CN118004513B - Stainless steel bolt packing plant - Google Patents

Abstract

The invention discloses a stainless steel bolt packaging device, which belongs to the technical field of bolt packaging and comprises a feeding device, wherein the feeding device is used for placing a stainless steel bolt to be packaged, an oil spraying device is arranged beside the feeding device and used for spraying oil to the bolt to be packaged, and a split charging device is arranged beside the oil spraying device and used for split charging the stainless steel bolt. According to the feeding device, the reverse transmission belt and the forward transmission belt which are opposite in movement direction are arranged and are matched with the arc plates, so that the accommodating space for temporarily storing the bolts to be packaged is greatly improved, and the limit block is matched with the forward transmission belt, so that automatic circulation of the bolts is realized, and the automation degree is high; the oil spraying device provided by the invention can spray oil on the stainless steel bolt to be packaged, further prolong the storage life of the stainless steel bolt, recycle the redundant oil and save materials.

Description

Stainless steel bolt packing plant

Technical Field

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

Background

The bolt is used as a common fastener and is generally matched with the nut to be used for fastening and connecting two parts with through holes, so that the bolt is very widely applied in the industrial field and the daily life field; the stainless steel bolt is used as one of bolts, is made of stainless steel, has good corrosion resistance and is suitable for various working conditions; the conventional packaging of stainless steel bolts into a package is disclosed in chinese patent application publication No. CN104163255A, which discloses a bolt collecting and packaging apparatus, in which bolts are introduced into a splitting device by an introduction plate, a grating memory is provided between the introduction plate and the splitting device to record the number, and then a conveyor belt is installed into a split box through a guide slot. But the number of the bolts that can be simultaneously contained in the patent is small, the bolts cannot be packaged at the same time, and automatic continuous operation cannot be realized at the same time.

Disclosure of Invention

Aiming at the technical problems, the invention adopts the following technical scheme: the utility model provides a stainless steel bolt packing plant, includes feed arrangement, feed arrangement include the feed frame, feed arrangement be used for placing the stainless steel bolt that waits to pack into, feed arrangement other be provided with oil injection device, oil injection device including spraying the room, oil injection device be used for treating the bolt of packing and spout, oil injection device other be provided with partial shipment device, partial shipment device include the partial shipment case, partial shipment device be used for carrying out the partial shipment to the stainless steel bolt.

Further, the feeding device comprises a feeding hopper fixedly installed on a feeding frame, a transmission motor is fixedly installed on the feeding frame, a driving shaft is fixedly installed on a motor shaft of the transmission motor, a driving gear is fixedly installed on the driving shaft, a butt joint gear and a driven wheel are rotatably installed on the feeding frame, the butt joint gear is meshed with the driving gear, a reverse conveying belt is wound outside the butt joint gear and the driven wheel, and a forward conveying belt is wound outside the driving shaft.

Further, the feeding frame is fixedly provided with a limiting block and an arc plate, and the arc plate is used for centering bolts transmitted by the reverse conveying belt onto the forward conveying belt.

Stainless steel bolts to be packaged are placed in the feeding hopper, the stainless steel bolts fall onto the reverse conveying belt and the forward conveying belt, the driving motor rotates to drive the driving shaft and the driving gear to rotate, the driving gear rotates to drive the butt joint gear to rotate, the movement directions of the reverse conveying belt and the forward conveying belt are opposite, the reverse conveying belt conveys the bolts on the reverse conveying belt towards the arc plate, the arc plate centers the bolts contacted with the arc plate on the forward conveying belt, the bolts located on the forward conveying belt are conveyed towards the direction of the limiting block, and the bolts are conveyed into the spraying room by the forward conveying belt after passing through the limiting block.

Further, the oil spraying device comprises an oil pump fixedly arranged on the spraying room, a spraying pipe is fixedly arranged on the oil pump, an oil spraying head is fixedly arranged at the end part of the spraying pipe, and a blower is fixedly arranged at the side surface of the spraying room.

