CN109732362A - A kind of production method of chain jewelry - Google Patents

Abstract

The present invention relates to a kind of production methods of chain jewelry.The material of sheet is crispaturaed into the wire rod of circular tube shaped by the present invention by roll film equipment, and then welding equipment is by soldering wires, to form cylinder-like structure；The wire rod of cylinder is molded by beating on hammer pearl molding equipment, is finely tuning shaping by vehicle pearl equipment, is forming pearlitic texture；It is cut into granular hollow ball on cutting pearl equipment, then hollow round bead string connection gets up to form chain jewellery.Step of the present invention is simple, automated production, high production efficiency, can be mass produced；Flaky material saves material by crispaturaing, beating pressure, turning, cutting, the hollow ball structure of formation.

Description

A kind of production method of chain jewelry

Technical field

The present invention relates to jewelry production methods, more specifically refer to a kind of production method of chain jewelry.

Background technique

Present beading production is all much then to be connected in series each pearl by artificial, and production efficiency is low, High labor cost, small scale, discomfort is in response to the market demand.And although some are mechanization productions, production efficiency is low, defect rate Height, the degree of automation are low.

Summary of the invention

It is an object of the invention to overcome the deficiencies of existing technologies, a kind of production method of chain jewelry is provided.

To achieve the above object, the invention adopts the following technical scheme:

A kind of production method of chain jewelry, comprising the following steps:

Step 1: cutting the strip flaky material of setting width using cutting apparatus, and flatten；

Step 2: flaky material is placed on roll film equipment, so that two lateral bend of section material, forms tubular material；

Step 3: welding equipment welds tubular material, to form fissureless tubular material；

Step 4: fissureless tubular material be placed on hammer pearl molding equipment beat pressing mold beat it is molded so that fissureless Tubular material periphery forms continuous concaveconvex structure；

Step 5: periphery be concaveconvex structure tubular material placement vehicle pearl equipment on be modified, to form continuous pearl The blank of shape structure；

Step 5: the blank of pearlitic texture will be cut by cutting pearl equipment, to form the ball structure of particle；

Step 6: ball is assembled catenulate jewellery by washing by the pearlitic texture of particle one by one.

Its further technical solution are as follows: in the step 2, the roll film equipment is equipped with several groups intermeshing first Briquetting roller and the second briquetting roller, and it is formed with forming cavity between the first briquetting roller and the second briquetting roller, so that strip sheet material Material forms tubular structure by forming cavity.

Its further technical solution are as follows: first briquetting roller periphery is equipped with arc convex, second briquetting roller periphery Equipped with the matched arc groove of arc convex；The arc convex and arc groove form the forming cavity.It further include charging Slot；Feed well connection first briquetting roller of several groups and the second briquetting roller, and feed well is gradual change slot, feed end is straight Slot, discharge end are arc-shaped slot；It is bordering on the arc convex of the first briquetting roller of feed end and the arc groove of the second briquetting roller Camber ratio is bordering on the arc convex of the first briquetting roller of discharge end and the radian of the arc groove of the second briquetting roller is small, and feeds It holds and is become larger with the radian of the arc groove of the arc convex and the second briquetting roller of the first briquetting roller of discharge end.

Its further technical solution are as follows: the welding equipment is set to roll film equipment discharge end；The welding equipment includes Set on the retracting structure of feed end, set on the welding mechanism of the discharge end of retracting structure, and set on the integer structure of discharge end；Institute Strip flaky material is stated by roll film equipment crimped into the tubular material of opening, makes tubular material two sides by retracting structure Edge dock to form weld seam, welding mechanism is welded against weld seam so that closed tubular structure, and integer structure is to closing Tubular structure be trimmed to required shape.

Its further technical solution are as follows: the hammer pearl molding equipment is equipped with for the molding hammer pearl mold of tubular material； The hammer pearl mold includes upper mold section and female die, and the die cavity for shape wire is formed between upper mold section and female die； The tubular material is delivered to hammer pearl mold, so as to be processed into the tubular material that periphery is continuous concaveconvex structure.

Its further technical solution are as follows: the vehicle pearl equipment includes feeding mechanism, and set on the vehicle of feeding mechanism discharge end Cutter mechanism；The feeding mechanism conveys tubular material, and the lathe tool that lathe tool mechanism is equipped with carries out excision forming to tubular material.

