CN101602083A - Jewellery bead making machine - Google Patents

Abstract

The invention discloses a kind of jewellery bead making machine, comprise frame; Be installed on the die-forging forming device on the frame, the die-forging forming device is provided with along the tactic a plurality of stations that forge of the direct of travel of metal pipe, is used for the metal pipe is forged into pearl string or monomer pearl gradually; Be installed on the pay-off on the frame, comprise the auxiliary material lift device that the metal pipe is lifted, carry a step pitch to the next axial pay-off that forges station downwards the metal pipe after lifting, make the metal pipe forge the station discontinuous and rotate and form a plurality of upset pay-offs that forge phase place at one.Because sending to, overturn, forge and lifting of metal pipe all is the automation processing mode, utilize the gold, silver pearl specification of the thin-walled sphere of jewellery bead making machine production of the present invention to keep unified, quality is guaranteed, and production efficiency significantly improves, and has also eliminated potential safety hazard simultaneously.

Description

Jewellery bead making machine

Technical field

The present invention relates to jewellery processing equipment field, relate in particular to a kind of jewellery bead making machine of producing the gold, silver pearl of thin-walled sphere.

Background technology

The gold, silver pearl of thin-walled sphere is bullion processing industry a kind of style commonly used, it makes the mode that adopts manual feeding to combine with small-sized hand-operated punch press usually, the drift place of punch press is provided with the patrix of profile, during production, hand feeding of operative employee, one end of metal pipe to be processed is delivered to the counterdie place that also has identical profile, another hand operated and control drift, limit upset metal pipe just forges, through repeatedly the metal pipe being forged thin-walled spheroidal bead one by one after repeatedly.The defective that this processing mode exists is: metal pipe and operation and control drift because the employing manual type is sent to and overturn, it is low to cause feeding position to be forbidden, forge precision easily, it is unified that the product specification that makes is difficult to keep, difficult quality guarantee, and production efficiency is low; Simultaneously, very high to the action cooperation requirement of two hands, notice need be very concentrated, careless slightly when the operative employee operated, and easily goes out security incident.

Summary of the invention

Technical problem to be solved by this invention provides a kind of jewellery bead making machine, can carry out self-feeding, overturn and forge the metal pipe, the specification that exists with the gold, silver pearl that solves above-mentioned manual mode production thin-walled sphere is difficult to keep unified, the problem of difficult quality guarantee, and significantly improve operating efficiency.

For solving the problems of the technologies described above, technical scheme of the present invention is: jewellery bead making machine comprises frame; Be installed on the die-forging forming device on the described frame, described die-forging forming device is provided with along the tactic a plurality of stations that forge of the direct of travel of metal pipe, and described die-forging forming device is used for the metal pipe is forged into pearl string or monomer pearl gradually; Be installed on the pay-off on the described frame, described pay-off comprises and is used for auxiliary material lift device that the metal pipe is lifted, metal pipe after being used for lifting carries a step pitch to the next axial pay-off that forges station downwards, is used to make the metal pipe to forge the station discontinuous at one and rotates and form a plurality of upset pay-offs that forge phase place.

As optimized technical scheme, described axial pay-off comprises the feeding body, described feeding body is slidingly mounted in the feeding body slide, has the penetrating cavity that is used to place the metal pipe on the described feeding body, and the two ends of described feeding body are respectively equipped with a feeding dial and the dial that resets; By the main shaft that power set drive, described main shaft is rotatably installed on the described frame; The feeding edge cam, described feeding edge cam is installed on the described main shaft; The fork that is controlled by described feeding edge cam, described fork is installed on the frame, and the force side of described fork relies on the end face of the described dial that resets, and is used to make the feeding axon to resetting; Feeding spring, described feeding spring clip are held between described feeding dial and the feeding body slide; Described upset pay-off comprises the gear that is arranged on the external side face of described feeding; The upset cam, described upset cam is installed on the described main shaft; The upset slide block that is controlled by described upset cam, described upset slide block are constrained in a fixing upset track, and described upset slide block is provided with tooth bar, described tooth bar and described gears engaged; The upset back-moving spring, described upset back-moving spring is held between the free end and described frame of described tooth bar; Described auxiliary material lift device comprises lifter cam, and described lifter cam is installed on the described main shaft; The lifting slider that is controlled by described lifter cam, described lifting slider is constrained in fixing fluctuating orbit, and the force side of described lifting slider relies on the upper surface of described feeding body slide; Lifting back-moving spring, described lifting back-moving spring are held between the lower surface and described frame of described feeding body slide.