Further, an oil tank is arranged in the spraying room, oil is placed in the oil tank, the oil pump pumps out the oil in the oil tank, and the blower blows the residual redundant oil on the forward conveying belt back to the oil tank for recycling the oil.

When the forward conveying belt is conveyed to the lower part of the oil spraying head, oil in the oil pool is pumped out through the oil pump, enters the oil spraying head through the spraying pipe, sprays oil to the bolts through the oil spraying head, the storage life of the bolts can be prolonged, then the forward conveying belt 108 conveys the bolts to the split charging box, and redundant oil on the forward conveying belt is blown back into the oil pool by the blower.

Further, the split charging device comprises a driven wheel rotatably arranged in a split charging box, a forward conveying belt is wound outside the driven wheel and the driving shaft, a box body barrel is fixedly arranged on the split charging box, two cavities are arranged in the split charging box and used for dividing a conveyed bolt into two parts and respectively entering different cavities, two cavities are arranged in the box body barrel, a packing box is respectively placed, two push-out electric cylinders are fixedly arranged on the split charging box, push blocks are fixedly arranged at the tops of the push-out electric cylinders respectively, a box feeding rod is fixedly arranged on the push blocks close to the box body barrel, a box feeding baffle is fixedly arranged on the box feeding rod and is slidably arranged with the box body barrel, a conveying mechanism is arranged on the box body barrel, and two push-out mechanisms are arranged in the split charging box.

Further, the conveying mechanism comprises a conveying belt motor fixedly installed on a box barrel, a motor gear is fixedly installed on a motor shaft of the conveying belt motor, a driven gear is rotatably installed on the box barrel, an outer wheel is rotatably installed on a separate packaging box, a packaging conveying belt is wound outside the driven gear and the outer wheel, the driven gear is meshed with the motor gear, when the packaging box is used for the first time, two packaging boxes are respectively placed on the packaging conveying belt, the packaging boxes are located beside a lower pressing plate, and the subsequent packaging boxes are placed in the box barrel.

Further, the pushing mechanism comprises a lower pressing plate which is slidably mounted on the sub-packaging box, a lower pressing spring is arranged between the lower pressing plate and the sub-packaging box, a trigger block is arranged in the sub-packaging box, and the pushing block is slidably mounted with the sub-packaging box.

When the packaging box is used for the first time, two packaging boxes are respectively placed on the packaging conveyor belt, the packaging boxes are located beside the lower pressing plate, the follow-up packaging boxes are placed on the box feeding baffle plate in the box barrel, when the forward conveyor belt is provided with the stainless steel bolts, the bolts respectively fall onto the lower pressing plate, the lower pressing plate descends along with the continuous increase of the number of the bolts on the lower pressing plate, the lower pressing springs are compressed, when the bottom of the lower pressing plate is contacted with the triggering block, the upper surface of the lower pressing plate is slightly lower than the lower surface of the pushing block, the pushing block is driven by the extension of the pushing cylinder to push the bolts on the lower pressing plate into the packaging boxes, the pushing cylinder is driven by the extension of the pushing cylinder to slide, so that the box feeding baffle plate is driven to leave the box barrel inner space, the paper boxes originally located on the box feeding baffle plate fall onto the packaging conveyor belt, then the pushing cylinder is retracted to drive the pushing block to return to the initial position, the lower pressing springs rebound to drive the lower pressing plate to return to the initial position, the upper paper boxes are separated by the upper pressing plate, the upper paper boxes can not fall down, only when the lower pressing plate is contacted with the triggering block, the upper surface of the lower pressing plate, the two paper boxes are fully loaded with the pushing motor, the driving motor is driven by the driving gear to rotate, and the follow-up packaging box is driven by the driving gear to rotate, and the two packaging boxes are driven by the driving motor to rotate each time, and the packaging box is prepared to rotate.