Its further technical solution are as follows: the lathe tool mechanism includes lathe tool force piece, with lathe tool force piece driving coupling Transmission component, and set on lathe tool described in transmission component power output end；The adjusting component that the transmission component is equipped with；Institute Stating transmission component includes the first transmission shaft, second driving shaft；First transmission shaft, second driving shaft, which is set to, adjusts component Adjust output end；The lathe tool is set to one end of second driving shaft；Between first transmission shaft and lathe tool force piece, first pass Power is transmitted by the transmission belt being equipped between moving axis and second driving shaft.

Its further technical solution are as follows: the adjusting component includes fixing seat, the sliding seat being slidably connected with fixing seat, and The rotating seat coupled is rotated with sliding seat；The transmission component, lathe tool are set to rotating seat；It is adjusted between the sliding seat and fixing seat Save handle；Set lever is equipped between the rotating seat and sliding seat.

Its further technical solution are as follows: described, the pearl equipment of cutting includes feeding mechanism, set on feeding mechanism discharge end Cutter mechanism, and the clamping device between feeding mechanism and cutter mechanism；The feeding mechanism conveys continuous concaveconvex structure Tubular material to clamping device fix so that cutter mechanism the tubular material of continuous concaveconvex structure is cut into it is granular.

Its further technical solution are as follows: the cutter mechanism includes feeder assembly, is set to feeder assembly force piece output end Cutter assembly；The cutter assembly is equipped with two cutters；The cutter is located at the discharge end of clamping device；The feeding Components drive cutter assembly movement so that cutter be cut into close to the tubular material of continuous concaveconvex structure it is granular.

Compared with the prior art, the invention has the advantages that: the present invention crispaturas into the material of sheet by roll film equipment The wire rod of circular tube shaped, then welding equipment is by soldering wires, to form cylinder-like structure；The wire rod of cylinder is in hammer pearl molding equipment It is upper molded by beating, shaping is being finely tuned by vehicle pearl equipment, is forming pearlitic texture；It is cut on cutting pearl equipment granular Then hollow round bead string connection is got up to form chain jewellery by hollow ball.Step of the present invention is simple, automated production, production effect Rate is high, can be mass produced；Flaky material is by crispaturaing, beating pressure, turning, cutting, the hollow ball structure of formation, section Material saving.

The invention will be further described in the following with reference to the drawings and specific embodiments.

Detailed description of the invention

Fig. 1 is a kind of roll film equipment of production method of chain jewelry of the present invention and the structural schematic diagram of welding equipment；

Fig. 2 is the present invention a kind of the first briquetting roller and the second briquetting roller schematic diagram of the production method of chain jewelry；

Fig. 3 is a kind of front view of the hammer pearl molding equipment of production method of chain jewelry of the present invention；

Fig. 4 is a kind of side view of the hammer pearl molding equipment of production method of chain jewelry of the present invention；

Fig. 5 is a kind of turnover mechanism structure chart of the hammer pearl molding equipment of production method of chain jewelry of the present invention；

Fig. 6 is a kind of vehicle pearl equipment front view of the production method of chain jewelry of the present invention；

Fig. 7 is a kind of vehicle pearl equipment top view of the production method of chain jewelry of the present invention；

Fig. 8 is a kind of lathe tool mechanism front view of the vehicle pearl equipment of the production method of chain jewelry of the present invention；

Fig. 9 is a kind of vehicle pearl equipment lathe tool mechanism top view of the production method of chain jewelry of the present invention；

Figure 10 is a kind of feeding mechanism enlarged drawing of the vehicle pearl equipment of the production method of chain jewelry of the present invention；

Figure 11 is a kind of front view for cutting pearl equipment of the production method of chain jewelry of the present invention；

Figure 12 is a kind of right view for cutting pearl equipment of the production method of chain jewelry of the present invention；

Figure 13 is a kind of feed mechanism side view for cutting pearl equipment of the production method of chain jewelry of the present invention；

Figure 14 is a kind of cutter mechanism front view for cutting pearl equipment of the production method of chain jewelry of the present invention；

Figure 15 is a kind of front view of the feed cam part for cutting pearl equipment of the production method of chain jewelry of the present invention；

Figure 16 is a kind of side view of the feed cam part for cutting pearl equipment of the production method of chain jewelry of the present invention；

Figure 17 is a kind of front view of the feeding cam member for cutting pearl equipment of the production method of chain jewelry of the present invention；

Figure 18 is a kind of front view of the feeding cam member for cutting pearl equipment of the production method of chain jewelry of the present invention.

