CN206548004U - Purity is 99.9999% noble metal ring class ornaments inner surface process equipment - Google Patents

Abstract

It is 99.9999% noble metal ring class ornaments inner surface process equipment the utility model discloses a kind of purity, including punch-pin, punch-pin, which is rotated, is provided with moulded head, and punch-pin can be moved along its axis in frame；Cavity plate, cavity plate is rotated provided with the die cavity that match with moulded head, and cavity plate is oppositely arranged with punch-pin, cavity plate can in frame edge and cavity plate axially perpendicular direction is moved；The axis of punch-pin is consistent with the axis of cavity plate；Frame is provided with the motor for being used for driving moulded head or driving die cavity to rotate；Frame is provided with vibrating disk, and vibrating disk is connected with tapping channel, and feed device is provided between tapping channel and die cavity.Purity of the present utility model is processed to refer to by way of cold extrusion and buckled for 99.9999% noble metal ring class ornaments inner surface process equipment, be not only avoid impurity and is mixed into, the gold for obtaining purity up to 99.9999 ‰ refers to button；And manufacturing procedure is simplified, production efficiency is improved, production cost is reduced.

Description

Purity is 99.9999% noble metal ring class ornaments inner surface process equipment

Technical field

The utility model is related to precious metal jewelry film forming system technical field, specifically, is that a kind of purity is 99.9999% noble metal ring class ornaments inner surface process equipment.

Background technology

Ring metalloid ornaments are typically to be processed by precious metal materials such as Au Ag Pt Pds, common are bracelet, finger ring Deng.

At present, the processing of ring metalloid ornaments generally require through melting gold, reverse mould, polish, hold mould, press polish, car flower etc. work Sequence, in so many process, it is difficult to avoid impurity from being mixed into, it is difficult to ensure to obtain purity up to 99.9999 ‰ precious metal jewelry； On the other hand, process is various, and complex operation, the production time is long, causes low production efficiency, and product cost is high.

Existing ring class ornaments inner surface is generally the face of cylinder, and such ring class jewellery consumer wears uncomfortable, experience effect It is really poor.

The content of the invention

Technical problem to be solved in the utility model is：There is provided a kind of can be prevented effectively from the purity that impurity is mixed into and be 99.9999% noble metal ring class ornaments inner surface process equipment, to obtain the becket class ornaments of high-purity.

In order to solve the above technical problems, the technical scheme of utility model is：

Purity is 99.9999% noble metal ring class ornaments inner surface process equipment, including：

Punch-pin, the punch-pin is provided with moulded head, and the punch-pin is fixed on punch-pin substrate, and the punch-pin substrate is slided and set In in frame, the punch-pin substrate connection has punch-pin drive device, and the punch-pin drive device is in the frame, for driving The punch-pin is moved to move along its axis；Cavity plate, the cavity plate is provided with the die cavity that is matched with the moulded head, the cavity plate with it is described Punch-pin is oppositely arranged, and the cavity plate is fixed on cavity plate substrate, and the cavity plate substrate is slided in the frame, described recessed Mould substrate connection has a cavity plate drive device, the cavity plate drive device in the frame, for drive the cavity plate along with The cavity plate axially perpendicular direction movement；The axis of the punch-pin is consistent with the axis of the cavity plate；Set in the frame There is the motor for driving the moulded head or the driving die cavity to rotate；The frame is provided with vibrating disk, the vibration Disk is connected with tapping channel, and feed device is provided between the tapping channel and the die cavity.

As an improvement, the outer surface of the moulded head is the arcwall face concaved.

As an improvement, the punch-pin, which includes rotating by bearing in hollow punch-pin axle bed, the punch-pin axle bed, pacifies Equipped with punch-pin axle, the punch-pin axle is fixed with the moulded head close to one end of the cavity plate.

As an improvement, the punch-pin axle inner hollow is arranged with punch-pin shaping axle and shaping axle in the punch-pin axle Pull bar；The punch-pin shaping axle includes punch-pin shaping shaft body, limiting plate and the moulded head being wholely set successively, described convex Mold forming shaft body is sheathed on the punch-pin axle in one end of the cavity plate, and the limiting plate is resisted against on the punch-pin； The shaping axle pull bar includes the connecting rod, gag lever post and the handlebar that are wholely set successively, the connecting rod and the punch-pin into Profile shaft body is threadedly coupled, and the diameter of the gag lever post is more than the diameter of the connecting rod, and the handlebar stretches out the punch-pin Axle；The gag lever post is resisted against on the punch-pin axle close to one end of the connecting rod.