When one packing box is filled and the other packing box is not filled, the power transmission motor does not move at the moment, and the power transmission motor starts to rotate when only two packing boxes are filled.

Working principle: when the novel stainless steel box is used for the first time, two packing boxes are respectively placed on the packing conveyor belt, the packing boxes are located beside the lower pressing plate, the subsequent packing boxes are placed on the box inlet baffle plate in the box barrel, stainless steel bolts to be packed are placed from the feed hopper, the stainless steel bolts can fall onto the reverse conveyor belt and the forward conveyor belt, the driving motor rotates to drive the driving shaft and the driving gear to rotate, the driving gear rotates to drive the butt joint gear to rotate, the movement directions of the reverse conveyor belt and the forward conveyor belt are opposite, the reverse conveyor belt conveys bolts on the reverse conveyor belt towards the arc plate, the arc plate centers the bolts contacted with the arc plate on the forward conveyor belt, the bolts located on the forward conveyor belt are conveyed towards the direction of the limiting block, and the bolts are conveyed into the spraying room through the limiting block by the forward conveyor belt. When the forward conveying belt is conveyed to the lower part of the oil spraying head, oil in the oil pool is pumped out through the oil pump, enters the oil spraying head through the spraying pipe, sprays oil to the bolts through the oil spraying head, can prolong the storage life of the bolts, then the forward conveying belt conveys the bolts to the split charging box, and redundant oil on the forward conveying belt is blown back into the oil pool by the blower. When the forward conveying belt reaches the separating and packing box, the bolts fall onto the lower pressing plates respectively, the number of the bolts on the lower pressing plates is continuously increased, the lower pressing plates descend, the lower pressing springs are compressed, when the bottoms of the lower pressing plates are in contact with the triggering blocks, the upper surfaces of the lower pressing plates are slightly lower than the lower surfaces of the pushing blocks at the moment, the pushing blocks are driven by the extension of the pushing cylinders to push the bolts on the lower pressing plates into packing boxes, the pushing cylinders also drive the box feeding rods to slide, so that the box feeding baffle is driven to leave the inner space of the box cylinder, the paper boxes originally positioned on the box feeding baffle fall onto the packing conveying belt, then the pushing cylinders are pushed out to retract to drive the pushing blocks to return to the initial position, the lower pressing springs rebound to drive the lower pressing plates to return to the initial position, the paper boxes are separated again by the slope on the box feeding baffle, the upper paper boxes do not fall down each time, and after the two packing conveying belts are filled with the bolts, the conveying motor is driven by rotation of the conveying motor, so that the driven gears are driven to rotate, the packing conveying belts are driven, and the packing boxes are driven to move, and the next two packing boxes are driven to move to the next place, and the packing boxes are prepared for one time.

Compared with the prior art, the invention has the beneficial effects that: (1) According to the feeding device, the reverse transmission belt and the forward transmission belt which are opposite in movement direction are arranged and are matched with the arc plates, so that the accommodating space for temporarily storing the bolts to be packaged is greatly improved, and the limit block is matched with the forward transmission belt, so that automatic circulation of the bolts is realized, and the automation degree is high; (2) The oil spraying device provided by the invention can spray oil on the stainless steel bolt to be packaged, further prolong the storage life of the stainless steel bolt, recycle the redundant oil and save materials; (3) The split charging device provided by the invention can automatically split-charge stainless steel bolts with a certain weight into the packaging boxes, can realize continuous packaging operation, and has high packaging efficiency.

Drawings

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

FIG. 2 is a schematic view of the feeding device of the present invention.

Fig. 3 is a schematic diagram of a limiting block and an arc plate structure of a feeding device.

Fig. 4 is a schematic structural diagram of an oil spraying device according to the present invention.

FIG. 5 is a schematic diagram of a fuel injection device according to the present invention.