Specific embodiment

In order to more fully understand technology contents of the invention, combined with specific embodiments below to technical solution of the present invention into One step introduction and explanation, but not limited to this.

Such as Fig. 1 to the drawing of Figure 18 embodiment of the present invention.

A kind of production method of chain jewelry, comprising the following steps:

Step 1: cutting the strip flaky material of setting width using cutting apparatus, and flatten；

Step 2: flaky material is placed on roll film equipment 100, so that two lateral bend of section material, forms tubular material；

Step 3: welding equipment 200 welds tubular material, to form fissureless tubular material；

Step 4: fissureless tubular material be placed on hammer pearl molding equipment 300 beat pressing mold beat it is molded so that free from flaw Tubular material periphery form continuous concaveconvex structure；

Step 5: periphery is is modified in the tubular material placement vehicle pearl equipment 400 of concaveconvex structure, it is continuous to be formed The blank of pearlitic texture；

Step 5: the blank of pearlitic texture will be cut by cutting pearl equipment 500, to form the ball structure of particle；

Step 6: ball is assembled catenulate jewellery by washing by the pearlitic texture of particle one by one.

In step 2, as shown in Figure 1 to Figure 2, the roll film equipment 100 is equipped with intermeshing first briquetting roller of several groups 101 and second briquetting roller 102, and it is formed with forming cavity between the first briquetting roller 101 and the second briquetting roller 102, so that strip Flaky material forms tubular structure by forming cavity.

First briquetting roller, 101 periphery is equipped with arc convex, and 102 periphery of the second briquetting roller is equipped with and matches with arc convex Arc groove.Arc convex and arc groove form the forming cavity.It further include feed well 103.Feed well 103 connects several The first briquetting roller 101 of group and the second briquetting roller 102, and feed well 103 is gradual change slot, feed end is straight slot, and discharge end is circle Arc groove；The camber ratio for being bordering on the arc convex of the first briquetting roller 101 of feed end and the arc groove of the second briquetting roller 102 is close It is small in the radian of the arc groove of the arc convex and the second briquetting roller 102 of the first briquetting roller 101 of discharge end, and feed end It is become larger with the radian of the arc groove of the arc convex and the second briquetting roller 102 of the first briquetting roller 101 of discharge end.

Welding equipment 200 is set to 100 discharge end of roll film equipment.Welding equipment 200 includes folding knot set on feed end Structure, set on the welding mechanism 201 of the discharge end of retracting structure, and set on the integer structure 202 of discharge end.Strip flaky material By 100 crimped of roll film equipment at the tubular material of opening, the edge of tubular material two sides is made to dock shape by retracting structure At weld seam, welding mechanism 201 is welded against weld seam so that closed tubular structure, and integer structure 202 is to closed tubulose Improvement of breed is at required shape.

Preferably, in order to reduce the volume of equipment and the continuity of processing, roll film equipment 100 and welding equipment 200 are arranged In the same mounting base, after flaky material is processed into round tube by roll film equipment 100, welding equipment 200 will directly connect seam weld It connects, forms cylindrical structure.

As shown in Figures 3 to 5, hammer pearl molding equipment 300 is equipped with for the molding hammer pearl mold of tubular material.Hammer pearl mould into shape Tool includes upper mold section and female die, and the die cavity for shape wire is formed between upper mold section and female die.Tubular material is defeated It send to hammer pearl mold, so as to be processed into the tubular material that periphery is continuous concaveconvex structure.

Hammering pearl molding equipment 300 into shape includes rack 10, set on the feeding mechanism 20 of rack 10, set on the discharging of feeding mechanism 20 The Chui Zhu mechanism 30 at end.Chui Zhu mechanism 30 includes the hammer pearl force piece 31 set on rack 10, with hammer 31 driving coupling of pearl force piece Transmission component 32, and the hammer pearl mold 33 set on 32 power output end of transmission component.Feeding mechanism 20 conveys wire rod to hammering pearl into shape Mold 33, so that wire rod is processed into continuous pearl wire rod.

Transmission component 32 includes sliding seat 321, and is installed on the fixing seat 322 of 10 upside of rack.Pearl mold 33 is hammered into shape to be arranged Between sliding seat 321 and fixing seat 322.Sliding seat 321 passes through the guide post 323 being equipped with rack 10 and is slidably connected.Guide post 323 It is slidably connected with rack 10, so that the held stationary during the motion of sliding seat 321.