As optimized technical scheme, in the penetrating cavity of described feeding body, be provided with bracing ring, the external diameter of the endoporus of described bracing ring and described metal pipe is suitable.

As optimized technical scheme, described die-forging forming device comprises the die forging cam, and described die forging cam is installed on the described main shaft; The die forging slide block that is controlled by described die forging cam, described die forging slide block is constrained in fixing die forging track, and the force side of described die forging slide block is equipped with patrix; With the counterdie of the corresponding setting of described patrix, described counterdie is fixed on the described frame; Be respectively equipped with manyly to hemispherical depression on the relative face of described upper die and lower die, described many degree of depth to hemispherical depression are deepened gradually along the direct of travel of metal pipe, and each constitutes the described station that forges to hemispherical depression; The die forging back-moving spring, described die forging back-moving spring is arranged between described die forging track and the die forging slide block.

As optimized technical scheme, described die forging slide block comprises top shoe and sliding block, is provided with the die forging slide block arrangement for adjusting height that is used to regulate described die forging slide block height between described top shoe and sliding block.

As optimized technical scheme, the lower surface of described top shoe is an inclined-plane; Described die forging slide block arrangement for adjusting height comprises an oblique nut, the inclined-plane of described oblique nut and the inclined-plane of described top shoe are suitable, the described die forging back-moving spring application of force relies on described top shoe, oblique nut and sliding block on the cam surface of described die forging cam, rotation set has an adjusting screw(rod) on the described oblique nut, and described adjusting screw(rod) rotates and is installed on the described sliding block.

As optimized technical scheme, the upper end of described top shoe is provided with roller.

As optimized technical scheme, described jewellery bead making machine also comprises feeding step pitch adjusting device.

As optimized technical scheme, described feeding step pitch adjusting device comprises adjustment seat, and described adjustment seat is fixed on the described frame; Locating part, described locating part are slidingly mounted on the described adjustment seat and rely on the described dial that resets; The axial location guiding mechanism, described axial location guiding mechanism is installed between described adjustment seat and the locating part, is used to adjust the position of described locating part along the direct of travel of metal pipe.

As optimized technical scheme, described jewellery bead making machine also comprises damping unit, and described damping unit comprises and is installed in the damping wheel of described main shaft away from the unified end of described main transmission.

After having adopted technique scheme, the invention has the beneficial effects as follows: because described bead machine is provided with die-forging forming device and pay-off, described die-forging forming device is provided with along the tactic a plurality of stations that forge of the direct of travel of metal pipe, described die-forging forming device is used for the metal pipe is forged into pearl string or monomer pearl gradually, described pay-off comprises and is used for auxiliary material lift device that the metal pipe is lifted, metal pipe after being used for lifting carries a step pitch to the next axial pay-off that forges station downwards, and be used to make the metal pipe to forge the rotation of station discontinuous and form a plurality of upset pay-offs that forge phase place at one, so the bead machine is in running, auxiliary material lift device will finish a certainly to forge the metal pipe that the station place forges and lift, and disengage fully with upper die and lower die, afterwards, metal pipe after will being lifted by axial pay-off carries step pitch a to next one to forge station downwards, main shaft whenever circles, the metal pipe is carried a step pitch downwards, and feeding position is accurate; Forge the station place at each, the upset pay-off intermittently rotates the metal pipe and forms a plurality of phase places that forge, metal pipe revolution moves a phase place, the die-forging forming device once forges it, mechanical forging precision height, the metal pipe forges the station place at each and need and forge through rotation for several times; The rotation that finishes this several that forges the station place with forge after, repeat aforementioned process again, so repeatedly, through a plurality of repeatedly rotations that forge the station place with forge, finally make the gold, silver pearl of thin-walled sphere.