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

Fig. 7 is a schematic structural diagram of a split charging device according to the second embodiment of the present invention.

Fig. 8 is a schematic diagram of a split charging device according to the third embodiment of the present invention.

Fig. 9 is a schematic structural view of the push-out mechanism of the present invention.

Reference numerals: 101-a feeding frame; 102-feeding hopper; 103-a drive motor; 104-a driving shaft; 105-a drive gear; 106-butting gears; 107-reverse belt; 108-forward direction belt; 109-limiting blocks; 110-arc plate; 111-driven wheels; 201-spraying room; 202-an oil pump; 203-a shower; 204-a blower; 205-oil spray head; 206-an oil pool; 301-packing boxes; 302-driven wheel; 303-a box barrel; 304-pushing out an electric cylinder; 305, box feeding rod; 306-a box inlet baffle; 307-belt motor; 308-motor gear; 309-driven gear; 310-packaging a conveyor belt; 311-outer wheel; 312-packaging box; 313-inner wheel; 314-lower platen; 315-pressing down the spring; 316-a trigger block; 317-push block.

Detailed Description

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

Examples: referring to fig. 1-9, a stainless steel bolt packing device comprises a feeding device, wherein the feeding device comprises a feeding frame 101, the feeding device is used for placing stainless steel bolts to be packed, an oil spraying device is arranged beside the feeding device and comprises a spraying room 201, the oil spraying device is used for spraying oil to the bolts to be packed, a sub-packing device is arranged beside the oil spraying device and comprises a sub-packing box 301, and the sub-packing device is used for sub-packing the stainless steel bolts.

As shown in fig. 1-3, the feeding device comprises a feeding hopper 102 fixedly installed on a feeding frame 101, a transmission motor 103 is fixedly installed on the feeding frame 101, a driving shaft 104 is fixedly installed on a motor shaft of the transmission motor 103, a driving gear 105 is fixedly installed on the driving shaft 104, a butt-joint gear 106 and a driven wheel 111 are rotatably installed on the feeding frame 101, the butt-joint gear 106 is meshed with the driving gear 105, a reverse conveying belt 107 is wound outside the butt-joint gear 106 and the driven wheel 111, and a forward conveying belt 108 is wound outside the driving shaft 104.

As shown in fig. 2 and 3, a stopper 109 and an arc plate 110 are fixedly installed on the feeding frame 101, and the arc plate 110 is used for centering the bolts conveyed by the reverse conveying belt 107 onto the forward conveying belt 108.

Stainless steel bolts to be packaged are put into the stainless steel bolts from the feed hopper 102, the stainless steel bolts fall onto the reverse conveying belt 107 and the forward conveying belt 108, the driving motor 103 rotates to drive the driving shaft 104 and the driving gear 105 to rotate, the driving gear 105 rotates to drive the butt-joint gear 106 to rotate, the movement directions of the reverse conveying belt 107 and the forward conveying belt 108 are opposite, the reverse conveying belt 107 conveys the bolts on the reverse conveying belt towards the arc plate 110, the arc plate 110 centers the bolts contacted with the arc plate onto the forward conveying belt 108, the bolts on the forward conveying belt 108 are conveyed towards the direction of the limiting block 109, and the bolts are conveyed into the spraying room 201 by the forward conveying belt 108 after passing through the limiting block 109.

As shown in fig. 4 and 5, the oil spraying device comprises an oil pump 202 fixedly installed on a spray booth 201, a spray pipe 203 is fixedly installed on the oil pump 202, an oil spray head 205 is fixedly installed at the end part of the spray pipe 203, and a blower 204 is fixedly installed on the side surface of the spray booth 201.

As shown in fig. 4 and 5, an oil pool 206 is provided in the shower room 201, oil is placed in the oil pool 206, the oil pump 202 pumps out the oil in the oil pool 206, and the blower 204 blows the surplus oil remaining on the forward conveyor 108 back into the oil pool 206, thereby recycling the oil.