Preferably, 323 outer sheath of guide post is equipped with the first spring 324.During hammering pearl into shape, the 31 driving activity of pearl force piece is hammered into shape Seat 321 moves up and down, and when sliding seat 321 moves downward, the elastic force upward by the first spring 324 enables sliding seat 321 Rapid reset.More preferred, guide post 323 is four, so that transmission component 32 moves steadily, so that hammer pearl mold 33 is flat The movement of weighing apparatus.

Sliding seat 321 includes the first driver plate 3211 for being set to 10 upside of rack, and second positioned at 10 inside of rack passes Movable plate 3212.Coupled between first driver plate 3211 and the second driver plate 3212 by the guide post 323.Second driver plate 3212 with hammer 31 driving coupling of pearl force piece.First driver plate 3211 is coupled with the second driver plate 3212 by four guide posts 323, And first driver plate 3211 be located at the top of rack 10, the second driver plate 3212 is located inside rack 10.Fixing seat 322 is set to machine 10 upside of frame, so the first driver plate 3211 is moved towards fixing seat 322, by wire rod pressing and forming.

Specifically, hammer pearl mold 33 includes upper mold section 331 and female die 332.Female die 332 is set to fixing seat 322.Upper half Mould 331 is fixed on the first driver plate 3211.First driver plate 3211 drives upper mold section 331 to move towards female die 332.Upper mold section The die cavity for shape wire is formed between 331 and female die 332.

Wherein, in order to install and debug conveniently, the first driver plate 3211 is additionally provided with mounting plate 3213.Upper mold section 331 is fixed In mounting plate 3213.Fixing seat 322 is equipped with the guide rod 3214 being slidably connected with mounting plate 3213.3214 outer sheath of guide rod is equipped with the Two springs 3215.Mounting plate 3213 is mounted on the first driver plate 3211 towards 322 side of fixing seat, and the first driver plate 3211 passes through Mounting plate 3213.

The power output end for hammering pearl force piece 31 into shape is equipped with driving wheel 311.Second driver plate 3212 be equipped with outside driving wheel 311 Week rolls the idler wheel part 325 of connection.The groove of rounding off is equipped on the outside of driving wheel 311, so that idler wheel part 325 is in driving wheel When 311 outer shafts roll, the second driver plate 3212, which is formed, to be moved back and forth.

Feeding mechanism 20 includes feeding force piece 21, set on the feeding cam 22 of 21 power output end of feeding force piece, and With the connecting rod 23 of 22 driving coupling of feeding cam.23 middle part of connecting rod and rack 10 are hinged.

22 end face of feeding cam is equipped with the lug boss and recessed portion of continuous transition, so that the connecting rod 23 being slidably connected with end face One end generates reciprocating motion.23 other end of connecting rod extends to 10 upside of rack, and conveys wire rod to move back and forth.

It wherein, further include set on the turnover mechanism 40 between feeding mechanism 20 and Chui Zhu mechanism 30.Turnover mechanism 40 includes Force piece 41 is overturn, rotates the overturning pipe 42 coupled with rack 10.It overturns 42 one end of pipe and is set to the discharge end of feeding mechanism 20 (even The upper end of bar 23, and upper end is equipped with feedhole), the other end is set to the feed end (entrance of die cavity) of Chui Zhu mechanism 30.

It overturns pipe 42 to be equipped with for the cavity by wire rod, the cavity two sides in the horizontal direction are equipped with the first gripping block 43, the second gripping block 44 is equipped in the two sides of vertical direction.

For wire rod under the action of feeding mechanism 20, wire rod enters back into Chui Zhu mechanism after wire rod aligning by overturning pipe 42 30 carry out hammer pearl molding, become the wire rod of a section ball, are transplanted on subsequent processing processing.

Preferably, in order to reduce volume and compact-sized, hammer pearl force piece 31, feeding force piece 21 and overturning force piece 41 It is motor, and is the same motor.

Vehicle pearl equipment 400 includes feeding mechanism, and the lathe tool mechanism set on feeding mechanism discharge end.Feeding mechanism delivery pipe Shape material, the lathe tool that lathe tool mechanism is equipped with carry out excision forming to tubular material.