Shaping axle pull bar is screwed out from punch-pin shaping axle by rotary handle bar, you can remove punch-pin shaping axle, have Benefit simple in construction, easy to operate.Because one section of diameter that punch-pin axle sleeve sets connecting rod is less than the diameter of gag lever post, gag lever post One end close to connecting rod is resisted against on punch-pin axle, it is ensured that punch-pin shaping axle will not be deviate from from punch-pin axle.

As an improvement, the cavity plate includes crossing bearing rotational installation in hollow cavity plate axle bed, the cavity plate axle bed Have hollow cavity plate shaping axle, the die cavity is surrounded by fixed cover and plunger tip, the fixed cover fixed cover located at the cavity plate into Close to one end of the punch-pin in profile shaft, the plunger tip slip cap in the fixed cover, the cavity plate shaping axle with it is described Motor is connected.

As an improvement, the motor is located at the lower section of the cavity plate substrate, and the output end of the motor is connected with master Movable belt pulley, the driving pulley is connected with driven pulley by transmission belt, and the driven pulley connects with cavity plate shaping axle key Connect；It is with holes that the cavity plate substrate is provided with the transmission for supplying transmission belt to pass through.

As an improvement, hollow die cavity adjustment axis, the mould are threaded with the inner chamber of the cavity plate shaping axle Intonation nodal axisn is resisted against on the plunger tip, and slip cap is provided with plunger tip pull bar, the plunger tip pull bar and institute in the die cavity adjustment axis State plunger tip to be fixedly connected, the described one end of die cavity adjustment axis away from the punch-pin is provided with least two first pin-and-holes；The plunger tip The outer cover of the one end of pull bar away from the punch-pin is provided with outside die cavity adjustment axis adjusting nut, the die cavity adjustment axis adjusting nut Portion is threaded with locking nut, the die cavity adjustment axis adjusting nut correspondence first pin-and-hole and is provided with the second pin-and-hole, phase To second pin-and-hole and first pin-and-hole in be provided with bearing pin；The driven pulley adjusts axial adjustment spiral shell close to the die cavity Female side is fixedly connected with gland, and the locking nut is resisted against on the gland.

When adjusting the depth of die cavity, locking nut is screwed off, rotating mould intonation nodal axisn adjusting nut, by bearing pin by die cavity The moment of torsion of adjustment axis adjusting nut is delivered in die cavity adjustment axis, and die cavity adjustment axis is moved in cavity plate shaping axle, adjusts die cavity Depth.

As an improvement, the cavity plate shaping axle is stretched out in one end away from the plunger tip of the plunger tip pull bar, and described The relative place in one end that plunger tip pull bar stretches out the cavity plate shaping axle is provided with discharging cylinder, and the discharging cylinder is fixed on the frame On, one end of the plunger tip pull bar stretching cavity plate shaping axle, which is provided with spacing hole, the spacing hole, is fixed with spacer pin Axle, the described one end of plunger tip pull bar away from the punch-pin is also arranged with back-moving spring, and the back-moving spring is located at the spacer pin Between axle and the die cavity adjustment axis adjusting nut.

Discharging cylinder is acted, and promotes plunger tip pull bar to be moved to punch-pin direction, so as to the embryo material in die cavity be ejected, discharging gas Cylinder resets, and back-moving spring promotes plunger tip pull bar to reset, and regenerates die cavity.

As an improvement, the feed device includes robot device and clamping device, and the robot device includes Line slideway, sliding block, slider cylinder, finger cylinder, finger clamp and feeding cylinder, the line slideway are fixed by support and set In in the frame, set with the diameter parallel of the punch-pin or cavity plate, positioned at the punch-pin or the cavity plate close to institute The side of vibrating disk is stated, the sliding block is slided on the line slideway, and the feeding cylinder is fixed at the straight line and led The one end of rail away from the cavity plate, the piston rod of the feeding cylinder is fixedly connected with the sliding block, and the slider cylinder is vertical It is fixed on the sliding block, the slide unit of the slider cylinder is fixedly connected with the vertical finger cylinder, the finger clamp Pincers are fixed on the finger of the finger cylinder；The clamping device includes sliding-rail sliding mechanism, sliding-rail sliding mechanism bag Dovetail slide rail and the dovetail slide block being slideably positioned on the dovetail slide rail are included, the dovetail slide block is put down with the line slideway OK, the dovetail slide block is fixed with material folding plate close to one end of the cavity plate, and the material folding plate is slided to be slided located at the dovetail On block, the one end of the dovetail slide block away from the cavity plate is fixed with clamping cylinder and material folding block, the work of the clamping cylinder Stopper rod is fixedly connected with folded flitch, and the material folding plate and the material folding block are oppositely arranged；The clamping device is located at the hand Refer to the lower section of clamp, at the discharge end of the tapping channel.