When the forward conveyor belt 108 is conveyed below the oil spray head 205, oil in the oil pool 206 is pumped out through the oil pump 202, the oil enters the oil spray head 205 through the spray pipe 203, the oil spray head 205 sprays oil on the bolts, the shelf life of the bolts can be prolonged, the forward conveyor belt 108 conveys the bolts to the sub-packaging box 301, and excessive oil on the forward conveyor belt 108 is blown back into the oil pool 206 by the blower 204.

As shown in fig. 6 to 9, the sub-packaging device includes a driven wheel 302 rotatably mounted in a sub-packaging box 301, a forward conveying belt 108 is wound around the driven wheel 302 and the driving shaft 104, a box body barrel 303 is fixedly mounted on the sub-packaging box 301, two cavities are formed in the sub-packaging box 301 and used for dividing conveyed bolts into two parts and respectively entering different cavities, two cavities are formed in the box body barrel 303, a packaging box 312 is respectively placed, two push-out electric cylinders 304 are fixedly mounted on the sub-packaging box 301, push blocks 317 are fixedly mounted on the tops of the push-out electric cylinders 304, a box inlet baffle 306 is fixedly mounted on the box inlet rod 305 and is slidably mounted with the box body barrel 303, a conveying mechanism is arranged on the box body barrel 303, and two push-out mechanisms are arranged in the sub-packaging box 301.

As shown in fig. 6 to 9, the conveying mechanism comprises a belt conveying motor 307 fixedly installed on a box body barrel 303, a motor gear 308 is fixedly installed on a motor shaft of the belt conveying motor 307, a driven gear 309 is rotatably installed on the box body barrel 303, an outer wheel 311 is rotatably installed on the sub-packaging box 301, a packaging belt 310 is wound outside the driven gear 309 and the outer wheel 311, the driven gear 309 is meshed with the motor gear 308, when the box is used for the first time, two packaging boxes 312 are respectively placed on the packaging belt 310, the packaging boxes 312 are located beside a lower pressing plate 314, and the subsequent packaging boxes 312 are placed in the box body barrel 303.

As shown in fig. 6 to 9, the push-out mechanism includes a lower pressing plate 314 slidably mounted on the sub-packaging box 301, a lower pressing spring 315 is provided between the lower pressing plate 314 and the sub-packaging box 301, a trigger block 316 is provided in the sub-packaging box 301, and a push block 317 is slidably mounted with the sub-packaging box 301.

When the packaging box is used for the first time, two packaging boxes 312 are respectively placed on the packaging conveyor 310, the packaging boxes 312 are located beside the lower pressing plate 314, the following packaging boxes 312 are placed on the box feeding baffle 306 in the box barrel 303, when the forward conveyor 108 carries stainless steel bolts to the position of the split boxes 301, the bolts respectively fall onto the lower pressing plate 314, along with the continuous increase of the number of the bolts on the lower pressing plate 314, the lower pressing plate 314 falls down, the lower pressing spring 315 is compressed, when the bottom of the lower pressing plate 314 is in contact with the triggering block 316, the upper surface of the lower pressing plate 314 is slightly lower than the lower surface of the pushing block 317 at the moment, the pushing cylinder 304 stretches to drive the pushing block 317 to push the bolts on the lower pressing plate 314 into the packaging boxes 312, the pushing cylinder 304 stretches to drive the box feeding rod 305 to slide, so that the paper boxes on the box feeding baffle 306 are driven to leave the inner space of the box barrel 303, then the pushing cylinder 304 drives the pushing block 317 to return to the initial position, the lower pressing spring 314 is driven to return to the initial position, when the lower pressing plate 314 is fully contacted with the triggering block 316, the lower pressing plate 314 is driven by the motor, the paper boxes on the upper pressing plate 306, the paper boxes are fully loaded by the paper boxes on the motor 308, and the two paper boxes are driven by the rolling tape, and the two paper boxes are completely conveyed by the motor, and the paper boxes are conveyed by the rolling tape, and the paper boxes are conveyed by the motor, and the paper boxes and the next packaging box 310, and the packaging box is conveyed by the next, and the paper box is conveyed by the paper box and the paper box after the rolling.