Wherein, as shown in Fig. 6 to Figure 10, vehicle pearl equipment 400 includes mounting rack 410, set on the feeding mechanism of mounting rack 410 420, and set on the lathe tool mechanism 430 of 420 discharge end of feeding mechanism.Feeding mechanism 20 conveys wire rod, what lathe tool mechanism 430 was equipped with Lathe tool 31 carries out excision forming to wire rod.This equipment is for wire rod to be passed through 431 vehicle of lathe tool into satisfactory Beads. But when by wire rod vehicle beading particle, there is no being cut off, still there is connection between each particle, forms linear structure, Granular pearl can be just cut under the process for cutting pearl equipment.

Lathe tool mechanism 430 includes the lathe tool force piece 432 set on mounting rack 410, with 432 driving coupling of lathe tool force piece Transmission component 433, and set on lathe tool 431 described in 433 power output end of transmission component.The tune that transmission component 433 is equipped with Save component 434.Lathe tool force piece 432 can be motor, oil pump etc..

Transmission component 433 includes the first transmission shaft 4331, second driving shaft 4332.First transmission shaft 4331, the second transmission Axis 4332 is set to the adjusting output end for adjusting component 434.Lathe tool 31 is set to one end of second driving shaft 4332.First transmission shaft Transmission belt between 4331 and lathe tool force piece 432, between the first transmission shaft 4331 and second driving shaft 4332 by being equipped with 4333 transmitting power.

First transmission shaft, 331 both ends are equipped with the first driving wheel 4334, the second driving wheel 4335, first transmission shaft 4331 The other end be equipped with third driving wheel 4336.First driving wheel 4334 passes through the transmission belt 4333 and lathe tool force piece 432 Driving coupling.Second driving wheel 4335 passes through 4333 driving coupling of the transmission belt being equipped with third driving wheel 4336.Lathe tool 431 are fixed on second driving shaft 4332, and are distal to one end of third driving wheel 4336.

Specifically, the rotation direction of the first transmission shaft 4331 and the rotation direction of second driving shaft 4332 are mutually perpendicular to, it can It is arranged in a mutually vertical manner with being interpreted as the first transmission shaft 4331 with second driving shaft 4332, so that the mechanism of equipment is more compact.The 4337 driving coupling of transition driving wheel between two driving wheels 4335 and third driving wheel 4336 by being equipped with.

The diameter of first driving wheel 4334, the second driving wheel 4335 and third driving wheel 4336 can be real according to lathe tool 431 Situation setting in border can be used as a deceleration mechanism in this way and use.

Wherein, lathe tool 431 is connected in second driving shaft 4332 by the tool apron 4338 being equipped with.4338 periphery of tool apron is evenly equipped with For installing several mounting grooves 43381 of lathe tool 431.Tool apron 4338 can according to need the different lathe tools 431 of installation.Tool apron 4338 be removably mounted to one end of second driving shaft 4332, and can be adjusted by rotating seat 4343 height and vehicle The angle of knife is different to adapt to.

Adjusting component 434 includes the fixing seat 4341 being slidably connected with mounting rack 410, is slidably connected with fixing seat 4341 Sliding seat 4342, and the rotating seat 4343 coupled is rotated with sliding seat 4342.Lathe tool 431 is set to rotating seat 4343.Sliding seat Regulation handle 4344 between 4342 and fixing seat 4341.Set lever 4345 is equipped between rotating seat 4343 and sliding seat 4342.

Wherein, the feeding of stage property is needed during turning due to lathe tool 431, so fixing seat 4341 is sliding with rack Dynamic connection, and fixing seat 4341 and feeding power driving coupling, so that adjusting component 434, transmission component 433 and lathe tool 431 It moves reciprocatingly together.The direction of reciprocating motion is vertical with wire rod feedstock direction.After lathe tool 431 processes wire rod, feeding power Under the action of retract certain distance, after wire rod feeds certain distance, lathe tool 431 feeds processing again.Preferably, feeding power be by Lathe tool force piece 432 is obtained by switching mechanism.

The rotation of rotating seat 4343 is connected in the first transmission shaft 4331, and the rotation direction of rotating seat 4343 and the first transmission shaft 4331 is identical.The rotation of second driving shaft 4332 is connected in rotating seat 4343, so that the rotation by rotation rotating seat 4343 is adjusted 431 height of lathe tool.

Feeding mechanism 420 includes the rotary components 421 for rotating to wire rod, for the feeding group to wire rod reciprocal transportation Part 422, and with the fixation kit 423 clamped to wire rod.Dynamic rotary components 421, feed component 422 and fixation kit 423 are successively Setting.After rotary components 421 rotate set angle to wire rod, wire rod is conveyed the distance set by feed component 422, is then fixed Component 423 grips wire rod, and wire rod is processed in the starting of lathe tool mechanism 430 for adjusting good position, general from wire rod Side processed, after then turning an angle, processed.