Owing to the sending to of metal pipe, rotate, forge with lifting and all be improved to automated manner by the manual mode of operation, make the gold, silver pearl specification of the thin-walled sphere of utilizing jewellery bead making machine production of the present invention keep unified, quality is guaranteed, production efficiency significantly improves, and has also eliminated potential safety hazard simultaneously.

Description of drawings

Embodiments of the present invention is further illustrated below in conjunction with accompanying drawing:

Fig. 1 is the transmission schematic diagram of the embodiment of the invention;

Fig. 2 is the feeding step pitch adjusting device structural representation of the embodiment of the invention;

Fig. 3 is the counterdie structural representation of the embodiment of the invention;

Fig. 4 is the feeder structure schematic diagram of the embodiment of the invention;

Fig. 5 is the die forging slide block structure schematic diagram of the embodiment of the invention;

Fig. 6 be Fig. 5 along A-A to cutaway view.

The specific embodiment

As shown in Figure 1, jewellery bead making machine comprises the frame (not shown); Be installed on the die-forging forming device (back detailed description) on the described frame, described die-forging forming device is provided with along the tactic a plurality of stations that forge of the direct of travel of metal pipe 10, and described die-forging forming device is used for metal pipe 10 is forged into pearl string or monomer pearl gradually; Be installed on the pay-off (back detailed description) on the described frame, described pay-off comprises and is used for auxiliary material lift device that metal pipe 10 is lifted, metal pipe 10 after being used for lifting carries a step pitch to the next axial pay-off that forges station downwards, is used to make metal pipe 10 to forge the station discontinuous at one and rotates and form a plurality of upset pay-offs that forge phase place.

Shown in Fig. 1 and Fig. 4 are common, described axial pay-off comprises feeding body 31, described feeding body 31 is slidingly mounted in the feeding body slide 38, has the penetrating cavity that is used to place metal pipe 10 on the described feeding body 31, the two ends of described feeding body 31 are respectively equipped with a feeding dial 37 and the dial 39 that resets, wherein, on the described feeding dial 37 thrust bearing 36 is installed; By the main shaft 1 that power set drive, described main shaft 1 is rotatably installed on the described frame; Feeding edge cam 32, described feeding edge cam 32 are installed on the described main shaft 1; The fork 33 that is controlled by described feeding edge cam 32, described fork 33 is installed on the frame, and the force side of described fork 33 relies on the end face of the described dial 39 that resets, and is used to make feeding body 31 axially to reset; Feeding spring 34, described feeding spring 34 is held between the thrust bearing 36 and feeding body slide 38 on the described feeding dial 37 by push rod 35, under the duty, the blowout patche of thrust bearing 36 rotates with feeding dial 37, the seat ring of thrust bearing 36 is then withstood by push rod 35, do not rotate, owing to adopt thrust bearing 36 be installed on feeding dial 37, push rod 35 does not directly contact with feeding dial 37, avoided directly contacting and relatively rotating the wearing and tearing that produce, thereby prolonged service life because of it; Described upset pay-off comprises the gear 311 that is arranged on described feeding body 31 outer peripheral faces; Upset cam 41, described upset cam 41 is a radial cams, described upset cam 41 is installed on the described main shaft 1; The upset slide block 42 that is controlled by described upset cam 41, described upset slide block 42 are constrained in a fixing upset track, and described upset slide block 42 is provided with tooth bar 43, described tooth bar 43 and described gear 311 engagements; Upset back-moving spring 44, described upset back-moving spring 44 is held between the free end and described frame of described tooth bar 43; Described auxiliary material lift device comprises lifter cam 51, and described lifter cam 51 is a polygon radial cams, and described lifter cam 51 is installed on the described main shaft 1; The lifting slider 52 that is controlled by described lifter cam 51, described lifting slider 52 is constrained in a fixing fluctuating orbit, described upset track and fluctuating orbit are arranged in the combined track 45, and the force side of described lifting slider 52 relies on the upper surface of described feeding body slide 38; Lifting back-moving spring 53, described lifting back-moving spring 53 are held between the lower surface and described frame of described feeding body slide 38.