During material folding, clamping cylinder promotes material folding plate to clamp embryo material close to material folding block, material folding plate and material folding block, feeding cylinder Adjusted with slider cylinder in the position of finger cylinder, the space that finger clamp is delivered to embryo material, finger cylinder promotes two fingers Clamp is separated, and finger clamp supports embryo material, and finger clamp is sent into die cavity, embryo material is put into by feeding cylinder and slider cylinder In die cavity.

As an improvement, one end in the dovetail slide block close to the cavity plate is fixed with feeding limiting plate, described Feeding limiting plate is threadedly coupled spacing adjustment bolt.

By adopting the above-described technical solution, the beneficial effects of the utility model are：

Because purity is that 99.9999% noble metal ring class ornaments inner surface process equipment includes punch-pin, punch-pin is provided with shaping Head, punch-pin is fixed on punch-pin substrate, and punch-pin substrate is slided in frame, and punch-pin substrate connection has punch-pin drive device, Punch-pin drive device is in frame, for driving punch-pin to move along its axis；Cavity plate, cavity plate is provided with the mould matched with moulded head Chamber, cavity plate is oppositely arranged with punch-pin, and cavity plate is fixed on cavity plate substrate, and cavity plate substrate is slided in frame, cavity plate substrate Be connected with cavity plate drive device, cavity plate drive device in frame, for drive cavity plate along with the axial perpendicular side of cavity plate To movement；The axis of punch-pin is consistent with the axis of cavity plate；Frame, which is provided with, to be used to drive what moulded head or driving die cavity were rotated Motor；Frame is provided with vibrating disk, and vibrating disk is connected with tapping channel, and feed device is provided between tapping channel and die cavity；Plus During the inner surface of work ring class jewellery, vibrating disk is arranged in embryo material is vertical one by one on tapping channel, and cavity plate drive device will be recessed Mould is moved at line slideway, and embryo material is sent in die cavity by feed device, and cavity plate is moved to punch-pin just by cavity plate drive device To position, i.e. the axis of punch-pin and cavity plate coincides, and then punch-pin drive device delivers to moulded head in die cavity, motor driving Die cavity or moulded head are rotated, and cavity plate drive device driving cavity plate is slowly moved along the direction with female vertical, i.e. processing feeding, When cavity plate reaches specified location, kept for a period of time, complete the processing of ring class jewellery inner surface；In whole process, Reverse mould is needed not move through, polishes, hold the processes such as mould, press polish, procedure is simplified, impurity is effectively prevent and is mixed into ring class jewellery In, obtain the ring-type precious metal jewelry of high-purity.

Because the outer surface of moulded head is the arcwall face that concaves so that the inner surface of the ring class jewellery processed is inside Convex arcwall face, consumer's comfortable wearing improves the experience effect of consumer.

Brief description of the drawings

Fig. 1 is the structural representation that the utility model purity is 99.9999% noble metal ring class ornaments inner surface process equipment Figure；

Fig. 2 is Fig. 1 overlooking the structure diagram；

Fig. 3 is structural representation when Fig. 2 convex moulds process original state with cavity plate；

Fig. 4 is structural representation when Fig. 2 convex moulds are processed with cavity plate；

Fig. 5 is the structural representation of feed device in Fig. 1；

Fig. 6 is Fig. 5 left view structural representation；

Fig. 7 is the structural representation of moulded head；

Fig. 8 is the structural representation of the finger button with the intrados to convex；