Feeding mechanism 420 is equipped with the conveying axis 424 through rotary components 421, fixation kit 423.It is set inside conveying axis 424 There is the cavity for pipeline material.The feed end of conveying axis 424 is arranged in feed component 422, conveys so as to push to wire rod.Into Mechanism 420 is expected there are also charging force piece 425 is equipped with, wherein charging force piece 425 is that lathe tool force piece 432 is transmitted by driving member To feeding mechanism 420.

Lathe tool mechanism 430 is set to the side of wire rod feedstock direction, and the other side of feedstock direction is equipped with stop component 411. Stop component 411 includes the mounting base 4111 being fixedly connected with mounting rack 410, the adjustable baffle 4112 for being connected in mounting base. Baffle 4112 is close to lathe tool 431, so as to can fix wire rod when vehicle pearl.

As shown in Figure 11 to Figure 18, cutting pearl equipment 500 includes fixed frame 510, set on the feed mechanism 520 of fixed frame 510, Clamping machine set on the cutter mechanism 530 of 520 discharge end of feed mechanism, and between feed mechanism 520 and cutter mechanism 530 Structure 540.The defeated linear semi-finished product of feed mechanism 520 are fixed to clamping device 540, so that cutter mechanism 530 cuts linear semi-finished product It granulates.

In the technique of production, the strip of tubulose is passed through into working procedures, such as is beaten, vehicle, formed or strip Ball semi-finished product, cut using the present apparatus, form granular ball.

Feed mechanism 520 includes feeding force piece 521, set on the feeding cam member of 521 power output end of feeding force piece 522, and the feeding link member 523 with 522 driving coupling of feeding cam member.Feeding link member 523 and fixed frame 510 are hinged.On Expect that cam member 522 drives 523 1 end motion of feeding link member, so that the other end of feeding link member 523 drives linear semi-finished product Movement.Hinged with fixed frame 510 among feeding link member 523, so an end motion, the other end can do opposite direction movement.

523 one end of feeding link member is equipped with upper material roller 524.Upper material roller 524 couples with the rolling of feeding cam member 522.

As shown in Figure 15 and Figure 16,522 end face of feeding cam member is equipped with high facial 5221 (60 ° that occupy cam member) and low Facial 5222 (190 ° that occupy cam member), and high face 5221 and 5222 rounding off of bottom surface portion.Upper material roller 524 with it is upper Expect that 522 end face of cam member rolls, so that feeding link member 523 moves back and forth.522 rotary motion of feeding cam member, so that and its The upper material roller 524 that end face is slidably connected moves back and forth on the direction perpendicular to end face, and the other end of feeding link member 523 Also it moves reciprocatingly, so that the semi-finished product being placed on above will move forward.

Preferably, the transition part 5223 for rounding off being equipped between high face 5221 and bottom surface portion 5222 (occupies cam member 45 °).

Wherein, the surface of high face 5221, bottom surface portion 5222 and transition part 5223 is equipped with continuous rolling groove 5224, so that It rolls and cooperates with upper material roller 524.

Wherein, feeding force piece 521 is motor, and the output end of motor is by being equipped with retarder and feeding cam member 522 driving couplings.Meanwhile feeding force piece 521 may be air pump.

Clamping device 540 includes the fixing seat 541 for being set to fixed frame 510, is set to the clamping force piece of fixing seat 541 542, set on the clamping mold 543 of clamping 542 power output end of force piece.It clamps and is equipped between mold 543 for passing through threadiness The die hole of semi-finished product.The clamping driving clamping mold 543 of force piece 542 fixes the linear semi-finished product moved a certain distance, then Clamping mold 543 is fixed, and cutter mechanism 530 is waited to act.

In other embodiments, clamping mold 543 includes the first mold and the second mold.First mold is fixed on fixing seat 541, second mold is fixed on the power output end of clamping force piece 542.First mold be all provided with the second mold it is fluted, The groove of the two forms die hole.After cutter mechanism 530 cuts off semi-finished product, clamping force piece 542 drives the second mold and the first mould Tool separates, the distance of then semi-finished product mobile setting under the action of feeding mechanism 20 (diameter of about ball away from From)；Second mold actions, then semi-finished product are fixed, complete the cutting of next ball.