As shown in Figure 4, in the penetrating cavity of described feeding body 31, be provided with bracing ring 312, wherein the end that enters of metal pipe 10 is provided with a bracing ring 312, the end that metal pipe 10 is sent is provided with two bracing rings 312, according to this mode bracing ring 312 is set, can reduces the length of metal pipe 10 terminal clouts, reduce material loss, simultaneously also can improve work efficiency, the external diameter of the endoporus of described bracing ring 312 and described metal pipe 10 is suitable.

Shown in Fig. 1, Fig. 5 and Fig. 6 were common, described die-forging forming device comprised die forging cam 61, and described die forging cam 61 is a polygon radial cams, and described die forging cam 61 is installed on the described main shaft 1; The die forging slide block 62 that is controlled by described die forging cam 61, described die forging slide block 62 is constrained in fixing die forging track 63, and the force side of described die forging slide block 62 is equipped with patrix 65; With the counterdie 66 of described patrix 65 corresponding settings, described counterdie 66 is identical with described patrix 65 structures, and described counterdie 66 is installed in the mould seat 64, and mould seat 64 is fixed on the frame; As shown in Figure 3, be respectively equipped with many on the relative face of described patrix 65 and counterdie 66 to hemispherical depression 67, described many degree of depth to hemispherical depression 67 are deepened gradually along the direct of travel of metal pipe, each constitutes the described station that forges to hemispherical depression, described hemispherical depression 67 can be the hemispherical depression of spheroidal, perhaps the hemispherical depression of rugby shape and needed other turn round the hemispherical depression of the bodily forms, only show the hemispherical depression of spheroidal among the figure; Die forging back-moving spring 624, described die forging back-moving spring 624 is arranged between described die forging track 63 and the die forging slide block 62.Wherein, described die forging slide block 62 comprises top shoe 621 and sliding block 625, is provided with the die forging slide block arrangement for adjusting height that is used to regulate described die forging slide block 62 height between described top shoe 621 and sliding block 625.The lower surface of preferred described top shoe 621 is an inclined-plane; Described die forging slide block arrangement for adjusting height comprises an oblique nut 623, the inclined-plane of the inclined-plane of described oblique nut 623 and described top shoe 621 is suitable, described die forging back-moving spring 624 application of forces rely on described top shoe 621, oblique nut 623 and sliding block 625 on the cam surface of described die forging cam 61, rotation set has an adjusting screw(rod) 622 on the described oblique nut 623, and described adjusting screw(rod) 622 rotates and is installed on the described sliding block 625.The upper end of preferred described top shoe 621 is provided with roller 620.Because the height of described die forging slide block 62 is adjustable, make die forging slide block 62 under the constant situation of stroke, travel position is variable, has increased adjustable range, thereby has enlarged the size range of processing thin-walled spheroidal bead.

Shown in Fig. 1 and Fig. 2 were common, described jewellery bead making machine also comprised feeding step pitch adjusting device, and described feeding step pitch adjusting device comprises adjustment seat 72, and described adjustment seat 72 is fixed on the described frame by screw 73; Locating part, described locating part is slidingly mounted on the described adjustment seat 72 and relies on the described dial 39 that resets, described locating part can adopt the mode that a regulating shaft 76 is installed on adjusting slider 74, an end of regulating shaft 76 is installed rolling bearing 75, also can adopt other habitual limit methods; The axial location guiding mechanism, described axial location guiding mechanism is installed between described adjustment seat 72 and the locating part, be used to adjust the position of described locating part along the direct of travel of metal pipe, described axial location guiding mechanism can be selected adjustment screw 71 for use, or other regulative modes commonly used.Owing to be provided with feeding step pitch adjusting device, can regulate the size of metal pipe 10 feeding step pitches, to adapt to the needs of the thin-walled spheroidal bead of producing different size.

Described jewellery bead making machine also comprises damping unit, and described damping unit comprises and is installed in the damping wheel 8 of described main shaft 1 away from Power Drive Unit one end, makes each workpiece operation more steady.