In figure：1- frames；2- punch-pin substrates；3- punch-pin；31- punch-pin axle beds；32- punch-pin axles；33- shaping axle pull bars； 331- connecting rods；332- gag lever posts；333- handlebars；34- punch-pin shaping axles；341- punch-pin is molded shaft body；342- limiting plates； 343- moulded heads；4- punch-pin drive cylinders；5- cavity plate substrates；6- cavity plates；61- die cavitys；62- fixed covers；63- plunger tips；64- is limited Position bearing pin；65- cavity plate axle beds；66- cavity plate shaping axles；67- die cavity adjustment axis；The pin-and-holes of 671- first；672- spacing holes；68- is pushed up Core pull bar；The pin-and-holes of 681- second；69- bearing pins；7- cavity plate drive cylinders；8- feed devices；81- robot devices；811- straight lines Guide rail；812- sliding blocks；813- slider cylinders；814- finger cylinders；815- finger clamps；816- feeding cylinders；817- oil pressure delays Rush device；818- fixed blocks；82- clamping devices；821- dovetail slide rails；822- dovetail slide blocks；823- material folding plates；824- clamps gas Cylinder；825- feeding limiting plates；The spacing adjustment bolts of 826-；827- material folding blocks；83- supports；9- tapping channels；10- motors；11- Discharging cylinder；12- driven pulleys；13- driving pulleys；14- transmission belts；15- transmissions are with holes；16- glands；17- back-moving springs； 18- vibrating disks；19- locking nuts；20- die cavity adjustment axis adjusting nuts；21- embryo materials.

Embodiment

In order that the purpose of this utility model, technical scheme and advantage are more clearly understood, below in conjunction with accompanying drawing and implementation Example, the utility model is further elaborated.It should be appreciated that specific embodiment described herein is only to explain The utility model, and it is not used in restriction the utility model.

Embodiment one

As shown in Figure 1, Figure 2, Fig. 3 and Fig. 4 are jointly shown, and a kind of purity is that 99.9999% noble metal ring class ornaments inner surface adds Slide to be provided with to be fixed with punch-pin 3, punch-pin 3 on punch-pin substrate 2, punch-pin substrate 2 in construction equipment, including frame 1, frame 1 and set There is moulded head 343, frame 1 is provided with punch-pin drive cylinder 4, and the cylinder barrel of punch-pin drive cylinder 4 is articulated with frame 1, and punch-pin drives The piston rod of cylinder 4 of taking offence is fixedly connected with punch-pin substrate 2, and punch-pin drive cylinder 4 drives axial movement of the punch-pin 3 along punch-pin 3.

Slide to be provided with cavity plate substrate 5, cavity plate substrate 5 in frame 1 and be fixed with cavity plate 6, cavity plate 6 is relative with punch-pin 3 to be set Put, cavity plate 6 is provided with the die cavity 61 that is adapted to moulded head 343, the axis of cavity plate 6 and the diameter parallel of punch-pin 3 or overlap, it is recessed The side of mould substrate 5 is provided with cavity plate drive cylinder 7, and the cylinder barrel of cavity plate drive cylinder 7 is articulated with frame 1, cavity plate drive cylinder 7 Piston rod be fixedly connected with cavity plate substrate 5, cavity plate drive cylinder 7 drives cavity plate 6 along the direction with the axis perpendicular of cavity plate 6 It is mobile.

Frame 1 is provided with the motor 10 for being used for driving moulded head 343 to rotate.

Frame 1 is provided with vibrating disk 18, and vibrating disk 18 is connected with tapping channel 9, tapping channel 9 and punch-pin 3 or cavity plate 6 axis is vertical, is provided with feed device 8 between tapping channel 9 and die cavity 61, feed device 8 be used to referring to button embryo material 21 from It is moved on tapping channel 9 on die cavity 61.

As Fig. 3 and Fig. 4 jointly shown in, punch-pin 3 includes hollow punch-pin axle bed 31, passes through rolling bearing in punch-pin axle bed 31 Hollow punch-pin axle 32 is rotatablely equipped with, punch-pin axle 32 is arranged with punch-pin shaping axle 34 close to one end of cavity plate 6, and the other end is arranged There is shaping axle pull bar 33.

Wherein, punch-pin shaping axle 34 includes punch-pin shaping shaft body 341, limiting plate 342 and the shaping being wholely set successively First 343, punch-pin shaping shaft body 341 is sheathed on punch-pin axle 32 in one end of cavity plate 6, and limiting plate 342 is resisted against punch-pin 3 On.

Shaping axle pull bar 33 includes connecting rod 331, gag lever post 332 and the handlebar 333 being wholely set successively, connecting rod 331 are threadedly coupled with punch-pin shaping shaft body 341, and the diameter of gag lever post 332 is more than the diameter of connecting rod 331, handlebar 333 Stretch out the one end of punch-pin axle 32 away from cavity plate 6.

Punch-pin axle 32 is arranged with diameter of one section of diameter less than gag lever post 332 of connecting rod 331, and gag lever post 332 is close to even One end of extension bar 331 is resisted against on punch-pin axle 32, in this way, punch-pin shaping axle 34 will not be deviate from from punch-pin axle 32.