Preferably, clamping force piece 542 is cylinder, electric putter etc..

Cutter mechanism 530 includes feeder assembly 531, set on the cutter assembly 532 of 531 force piece output end of feeder assembly. Cutter assembly 532 is equipped with two cutters 5321.Cutter 5321 is located at the discharge end of clamping device 540.Feeder assembly 531 pushes away Dynamic cutter assembly 532 moves, so that cutter is close to linear semi-finished product.

Cutter 5321 is arranged on cutterhead.

Specifically, feeder assembly 531 includes feeding power part 5311, set on feeding power part 5311 power output end into Feeding link member 5313 to cam member 5312, with 5312 driving coupling of feed cam part.It feeds in the middle part of link member 5313 and solid Determine the link of frame 510, and one end passes through the feeding roller 5314 that is equipped with and rolls with feed cam part 5312 and couples, the other end with cut 532 driving coupling of knife assembly.

Equally, as shown in Figure 17 and Figure 18,5312 end face of feed cam part is equipped with high convex surface 53121 and indentation face 53122, And high convex surface 53121 couples with 53122 rounding off of indentation face.Feeding roller 5314 is rolled in 5312 end face of feed cam part, So that feeding link member 5313 moves back and forth, then feeder assembly 531 pushes 532 feed motion of cutter assembly.High convex surface 53121 Transition face 53123 is equipped between indentation face 53122.Equally, high convex surface 53121, indentation face 53122 and transition face 53123 are set There is the driving groove 53124 for rolling.

Cutter assembly 532 is including cutter force piece 5322, the deceleration mechanism 5323 with 5322 driving coupling of cutter force piece, And the cutter 5321.Cutter 5321 is set to the power output end of deceleration mechanism 5323.Wherein, cutter force piece 5322 For motor, 5321 rotary motion of cutter is driven.The two sides of feedstock direction are arranged in cutter 5321.Cutter force piece 5322 is Motor is set to 510 upside of fixed frame.

Preferably, the direction that deceleration mechanism 5323 is slidably connected and slides with fixed frame 510 is vertical with feedstock direction.? When needing to cut, is slided in force piece drive deceleration mechanism 532 towards feedstock direction, wire rod is cut, after cutting, Origin-location is retracted by deceleration mechanism 5323, waits 520 feeding of feeding mechanism.

Wherein, deceleration mechanism 5323 is slidably connected by sliding rail 5101 with fixed frame 510.Preferably, deceleration mechanism 5323 The sliding rail 5101 coupled with fixed frame 510 can be slided in feedstock direction, and can be slided perpendicular to feedstock direction.? Perpendicular on feedstock direction with 5322 driving coupling of cutter force piece, to automatically control the feeding of cutter 5321.

In the present embodiment, feeding power part 5311 and feeding force piece 521 are the same motor, in the output end of motor Power transmission is effectively reduced into energy consumption to feeding cam member 522 and feed cam part 5312 by shared shaft 5315, so that The volume of device becomes smaller, structure is more compact.Preferably, shaft 315 couples with motor drive, and 5315 one end of shaft with set Some regulation handles 5316 couple, for adjusting the cooperation of each power.

In addition, the present embodiment further includes regulating mechanism.Regulating mechanism be set to feed mechanism 520 and clamping device 540 it Between, for adjusting semi-finished product.

In conclusion the material of sheet is crispaturaed into the wire rod of circular tube shaped by the present invention by roll film equipment, then welding is set It is standby by soldering wires, to form cylinder-like structure；The wire rod of cylinder is molded by beating on hammer pearl molding equipment, is passing through vehicle Pearl equipment finely tunes shaping, forms pearlitic texture；Granular hollow ball is cut on cutting pearl equipment, then by hollow ball It is together in series to form chain jewellery.Step of the present invention is simple, automated production, high production efficiency, can be mass produced； Flaky material saves material by crispaturaing, beating pressure, turning, cutting, the hollow ball structure of formation.

It is above-mentioned that technology contents of the invention are only further illustrated with embodiment, in order to which reader is easier to understand, but not It represents embodiments of the present invention and is only limitted to this, any technology done according to the present invention extends or recreation, by of the invention Protection.Protection scope of the present invention is subject to claims.