The lubricating system of described bead machine comprises the fuel reserve tank (not shown), and described fuel reserve tank and lower bearing bracket are connected as a single entity, and the pasta observation window has been installed, so that observe the situation of lubricating oil at any time; Grease pump 92, described grease pump 92 is a plunger displacement pump, the plunger that the side face with radial cams 91 is kept in touch by the revolution that is installed in the radial cams 91 on the main shaft 1 moves back and forth, thereby lubricating oil is delivered to each lubricated position.

The Power Drive Unit of described bead machine comprises motor 22, the reductor 23 that is connected with motor 22 outputs, the output of reductor 23 is provided with the V-belt transmission device, be used for giving main shaft 1 with transmission of power, make main shaft 1 around its axis rotation, described V-belt transmission device comprises little V belt wheel 24, big V belt wheel 26 and V-belt 25, adopts this V-belt transmission device, makes transmission more reasonable; This drive unit also is provided with manual mode, can debug equipment and mold under off-position by adjusting handle 21.

The operation principle of jewellery bead making machine is as follows:

During work, main shaft 1 whenever circles, axially the feeding spring 34 in the pay-off applies active force vertically by 35 pairs of feeding dials 37 of push rod, send feeding body 31 to a step pitch forward together with metal pipe 10, what metal pipe 10 was sent to setting forges the station place, feeding body 31 with metal pipe 10 deliver to setting forge the station place after, metal pipe 10 is clamped by patrix in the die-forging forming device 65 and counterdie 66, feeding body 31 resets under the effect of fork 33 vertically, continues feeding during next week in order to main shaft 1 revolution; Afterwards, metal pipe 10 intermittently rotates and forms a plurality of phase places that forge under the effect of upset pay-off, metal pipe 10 revolutions move a phase place, the die-forging forming device once forges it, metal pipe 10 forges the station place at each and need and forge through rotation for several times, preferred main shaft 1 whenever circles, the die-forging forming device gently forges five reforges altogether to metal pipe 10 and beats once, the described number of times of beating with reforge that gently forges can realize along the limit number of side face setting and the shape of circumferential profile by die forging cam 61, is the hexagon radial cams corresponding to gently forging the die forging cam 61 that five reforges beat once; Metal pipe 10 forges the station place at one and forges through kicking the beam after five reforges beat once, by auxiliary material lift device feeding body slide 38 is lifted together with feeding body 31 and metal pipe 10, metal pipe 10 and patrix 65 and counterdie 66 are disengaged fully, continue to carry a step pitch downwards by the axial pay-off after resetting simultaneously, arrive the next one and forge station, repeat the aforementioned activities process afterwards.Forge the pearl string or the monomer pearl that can make the thin-walled sphere after repeatedly the rotating and forge of station place through a plurality of.Because manufacturing process adopts machinery processing mode automatically fully, it is unified that the thin-walled spheroidal bead specification that makes keeps, and quality is guaranteed, and production efficiency is greatly improved.

For the thin-walled spheroidal bead of production difformity and size, can make pay-off have different feeding step pitches by regulating feeding step pitch adjusting device, and realize by the upper die and lower die that replacing has a hemispherical depression of difformity and size.

The above only is a preferred implementation of the present invention, for the person of ordinary skill of the art, under the prerequisite that does not break away from the principle of the invention, can also make some distortion and improvement, and these also should be considered as belonging to protection scope of the present invention.

Claims (10)

1. jewellery bead making machine is characterized in that: comprise

Frame;

Be installed on the die-forging forming device on the described frame, described die-forging forming device is provided with along the tactic a plurality of stations that forge of the direct of travel of metal pipe, and described die-forging forming device is used for the metal pipe is forged into pearl string or monomer pearl gradually;

Be installed on the pay-off on the described frame, described pay-off comprises

Be used for auxiliary material lift device that the metal pipe is lifted,

Metal pipe after being used for lifting carries a step pitch to the next axial pay-off that forges station downwards,

Be used to make the metal pipe to forge the station discontinuous and rotate and form a plurality of upset pay-offs that forge phase place at one.