When changing punch-pin shaping axle 34, shaping axle pull bar 33 is screwed out punch-pin shaping axle 34 by rotary handle bar 333, you can Punch-pin shaping axle 34 is removed, with simple in construction, convenient benefit is changed.

As shown in Figure 1, Figure 2, Fig. 3 and Fig. 4 are jointly shown, and cavity plate 6 includes hollow cavity plate axle bed 65, and cavity plate axle bed 65 passes through rolling Dynamic bearing is rotatablely equipped with hollow cavity plate shaping axle 66, and cavity plate shaping axle 66 is provided with close to one end fixed cover of punch-pin 3 and fixed Slip cap is provided with plunger tip 63 in set 62, fixed cover 62, and fixed cover 62 and plunger tip 63 surround die cavity 61 jointly.

One end key of the cavity plate shaping axle 66 away from punch-pin 3 is connected with driven pulley 12, and driven pulley 12 passes through transmission belt 14 Driving pulley 13 is connected with, driving pulley 13 is fixed on the output shaft of motor 10, and motor 10 is fixed on cavity plate substrate 5 Bottom, is provided with the transmission with holes 15 for being used for passing through for transmission belt 14 in frame 1.It is of course also possible to be passed by gear drive, chain The kind of drive connection motor 10 and cavity plate shaping axle 66 such as dynamic.

The one end of plunger tip 63 away from punch-pin 3 is fixedly connected with plunger tip pull bar 68, the one end of plunger tip pull bar 68 away from punch-pin 3 Cavity plate shaping axle 66 is stretched out, place relative with the one end of plunger tip pull bar 68 away from punch-pin 3 is provided with discharging cylinder 11, and discharging cylinder 11 is consolidated Surely in frame 1；The one end of plunger tip pull bar 68 away from punch-pin 3 is provided with spacing hole 672, is fixed with spacing hole 672 spacing Bearing pin 64, the one end of plunger tip pull bar 68 away from punch-pin 3 is also arranged with back-moving spring 17, and the two ends of back-moving spring 17 are resisted against spacing On bearing pin 64 and die cavity adjustment axis adjusting nut 20.

The slip cap of plunger tip pull bar 68 is in hollow die cavity adjustment axis 67, and die cavity adjustment axis 67 is resisted against on plunger tip 63, Die cavity adjustment axis 67 is sheathed in cavity plate shaping axle 66, and the one end of die cavity adjustment axis 67 away from punch-pin 3 is at least provided with two first Pin-and-hole 671, the one end of die cavity adjustment axis 67 away from punch-pin 3 is also arranged with die cavity adjustment axis adjusting nut 20, and die cavity adjustment axis is adjusted The external screw-thread of whole nut 20 is connected with locking nut 19, the first pin-and-hole 671 of correspondence of die cavity adjustment axis adjusting nut 20 and is provided with Bearing pin 69 is provided with second pin-and-hole 681, the first relative pin-and-hole 671 and the second pin-and-hole 681.

Driven pulley 12 is fixedly connected with gland 16 close to the side of die cavity adjustment axis adjusting nut 20 by screw, lock Tight nut 19 is resisted against on gland 16.

Locking nut 19 is screwed off, rotating mould intonation nodal axisn adjusting nut 20, rotating mould intonation nodal axisn adjusting nut 20 passes through Bearing pin 69 is transferred torque in die cavity adjustment axis 67 so that die cavity adjustment axis 67 is slided in cavity plate shaping axle 66, plunger tip 63 Slided in fixed cover 62, the depth of die cavity 61 is adjusted, to adapt to different finger buttons.

Gland 16 not only can provide support to locking nut 19, can also play the work for limiting the position of driven pulley 12 With.

As Fig. 5 and Fig. 6 jointly shown in, feed device 8 include robot device 81 and clamping device 82.

As Fig. 5 and Fig. 6 jointly shown in, robot device 81 include line slideway 811, sliding block 812, slider cylinder 813, hand Refer to cylinder 814, finger clamp 815 and feeding cylinder 816.

Line slideway 811 is fixed in frame 1 by vertical support 83, is put down with the axis of punch-pin 3 or cavity plate 6 Row is set, and positioned at punch-pin 3 or cavity plate 6 close to the side of vibrating disk 18, sliding block 812 is slided on line slideway 811, feeding Cylinder 816 is fixed at the one end of line slideway 811 away from cavity plate 6, and the piston rod of feeding cylinder 816 is fixed with sliding block 812 to be connected Connect, slider cylinder 813 is vertically fixed on sliding block 812, and the slide unit of slider cylinder 813 is fixed with vertical finger cylinder 814 Connection, finger clamp 815 is fixed on two fingers of finger cylinder 814.