Claims (10)

1. a kind of production method of chain jewelry, which comprises the following steps:

Step 1: cutting the strip flaky material of setting width using cutting apparatus, and flatten；

Step 2: flaky material is placed on roll film equipment, so that two lateral bend of section material, forms tubular material；

Step 3: welding equipment welds tubular material, to form fissureless tubular material；

Step 4: fissureless tubular material be placed on hammer pearl molding equipment beat pressing mold beat it is molded so that fissureless tubulose Material periphery forms continuous concaveconvex structure；

Step 5: periphery be concaveconvex structure tubular material placement vehicle pearl equipment on be modified, to form continuous pearl knot The blank of structure；

Step 5: the blank of pearlitic texture will be cut by cutting pearl equipment, to form the ball structure of particle；

Step 6: ball is assembled catenulate jewellery by washing by the pearlitic texture of particle one by one.

2. a kind of production method of chain jewelry according to claim 1, which is characterized in that described in the step 2 Roll film equipment is equipped with intermeshing first briquetting roller of several groups and the second briquetting roller, and the first briquetting roller and the second briquetting roller it Between be formed with forming cavity so that strip flaky material forms tubular structure by forming cavity.

3. a kind of production method of chain jewelry according to claim 2, which is characterized in that first briquetting roller periphery Equipped with arc convex, second briquetting roller periphery is equipped with and the matched arc groove of arc convex；The arc convex and arc Connected in star forms the forming cavity.

4. a kind of production method of chain jewelry according to claim 1, which is characterized in that the welding equipment is set to Roll film equipment discharge end；The welding equipment includes the retracting structure set on feed end, set on the weldering of the discharge end of retracting structure Connection mechanism, and the integer structure set on discharge end；The strip flaky material is by roll film equipment crimped at the tubulose of opening Material docks the edge of tubular material two sides to form weld seam by retracting structure, welding mechanism against weld seam weld so that Closed tubular structure, and integer structure is trimmed to required shape to closed tubular structure.

5. a kind of production method of chain jewelry according to claim 1, which is characterized in that the hammer pearl molding equipment is set Have for the molding hammer pearl mold of tubular material；The hammer pearl mold includes upper mold section and female die, and upper mold section and lower half The die cavity for shape wire is formed between mould；The tubular material is delivered to hammer pearl mold, so as to be processed into periphery to connect The tubular material of continuous concaveconvex structure.

6. a kind of production method of chain jewelry according to claim 1, which is characterized in that the vehicle pearl equipment include into Expect mechanism, and the lathe tool mechanism set on feeding mechanism discharge end；The feeding mechanism conveys tubular material, and lathe tool mechanism is equipped with Lathe tool carries out excision forming to tubular material.

7. a kind of production method of chain jewelry according to claim 6, which is characterized in that the lathe tool mechanism includes vehicle Knife force piece, the transmission component with lathe tool force piece driving coupling, and set on lathe tool described in transmission component power output end；Institute State the adjusting component that transmission component is equipped with；The transmission component includes the first transmission shaft, second driving shaft；Described first passes Moving axis, second driving shaft are set to the adjusting output end for adjusting component；The lathe tool is set to one end of second driving shaft；Described It is moved by the transmission belt transmitting being equipped between one transmission shaft and lathe tool force piece, between the first transmission shaft and second driving shaft Power.

8. a kind of production method of chain jewelry according to claim 7, which is characterized in that the adjusting component includes solid Reservation, the sliding seat being slidably connected with fixing seat, and the rotating seat coupled is rotated with sliding seat；The transmission component, lathe tool are set In rotating seat；Regulation handle between the sliding seat and fixing seat；Set lever is equipped between the rotating seat and sliding seat.

9. a kind of production method of chain jewelry according to claim 1, which is characterized in that it is described, it is described to cut pearl equipment Clamping including feeding mechanism, set on the cutter mechanism of feeding mechanism discharge end, and between feeding mechanism and cutter mechanism Mechanism；Tubular material to the clamping device that the feeding mechanism conveys continuous concaveconvex structure is fixed, so that cutter mechanism will be continuous The tubular material of concaveconvex structure is cut into granular.

10. a kind of production method of chain jewelry according to claim 1, which is characterized in that the cutter mechanism includes Feeder assembly, set on the cutter assembly of feeder assembly force piece output end；The cutter assembly is equipped with two cutters；It is described to cut Material knife is located at the discharge end of clamping device；The feeder assembly pushes cutter assembly movement, so that cutter is close to continuous concave-convex knot The tubular material of structure is cut into granular.