2. jewellery bead making machine as claimed in claim 1 is characterized in that:

Described axial pay-off comprises

Feeding body, described feeding body are slidingly mounted in the feeding body slide, have the penetrating cavity that is used to place the metal pipe on the described feeding body, and the two ends of described feeding body are respectively equipped with a feeding dial and the dial that resets;

By the main shaft that power set drive, described main shaft is rotatably installed on the described frame;

The feeding edge cam, described feeding edge cam is installed on the described main shaft;

The fork that is controlled by described feeding edge cam, described fork is installed on the frame, and the force side of described fork relies on the end face of the described dial that resets, and is used to make the feeding axon to resetting;

Feeding spring, described feeding spring clip are held between described feeding dial and the feeding body slide;

Described upset pay-off comprises

Be arranged at the gear on the external side face of described feeding;

The upset cam, described upset cam is installed on the described main shaft;

The upset slide block that is controlled by described upset cam, described upset slide block are constrained in a fixing upset track, and described upset slide block is provided with tooth bar, described tooth bar and described gears engaged;

The upset back-moving spring, described upset back-moving spring is held between the free end and described frame of described tooth bar;

Described auxiliary material lift device comprises

Lifter cam, described lifter cam are installed on the described main shaft;

The lifting slider that is controlled by described lifter cam, described lifting slider is constrained in fixing fluctuating orbit, and the force side of described lifting slider relies on the upper surface of described feeding body slide;

Lifting back-moving spring, described lifting back-moving spring are held between the lower surface and described frame of described feeding body slide.

3. jewellery bead making machine as claimed in claim 2 is characterized in that:

Be provided with bracing ring in the penetrating cavity of described feeding body, the external diameter of the endoporus of described bracing ring and described metal pipe is suitable.

4. jewellery bead making machine as claimed in claim 1 is characterized in that:

Described die-forging forming device comprises

The die forging cam, described die forging cam is installed on the described main shaft;

The die forging slide block that is controlled by described die forging cam, described die forging slide block is constrained in fixing die forging track, and the force side of described die forging slide block is equipped with patrix;

With the counterdie of the corresponding setting of described patrix, described counterdie is fixed on the described frame;

Be respectively equipped with manyly to hemispherical depression on the relative face of described upper die and lower die, described many degree of depth to hemispherical depression are deepened gradually along the direct of travel of metal pipe, and each constitutes the described station that forges to hemispherical depression;

The die forging back-moving spring, described die forging back-moving spring is arranged between described die forging track and the die forging slide block.

5. jewellery bead making machine as claimed in claim 4 is characterized in that:

Described die forging slide block comprises top shoe and sliding block, is provided with the die forging slide block arrangement for adjusting height that is used to regulate described die forging slide block height between described top shoe and sliding block.

6. jewellery bead making machine as claimed in claim 5 is characterized in that:

The lower surface of described top shoe is an inclined-plane; Described die forging slide block arrangement for adjusting height comprises an oblique nut, the inclined-plane of described oblique nut and the inclined-plane of described top shoe are suitable, the described die forging back-moving spring application of force relies on described top shoe, oblique nut and sliding block on the cam surface of described die forging cam, rotation set has an adjusting screw(rod) on the described oblique nut, and described adjusting screw(rod) rotates and is installed on the described sliding block.

7. jewellery bead making machine as claimed in claim 4 is characterized in that: the upper end of described top shoe is provided with roller.

8. jewellery bead making machine as claimed in claim 2 is characterized in that:

Described jewellery bead making machine also comprises feeding step pitch adjusting device.

9. jewellery bead making machine as claimed in claim 8 is characterized in that:

Described feeding step pitch adjusting device comprises

Adjustment seat, described adjustment seat are fixed on the described frame;

Locating part, described locating part are slidingly mounted on the described adjustment seat and rely on the described dial that resets;

The axial location guiding mechanism, described axial location guiding mechanism is installed between described adjustment seat and the locating part, is used to adjust the position of described locating part along the direct of travel of metal pipe.

10. jewellery bead making machine as claimed in claim 1 is characterized in that: described jewellery bead making machine also comprises damping unit, and described damping unit comprises and is installed in the damping wheel of described main shaft away from the unified end of described main transmission.

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