CN107932003A - A kind of production technology of earpiece - Google Patents

Abstract

The invention discloses a kind of production technology of earpiece, its step includes earpiece plate feeding, the milling of earpiece plate, the planing of earpiece embryo material, earpiece embryo material contact pin, earpiece lid glue, so that realize automated production from earpiece automatic plate feeding, milling, planing, contact pin, lid glue, avoid staff it is carried out one by one take so that realize processing operating process, the use of machine effectively prevent the generation of staff's long-term work feeling of fatigue at the same time, and guarantee can be provided to the quality of continuation and product for work.Staff only needs earpiece plate being placed in blowing space and earpiece finished product is taken, and reduces demand of the production process to staff, ensure that the reasonable utilization of resource, effectively increase work efficiency.

Description

A kind of production technology of earpiece

Technical field

The present invention relates to glasses process equipment, more specifically, it relates to a kind of production technology of earpiece.

Background technology

Glasses are made of the spectacle-frame with nose support, ophthalmic len and earpiece, are had and are corrected defects of vision or the work of protect eyes With with the rising of near-sighted number, the prevalence of various decorative glasses, glasses increasingly become the necessity of people's life, people It is increasing to the demand of glasses, it is necessary to improve glasses production efficiency to meet the needs of glasses.

Wherein earpiece is glasses important component, earpiece classical production process usually require manually to earpiece plate into Row feeding, then milling is carried out to earpiece plate by milling device and forms earpiece embryo material, then contact pin processing is carried out, contact pin is complete Also need to carry out lid glue processing in pin head position after, which is using artificial loading, clamping, blanking, is realized each A process, which transfers to use, to be accomplished manually so that production efficiency is low, and labor intensity is high, labour skill require height, and product is consistent The defects of property is poor, and occupied ground is big.

The content of the invention

In view of the deficiencies of the prior art, the present invention intends to provide a kind of production technology of earpiece, improve The production efficiency of earpiece.

To achieve the above object, the present invention provides following technical solution：

A kind of production technology of earpiece, its step include

(1), earpiece plate feeding：Required earpiece plate is placed in blowing space, at this time by glasses sole Material is pushed out to earpiece plate milling station from blowing space；

(2), earpiece plate milling：Earpiece plate is clamped in earpiece plate milling station, on gantry stand Milling cutter, which moves down, carries out earpiece plate milling formation earpiece embryo material；

(3), earpiece embryo material is planed：When earpiece embryo material is delivered to earpiece embryo material planing station, planing tool is successively to eye Mirror pin embryo material carries out machining；And a groove is planed for contact pin insertion in the one end of earpiece embryo material；

(4), earpiece embryo material contact pin；Earpiece embryo material after the completion of planing is delivered to earpiece embryo material contact pin station, Formation earpiece in contact pin alignment indentation insertion earpiece embryo material；

(5), earpiece lid glue：Earpiece is delivered to earpiece lid glue station, colloidal liquid lid glue in earpiece contact pin Position forms earpiece finished product where head.

The step of wherein described (3), further includes following sub-step：

(a) planing tool carries out machining to the lateral surface of earpiece embryo material；

(b) planing tool carries out chamfering to the lateral surface sideline of earpiece embryo material；

(c) planing tool carries out machining to the medial surface of earpiece embryo material；

(d) planing tool carries out chamfering to the medial surface sideline of earpiece embryo material.

Contact pin and earpiece embryo material in the step of wherein described (4) are heated in advance, contact pin insertion after the heating In earpiece embryo material and it is cooled to room temperature.

The step of wherein described (5), further includes following sub-step：

(a) excess waste at position where scraping off earpiece pin head by scraper

(b) pressing is carried out to the position, removes the cut that scraper leaves；

(c) colloidal liquid lid glue, the position where earpiece pin head forms earpiece finished product.

Invention beneficial effect：When earpiece plate is placed in blowing space, institute releases earpiece plate from blowing space To earpiece plate milling station；Earpiece plate milling station carries out milling, is delivered to after the glasses embryo material that milling is formed Earpiece embryo material planing station, earpiece embryo material planing station plane, the earpiece embryo material after the completion of planing are delivered to Earpiece embryo material contact pin station, earpiece embryo material contact pin station carry out contact pin processing to earpiece embryo material and form earpiece, glasses Foot is delivered to earpiece lid glue station, and earpiece lid glue station carries out earpiece lid glue processing so that from earpiece plate certainly Dynamic feeding, milling, planing, contact pin, lid glue realize automated production, avoid staff it is carried out one by one take and then Realize the operating process of processing, while the use of machine effectively prevent the generation of staff's long-term work feeling of fatigue, be work That makees can provide guarantee to the quality of continuation and product.Staff only needs earpiece plate being placed in blowing space It is interior and earpiece finished product to take, reduce demand of the production process to staff, ensure that the reasonable utilization of resource, Effectively increase work efficiency.