As Fig. 5 and Fig. 6 jointly shown in, be also spaced in the side of line slideway 811 and be fixed with two oil buffers 817, sliding block 812 is located between two oil buffers 817, and the side on sliding block 812 close to oil buffer 817 is fixed with Fixed block 818.The setting of oil buffer 817 and fixed block 818, the impact brought is acted for buffering feeding cylinder 816.

Clamping device 82 is located at the lower section of robot device 81, including sliding-rail sliding mechanism, and sliding-rail sliding mechanism includes swallow The dovetail slide block 822 of tail slide rail 821 and slip on dovetail slide rail 821, dovetail slide block 822 is parallel with line slideway 811, Dovetail slide block 822 is fixed with material folding plate 823 close to one end of cavity plate 6, and material folding plate 823 is slided in dovetail slide block 822, swallow The one end of tail sliding block 822 away from cavity plate 6 is fixed with clamping cylinder 824 and material folding block 827, material folding plate 823 and the phase of material folding block 827 To setting, the piston rod of clamping cylinder 824 is fixedly connected with dovetail slide block 822.

One end in dovetail slide block 822 close to cavity plate 6 is fixed with feeding limiting plate 825, the screw thread of feeding limiting plate 825 Connect limited location adjustment bolt 826.Spacing adjustment bolt 826 is used for the folding distance for adjusting material folding plate 823 and material folding block 827, In order to clamp various sizes of embryo material.

Material folding plate 823 and material folding block 827 are respectively positioned on the lower section of finger clamp 815, at the discharge end of tapping channel 9.

Sliding-rail sliding mechanism is used for the position for adjusting material folding plate 823 and material folding block 827, so that material folding plate 823 and material folding block 827 just to tapping channel 9, and embryo material 21 smoothly enters between material folding plate 823 and material folding block 827.

Purity of the present utility model is that 99.9999% noble metal ring class ornaments inner surface process equipment so works：

Vibrating disk 18 is arranged in embryo material 21 is vertical one by one on tapping channel 9；

Cavity plate drive cylinder 7 is promoted at cavity plate 6 to line slideway 811；

Clamping cylinder 824 promotes material folding plate 823 away from material folding block 827, and the embryo material 21 from tapping channel 9 enters material folding Between plate 823 and material folding block 827, clamping cylinder 824 promotes material folding plate 823 close to material folding block 827, material folding plate 823 and material folding Block 827 clamps embryo material 21；

Under the promotion of feeding cylinder 816 and slider cylinder 813, finger clamp 815 enters in the space of embryo material 21, finger Cylinder 814 promotes two finger clamps 815 to separate, to support embryo material 21, then in feeding cylinder 816 and slider cylinder 813 Under promotion, embryo material 21 is put into die cavity 61 by finger cylinder 814, completes feeding process；

Cavity plate drive cylinder 7 promotes cavity plate 6 to locate to relative with punch-pin 3, and cavity plate 6 coincides with the axis of punch-pin 3, punch-pin driving Cylinder 4 moves punch-pin 3 to the direction of cavity plate 6, until moulded head 343 is completely into die cavity 61；

The driving die cavity 61 of motor 10 is rotated, and cavity plate drive cylinder 7 is slowly moved to the direction with the axis perpendicular of cavity plate 6 Dynamic, then moulded head 343 gradually extrudes the inner surface of embryo material 21, and moulded head 343 is reached after specified location, is kept for a period of time, embryo The inner surface of material 21 is squeezed into required inner surface；

Motor 10 is stopped operating, and cavity plate drive cylinder 7 promotes cavity plate 6, and the axis of cavity plate 6 is weighed again with the axis of punch-pin 3 Close, punch-pin drive cylinder 4 removes moulded head 343 in die cavity 61, cavity plate drive cylinder 7 promotes cavity plate 6 to return to processing initial bit Put, punch-pin drive cylinder 4 promotes punch-pin 3 to return to initial processing position；

The piston rod of discharging cylinder 11 promotes plunger tip pull bar 68, the embryo material 21 processed is ejected from die cavity 61, discharging The piston rod of cylinder 11 resets, and in the presence of back-moving spring 17, plunger tip pull bar 68 resets；

Machine.