When one package 312 is filled and the other package 312 is not, the belt motor 307 is not moved at this time, and only when both packages 312 are filled, the belt motor 307 starts to rotate.

Working principle: when the novel stainless steel box is used for the first time, two packing boxes 312 are respectively placed on the packing conveyor belt 310, the packing boxes 312 are located beside the lower pressing plate 314, the following packing boxes 312 are placed on the box inlet baffle 306 in the box barrel 303, stainless steel bolts to be packed are placed in the box inlet baffle 306 from the feed hopper 102, the stainless steel bolts fall onto the reverse conveyor belt 107 and the forward conveyor belt 108, the driving motor 103 rotates to drive the driving shaft 104 and the driving gear 105 to rotate, the driving gear 105 rotates to drive the docking gear 106 to rotate, the movement directions of the reverse conveyor belt 107 and the forward conveyor belt 108 are opposite, the reverse conveyor belt 107 conveys the bolts on the reverse conveyor belt 107 towards the arc plate 110, the arc plate 110 centers the bolts contacted with the arc plate onto the forward conveyor belt 108, the bolts located on the forward conveyor belt 108 are conveyed towards the limiting block 109, and the bolts are conveyed into the spraying room 201 after passing through the limiting block 109 by the forward conveyor belt 108. When the forward conveyor belt 108 is conveyed below the oil spray head 205, oil in the oil pool 206 is pumped out through the oil pump 202, the oil enters the oil spray head 205 through the spray pipe 203, the oil spray head 205 sprays oil on the bolts, the shelf life of the bolts can be prolonged, the forward conveyor belt 108 conveys the bolts to the sub-packaging box 301, and excessive oil on the forward conveyor belt 108 is blown back into the oil pool 206 by the blower 204. When the forward conveying belt 108 reaches the separating box 301 with stainless steel bolts, the bolts fall onto the lower pressing plate 314 respectively, the lower pressing plate 314 descends along with the continuous increase of the number of the bolts on the lower pressing plate 314, the lower pressing spring 315 is compressed, when the bottom of the lower pressing plate 314 is contacted with the triggering block 316, the upper surface of the lower pressing plate 314 is slightly lower than the lower surface of the pushing block 317, the pushing-out electric cylinder 304 stretches to drive the pushing block 317 to push the bolts on the lower pressing plate 314 into the packing box 312, the pushing-out electric cylinder 304 stretches to drive the box feeding rod 305 to slide, so that the box feeding baffle 306 is driven to leave the inner space of the box cylinder 303, the paper box originally positioned on the box feeding baffle 306 falls onto the packing conveying belt 310, then the pushing-out electric cylinder 304 is retracted to drive the pushing block 317 to return to the initial position, the lower pressing spring 315 rebounds to drive the lower pressing plate 314 to return to the initial position, the paper box feeding baffle 306 is separated by the slope on the paper box on the upper surface, the paper box does not fall down each time, only one paper box falls onto the packing conveying belt 310, after the two packing conveying belts 310 are fully loaded with the bolts, the motor 307 drives the conveying belt 307 to rotate, the driven gear 307 to drive the driven gear 308 to rotate for driving the driven gear 308 to rotate for next time, and the packing box conveying to be ready to move next to the packing box and the packing box is ready to be packaged.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the technical scope of the present invention, should make equivalent substitutions or modifications according to the technical solution of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims (3)