Brief description of the drawings

Fig. 1 is a kind of structure diagram of earpiece automatic assembly line embodiment of the present invention；

Fig. 2 is the structure diagram of earpiece plate feeding station；

Fig. 3 is the sectional view of earpiece plate feeding station；

Fig. 4 is the structure diagram of earpiece plate milling station；

Fig. 5 is the structure diagram of the first splicing transfer device；

Fig. 6 is the structure diagram of earpiece embryo material planing station；

Fig. 7 is the structure diagram of lateral surface planing mechanism；

Fig. 8 is the structure diagram of binder component；

Fig. 9 is A portions enlarged drawing in Fig. 6；

Figure 10 is the structure diagram of earpiece lid glue station；

Figure 11 is the structure diagram of feeding adjustment mechanism

Figure 12 is the structure diagram of lid gluing mechanism；

Figure 13 is the sectional view of lid gluing mechanism；

Figure 14 is the sectional view for opening and closing block.

Description of reference numerals：1st, earpiece plate feeding station；11st, blowing space；12nd, plate material-pulling device；121st, plate Material guide block；122nd, plate slider bar；123rd, plate promotes driver；124th, plate pushing block；2nd, earpiece plate milling station； 21st, gantry stand；22nd, milling cutter；23rd, horizontal board holder；24th, pull unit；241st, pull arm；242nd, driving group is pulled Part；25th, longitudinal plate clamping device；3rd, earpiece embryo material planing station；31st, planing workbench；32nd, lateral surface planing mechanism； 321st, planing positioner；3211st, the first positioning cylinder；3212nd, the second positioning cylinder；3213rd, limiting plate；322nd, planing dress Put；3221st, planing tool host；3222nd, adz block；3223rd, planing drive component；3224th, binder component；33rd, lateral surface sideline is fallen Angle plane cuts mechanism；34th, turn-over mechanism；341st, turn-over fixture；342nd, turn-over rotary cylinder；35th, medial surface planing mechanism；36th, it is interior Side sideline chamfer plane cuts mechanism；37th, planing delivery track；38th, planing conveying sliding block；39th, planing feed drive device；310th, dig Cut conveying lifting cylinder；311st, planing pusher arm；312nd, planing pusher cylinder；4th, earpiece embryo material contact pin station；5th, earpiece Lid glue station；51st, lid glue rack；52nd, feeding adjustment mechanism；521st, workbench is adjusted；522nd, right-left adjusting device；523rd, it is front and rear Adjusting apparatus；5231st, front and rear adjustment arm；5232nd, front and rear adjustment drive component；53rd, Qu Fei mechanisms；54th, pressing mechanism；55th, cover Gluing mechanism；551st, lid glue clamping platform；552nd, lid glue sliding block；553rd, lid glue lifting cylinder；554th, lid blob of viscose；5541st, discharging channel； 5542nd, material extrusion passage；555th, piston rod；556th, material extrusion driver；557th, lid rubber moulding block；558th, block is opened and closed；5581st, lateral transfer Passage；5582nd, longitudinally fed passage；559th, start and stop lever；5510；Open and close cylinder；56th, lid glue delivery track；57th, lid glue conveying is slided Block；58th, lid glue conveying lifting cylinder；59th, lid glue conveying clamping limb；6th, the first splicing transfer device；61st, carriage；62nd, convey Passage；63rd, the first splicing arm；64th, the first grass-hopper；641st, transfer arm；642nd, drive component is transferred；65th, rotating driver； 66th, the first pushing component；661st, the first track；662nd, the first draw runner；663rd, first driver is promoted；664th, first arm is promoted； 665th, second driver is promoted；7th, the second splicing transfer device；71st, the second delivery track；72nd, the second splicing arm；73rd, second connect Expect driver；8th, the 3rd splicing transfer device；81st, the 3rd delivery track；82nd, the 3rd splicing arm；83rd, the 3rd splicing driver.

Embodiment

1 to Figure 14 a kind of earpiece automatic assembly line embodiment of the present invention is described in further details referring to the drawings.