As Fig. 3 and Fig. 4 jointly shown in, the inner surface of embryo material 21 is the face of cylinder, as 4 and Fig. 7 jointly shown in, machine Afterwards, the inner surface of embryo material 21 is the globoidal structure to convex, and accordingly, the outer surface of moulded head 343 is the arcwall face concaved, Certainly, moulded head 343 can also select other shapes of surface, such as waveform, V-arrangement, it is machined go out inner surface be not similar shape The finger button of shape, the inner cylinder face of fixed cover 62 can also design camber, waveform, V-arrangement etc., to process appearance attractive in appearance Face.

Purity of the present utility model is the side that 99.9999% noble metal ring class ornaments inner surface process equipment passes through cold extrusion Formula processing refers to button, it is not necessary to by reverse mould, polishes, hold the processes such as mould, press polish, simplifying manufacturing procedure, effectively prevent impurity It is mixed into, the gold for resulting in purity up to 99.9999 ‰ refers to button；In addition, simplifying manufacturing procedure, the production time is shortened, greatly Production efficiency is improved greatly, product cost is reduced.

As shown in figure 8, the inner surface of the finger button processed is the arcwall face of convex, consumer's comfortable wearing is improved Refer to the usage experience effect of button.

Purity of the present utility model is that 99.9999% noble metal ring class ornaments inner surface process equipment not only can be for Processing refers to button, may also be used for the ring class jewellery such as processing bracelet.

Embodiment two

Embodiment two and the structure of embodiment one are essentially identical, and difference is, punch-pin axle 32 is connected with motor 10, The no longer key of cavity plate shaping axle 66 is connected with driven pulley 12, and during processing embryo material 21, moulded head 343 is rotated, and die cavity 61 is with shaping First 343 rotation and rotate.

Above-described embodiment is used to explain the utility model, and shall not be construed as to limitation of the present utility model.All bases In the made many variations of design of the present utility model, fall within protection domain of the present utility model.

Claims (10)

1. purity is 99.9999% noble metal ring class ornaments inner surface process equipment, it is characterised in that including

Punch-pin, the punch-pin is provided with moulded head, and the punch-pin is fixed on punch-pin substrate, and the punch-pin substrate slides the machine of being located at On frame, the punch-pin substrate connection has punch-pin drive device, and the punch-pin drive device is in the frame, for driving Punch-pin is stated to move along its axis；

Cavity plate, the cavity plate is provided with the die cavity matched with the moulded head, and the cavity plate is oppositely arranged with the punch-pin, described recessed Mould is fixed on cavity plate substrate, and the cavity plate substrate is slided in the frame, and the cavity plate substrate connection has cavity plate drive Dynamic device, the cavity plate drive device is in the frame, for driving the cavity plate edge axially perpendicular with the cavity plate Direction movement；

The axis of the punch-pin is consistent with the axis of the cavity plate；

The frame is provided with the motor for being used for driving the moulded head or the driving die cavity to rotate；

The frame is provided with vibrating disk, and the vibrating disk is connected with tapping channel, between the tapping channel and the die cavity Provided with feed device.

2. purity as claimed in claim 1 is 99.9999% noble metal ring class ornaments inner surface process equipment, its feature exists In the outer surface of the moulded head is the arcwall face concaved.

3. purity as claimed in claim 1 is 99.9999% noble metal ring class ornaments inner surface process equipment, its feature exists In the punch-pin includes being rotatablely equipped with punch-pin axle, the punch-pin by bearing in hollow punch-pin axle bed, the punch-pin axle bed Axle is fixed with the moulded head close to one end of the cavity plate.

4. purity as claimed in claim 3 is 99.9999% noble metal ring class ornaments inner surface process equipment, its feature exists In being arranged with punch-pin shaping axle and shaping axle pull bar in, the punch-pin axle inner hollow, the punch-pin axle；

The punch-pin shaping axle includes punch-pin shaping shaft body, limiting plate and the moulded head being wholely set successively, described convex Mold forming shaft body is sheathed on the punch-pin axle in one end of the cavity plate, and the limiting plate is resisted against on the punch-pin；

The shaping axle pull bar includes the connecting rod, gag lever post and the handlebar that are wholely set successively, the connecting rod with it is described convex Mold forming shaft body is threadedly coupled, and the diameter of the gag lever post is more than the diameter of the connecting rod, and the handlebar stretches out described Punch-pin axle；The gag lever post is resisted against on the punch-pin axle close to one end of the connecting rod.

