213 to be cut after being perforated, at the same time, the discharging push column 203 slides on the transverse sliding groove 202 to push the cut hexagonal stainless steel rod 114 into the grooved wheel 301 from the cutting groove 201, and meanwhile, the intermittent gear 302 rotates to drive the tapping head 313 to tap a stainless steel nut, and then the stainless steel nut is conveyed out of the device.

Claims (3)

1. The utility model provides a stainless steel nut processingequipment, includes the feed arrangement who places at ground, its characterized in that: the feeding device comprises a jacking frame (101), the feeding device is used for cutting a hexagon of a stainless steel rod, the feeding device is provided with a cutting device, the cutting device comprises a cutting groove (201), the cutting groove (201) is fixedly arranged on the jacking frame (101), the cutting device is used for cutting the hexagon of the stainless steel rod, the cutting device is provided with a tapping device, the tapping device comprises a grooved wheel (301), the grooved wheel (301) is rotatably arranged on the cutting groove (201), and the tapping device is used for tapping the stainless steel rod to finally form a nut;

the feeding device comprises a push rod (102) which is slidably arranged in a jacking frame (101), a pushing frame (103) is rotatably arranged on the push rod (102), a hexagonal pushing column (112) is fixedly arranged on the pushing frame (103), a stainless steel rod (104) is arranged in the jacking frame (101), a trimming cylinder (105) is fixedly arranged on the jacking frame (101), a blanking groove (113) is fixedly arranged on the trimming cylinder (105), the hexagonal pushing column (112) and the blanking groove (113) are slidably arranged, and a hexagonal cutting mechanism is arranged on the trimming cylinder (105);

the hexagonal cutting mechanism comprises a bottom gear column (109) rotatably arranged at the lower part of a top material frame (101), an end gear (110) is fixedly arranged on the bottom gear column (109), a transmission belt (111) is wound outside the end gear (110), four ring gears (106) are rotatably arranged outside a trimming barrel (105), four groups of transmission gears (107) are rotatably arranged outside the trimming barrel (105), a trimming gear (108) is fixedly arranged on the transmission gears (107), wherein the transmission gear (107) closest to the side of the top material frame (101) is positioned right above the trimming barrel (105), the transmission gears (107) closest to the side of a lower trough (113) are positioned right below the trimming barrel (105), two transmission gears (107) are respectively arranged in the middle, the two transmission gears (107) are respectively positioned at the oblique sides of the trimming barrel (105), the ring gears (106) are meshed with the transmission gears (107), and the ring gears (106) are meshed with the bottom gear column (109);

the cutting device comprises a horizontal sliding groove (202) fixedly arranged on the side surface of a cutting groove (201), a discharging pushing post (203) is slidably arranged on the horizontal sliding groove (202), a discharging pushing rod (204) is fixedly arranged on the discharging pushing post (203), a punching motor (205) is fixedly arranged on the discharging pushing rod (204), a punching head (206) is fixedly arranged on an output shaft of the punching motor (205), a punching sliding groove (207) is fixedly arranged on the cutting groove (201), the punching head (206) and the punching sliding groove (207) are slidably arranged, a motor frame (223) is fixedly arranged on the cutting groove (201), a driving mechanism is arranged on the motor frame (223), and a cutting mechanism is arranged on the cutting groove (201);

the driving mechanism comprises a motor (215) fixedly arranged on a motor frame (223), a large gear (216) is rotatably arranged on the motor frame (223), a connecting rod (218) is rotatably arranged on the large gear (216), a lifting frame (219) is rotatably arranged on the connecting rod (218), a limiting plate (217) is fixedly arranged on a cutting groove (201), the lifting frame (219) and the limiting plate (217) are slidably arranged, a Zuo Lagan (220) and a right pull rod (224) are rotatably arranged on the lifting frame (219), a left pull rod (220) and a punching motor (205) are rotatably arranged, and a right pull rod (224) and a hexagonal push column (112) are rotatably arranged;

the tapping device comprises an intermittent gear (302) fixedly arranged on a motor shaft of a motor (215), a gradual change high wheel (303) is fixedly arranged on the intermittent gear (302), an inner bracket (309) and an outer bracket (310) are arranged on the ground, a small oil cylinder (306) is fixedly arranged on the inner bracket (309), a large oil cylinder (308) is fixedly arranged on the outer bracket (310), an oil pipe (307) is fixedly arranged between the small oil cylinder (306) and the large oil cylinder (308), an oil pushing rod (304) is slidably arranged in the small oil cylinder (306), a rebound spring (305) is arranged between the oil pushing rod (304) and the small oil cylinder (306), the oil pushing rod (304) is in contact with the gradual change high wheel (303), a push rod (311) is slidably arranged in the large oil cylinder (308), a tapping head (313) is rotatably arranged on the tapping push rod (311), a tapping gear (312) is fixedly arranged on the tapping head (313), the tapping gear (312) is meshed with the intermittent gear (302), and the small oil cylinder (306), the tapping rod (307) and the large oil cylinder (308) are filled with oil;

the grooved pulley (301) is provided with an arc-shaped groove (3011), the intermittent gear (302) is provided with a poking rod (3021), and the poking rod (3021) slides in the arc-shaped groove (3011).

2. The stainless steel nut machining device according to claim 1, wherein: the stainless steel rod (104) is cut by the hexagonal cutting mechanism to form a hexagonal stainless steel rod (114) and is positioned in the blanking groove (113).

3. The stainless steel nut machining device according to claim 1, wherein: the cutting mechanism comprises a cutting motor (208) fixedly mounted on a cutting groove (201), a lower cutting shaft (214) is fixedly mounted in the cutting groove (201), a cutting shaft (209) is fixedly mounted on an output shaft of the cutting motor (208), a cutting gear (210) is fixedly mounted on the cutting shaft (209), a transmission shaft (221) is fixedly mounted on the cutting shaft (209), a transmission gear (222) is fixedly mounted on the transmission shaft (221), a transmission belt (111) is externally wound on the transmission gear (222), a cutting wheel (213) is rotatably mounted on the lower cutting shaft (214), a lower wheel (212) is fixedly mounted on the cutting wheel (213), and a cutting transmission belt (211) is externally wound on the lower wheel (212) and the cutting gear (210).