1. The utility model provides a stainless steel bolt packing plant, includes feed arrangement, its characterized in that: the feeding device comprises a feeding frame (101), the feeding device is used for placing stainless steel bolts to be packaged, an oil spraying device is arranged beside the feeding device, the oil spraying device comprises a spraying room (201), the oil spraying device is used for spraying oil on the bolts to be packaged, a split charging device is arranged beside the oil spraying device, the split charging device comprises a split charging box (301), and the split charging device is used for split charging the stainless steel bolts;

The feeding device comprises a feeding hopper (102) fixedly arranged on a feeding frame (101), a transmission motor (103) is fixedly arranged on the feeding frame (101), a driving shaft (104) is fixedly arranged on a motor shaft of the transmission motor (103), a driving gear (105) is fixedly arranged on the driving shaft (104), a butt-joint gear (106) and a driven wheel (111) are rotatably arranged on the feeding frame (101), the butt-joint gear (106) is meshed with the driving gear (105), a reverse conveying belt (107) is wound outside the butt-joint gear (106) and the driven wheel (111), and a forward conveying belt (108) is wound outside the driving shaft (104);

A limiting block (109) and an arc plate (110) are fixedly arranged on the feeding frame (101), and the arc plate (110) is used for centering bolts transmitted by the reverse transmission belt (107) on the forward transmission belt (108);

The oil spraying device comprises an oil pump (202) fixedly arranged on a spraying room (201), a spraying pipe (203) is fixedly arranged on the oil pump (202), an oil spraying head (205) is fixedly arranged at the end part of the spraying pipe (203), and a blower (204) is fixedly arranged on the side surface of the spraying room (201);

An oil tank (206) is arranged in the spraying room (201), oil is placed in the oil tank (206), the oil pump (202) pumps out the oil in the oil tank (206), and the blower (204) blows the residual excessive oil on the forward conveyor belt (108) back into the oil tank (206) for recycling the oil;

The split charging device comprises a driven wheel (302) which is rotatably arranged in a split charging box (301), a forward transmission belt (108) is wound outside the driven wheel (302) and a driving shaft (104), a box body barrel (303) is fixedly arranged on the split charging box (301), two cavities are formed in the split charging box (301) and used for dividing a conveyed bolt into two parts and respectively entering different cavities, two cavities are formed in the box body barrel (303), a packing box (312) is respectively arranged in the box body barrel (303), two pushing-out electric cylinders (304) are fixedly arranged on the split charging box (301), pushing blocks (317) are respectively fixedly arranged at the tops of the pushing-out electric cylinders (304), a box feeding rod (305) is fixedly arranged on the pushing blocks (317) which are close to the box body barrel (303), a box feeding baffle (306) is fixedly arranged on the box feeding rod (305), a slope surface is arranged on the box body baffle (306), and two pushing-out mechanisms are arranged in the split charging box (301).

2. The stainless steel bolt packing device according to claim 1, wherein: the conveying mechanism comprises a conveying belt motor (307) fixedly arranged on a box body barrel (303), a motor gear (308) is fixedly arranged on a motor shaft of the conveying belt motor (307), a driven gear (309) is rotatably arranged on the box body barrel (303), an outer wheel (311) is rotatably arranged on a sub-packaging box (301), a packaging conveying belt (310) is wound outside the driven gear (309) and the outer wheel (311), the driven gear (309) is meshed with the motor gear (308), two packaging boxes (312) are respectively arranged on the packaging conveying belt (310) when the conveying mechanism is used for the first time, the packaging boxes (312) are located beside a lower pressing plate (314), and the follow-up packaging boxes (312) are arranged in the box body barrel (303).

3. The stainless steel bolt packing device according to claim 1, wherein: the pushing mechanism comprises a lower pressing plate (314) which is slidably mounted on the sub-packaging box (301), a pressing spring (315) is arranged between the lower pressing plate (314) and the sub-packaging box (301), a trigger block (316) is arranged in the sub-packaging box (301), and the pushing block (317) is slidably mounted with the sub-packaging box (301).