5. purity as claimed in claim 1 is 99.9999% noble metal ring class ornaments inner surface process equipment, its feature exists In, the cavity plate includes hollow cavity plate axle bed, and the interior bearing of crossing of the cavity plate axle bed is rotatablely equipped with hollow cavity plate shaping axle, The die cavity is surrounded by fixed cover and plunger tip, and the fixed cover fixed cover is in the cavity plate shaping axle close to the punch-pin One end, the plunger tip slip cap is in the fixed cover, and the cavity plate shaping axle is connected with the motor.

6. purity as claimed in claim 5 is 99.9999% noble metal ring class ornaments inner surface process equipment, its feature exists In the motor is located at the lower section of the cavity plate substrate, and the output end of the motor is connected with driving pulley, the driving pulley Driven pulley is connected with by transmission belt, the driven pulley is connected with cavity plate shaping axle key；Set on the cavity plate substrate There is the transmission for supplying transmission belt to pass through with holes.

7. purity as claimed in claim 6 is 99.9999% noble metal ring class ornaments inner surface process equipment, its feature exists In being threaded with hollow die cavity adjustment axis in the inner chamber of the cavity plate shaping axle, the die cavity adjustment axis is resisted against described On plunger tip, slip cap is provided with plunger tip pull bar in the die cavity adjustment axis, and the plunger tip pull bar is fixedly connected with the plunger tip, described The one end of die cavity adjustment axis away from the punch-pin is provided with least two first pin-and-holes；

The outer cover of the described one end of plunger tip pull bar away from the punch-pin is provided with die cavity adjustment axis adjusting nut, the die cavity regulation Axial adjustment nut external screw-thread is connected with locking nut, the die cavity adjustment axis adjusting nut correspondence first pin-and-hole and is provided with Second pin-and-hole, relative second pin-and-hole is with being provided with bearing pin in first pin-and-hole；

The driven pulley is fixedly connected with gland close to the side of the die cavity adjustment axis adjusting nut, and the locking nut is supported Lean against on the gland.

8. purity as claimed in claim 7 is 99.9999% noble metal ring class ornaments inner surface process equipment, its feature exists In the cavity plate shaping axle is stretched out in the one end of the plunger tip pull bar away from the plunger tip, stretches out described recessed with the plunger tip pull bar The relative place in one end of mold forming axle is provided with discharging cylinder, and the discharging cylinder is fixed in the frame, and the plunger tip pull bar is stretched The one end for going out the cavity plate shaping axle is provided with spacing hole, is fixed with spacing bearing pin in the spacing hole, the plunger tip pull bar is remote One end from the punch-pin is also arranged with back-moving spring, and the back-moving spring is located at the spacing bearing pin and the die cavity adjustment axis Between adjusting nut.

9. the purity as described in claim any one of 1-8 is 99.9999% noble metal ring class ornaments inner surface process equipment, its It is characterised by, the feed device includes robot device and clamping device,

The robot device includes line slideway, sliding block, slider cylinder, finger cylinder, finger clamp and feeding cylinder, described Line slideway is fixed in the frame by support, is set with the diameter parallel of the punch-pin or cavity plate, positioned at described Punch-pin or the cavity plate are close to the side of the vibrating disk, and the sliding block is slided on the line slideway, the feeding Cylinder is fixed at the one end of the line slideway away from the cavity plate, and piston rod and the sliding block of the feeding cylinder are fixed Connection, the slider cylinder is vertically fixed on the sliding block, the slide unit of the slider cylinder and the vertical finger gas Cylinder is fixedly connected, and the finger clamp is fixed on the finger of the finger cylinder；

The clamping device includes sliding-rail sliding mechanism, and the sliding-rail sliding mechanism includes dovetail slide rail and is slideably positioned in described Dovetail slide block on dovetail slide rail, the dovetail slide block is parallel with the line slideway, and the dovetail slide block is close to the cavity plate One end be fixed with material folding plate, the material folding plate is slided in the dovetail slide block, and the dovetail slide block is away from described recessed One end of mould is fixed with clamping cylinder and material folding block, and the piston rod of the clamping cylinder is fixedly connected with folded flitch, described Material folding plate and the material folding block are oppositely arranged；

The clamping device is located at the lower section of the finger clamp, at the discharge end of the tapping channel.

10. purity as claimed in claim 9 is 99.9999% noble metal ring class ornaments inner surface process equipment, its feature exists In one end of the close cavity plate is fixed with feeding limiting plate, the feeding limiting plate threaded connection in the dovetail slide block Spacing adjustment bolt.