From fig. 1, it can be seen that a kind of earpiece automatic assembly line, including earpiece plate feeding station 1, earpiece plate milling Station 2, earpiece embryo material planing station 3, earpiece embryo material contact pin station 4, earpiece lid glue station 5；The earpiece plate Feeding station 1 includes the blowing space 11 for placing earpiece plate and is pushed out to earpiece plate from blowing space 11 The plate material-pulling device 12 of earpiece plate milling station 2；The earpiece plate milling station 2 and earpiece embryo material job planing The first splicing transfer device 6 is provided between position 3, the glasses embryo material that 2 milling of earpiece plate milling station is formed is delivered to Earpiece embryo material planing station 3；The is provided between earpiece embryo material planing station 3 and earpiece embryo material contact pin station 4 Two splicing transfer devices 7, the earpiece embryo material after the completion of earpiece embryo material planing station 3 is planed are delivered to earpiece embryo material and insert Pin station 4；The 3rd splicing transfer device 8 is provided between earpiece embryo material contact pin station 4 and earpiece lid the glue station 5, Earpiece after the completion of 4 contact pin of earpiece embryo material contact pin station is delivered to earpiece lid glue station 5, lid glue is carried out to earpiece Processing.

As can be seen from Figure 2, wherein left limit plate, right limit plate, front limit plate and rear position margining plate surround to be formed for placement plate The blowing space 11 of material, wherein front limit plate offer the discharge port being pierced by for plate；The rear position margining plate opens up kidney slot, institute Rear position margining plate is stated by kidney slot to adjust the spacing between front limit plate and rear position margining plate；The right limit plate side, which is equipped with, adjusts Component is saved, the adjusting part includes base, adjustable plate and fixed handle, and the adjustable plate is fixedly connected with right limit plate, institute Stating adjustable plate can move relative to base, and when position needed for adjustable plate movement, adjustable plate can be fixed on bottom by the fixed handle On seat；Allow to the size according to plate, to adjust the spacing between left limit plate and right limit plate, front limit plate and rear limit Spacing between the plate of position, come the plate adapted to.

As can be seen from Figure 3, the plate material-pulling device 12 includes plate guide block 121, plate slider bar 122 and drives plate The plate that slider bar 122 slides back and forth along plate guide block 121 promotes driver 123, and the one end of the plate slider bar 122 is set It is useful for promoting the plate pushing block 124 of plate.

The quantity of the plate guide block 121 can be two, and be spaced apart the plate slider bar 122 and pushed away with plate The output shaft of dynamic driver 123 is connected, when plate promotes driver 123 to drive plate slider bar 122 to be slided along plate guide block 121 When dynamic, it is pierced by so as to drive plate pushing block 124 to promote plate to move forward from discharge port, is delivered to earpiece plate milling work Position 2.

As can be seen from Figure 4, earpiece plate milling station 2 includes gantry stand 21, several milling cutters on gantry stand 21 22, milling cutter 22 can be spaced apart, and realized and carried out milling to multiple plates, dragon is equipped with the support feet of the gantry stand 21 Door rack rail, the gantry stand for driving gantry stand 21 to be slid back and forth in gantry stand track is provided with gantry stand track Motor, to adjust the position of gantry stand 21.

It is equipped with below milling cutter 22 and is used to clamp the horizontal board holder 23 of plate and for pulling plate to move Pull unit 24, wherein horizontal board holder 23 and pull unit 24 are corresponding with the quantity of milling cutter 22, the transverse direction Board holder 23 is oppositely arranged with pull unit 24.

The transverse direction board holder 23 includes laterally upper grip block, horizontal lower grip block and drives horizontal clamp up The horizontal clamping driver that plate is moved down with laterally lower grip block coordinates；, can be in the horizontal wherein for ease of clamping plate Grip block and laterally lower grip block setting claw；Longitudinal plate clamping device is equipped with horizontal 23 side of board holder 25, the transverse direction board holder 23 is in vertical distribution with longitudinal plate clamping device 25；The longitudinal plate clamping device 25 include the upper grip block in longitudinal direction, the lower grip block in longitudinal direction and drive the upper grip block in longitudinal direction to move down coordinating with the lower grip block in longitudinal direction Longitudinal clamp driver, for the purposes of easy to clamp plate, card can be set grip block and longitudinal direction lower grip block in the vertical Pawl, when earpiece embryo material is arranged along panel length direction, is clamped, when earpiece embryo using horizontal board holder 23 Material along strip width direction arrange when, clamped jointly using horizontal board holder 23 and longitudinal plate clamping device 25.

The pull unit 24 includes pull arm 241 and drives pull arm 241 close or clamped away from horizontal plate The pulling drive component 242 of device 23；When after the completion of milling, it is necessary to when pulling plate, in the transverse direction under grip block and transverse direction Grip block unclamp plate, at this time it is described pulling drive component 242 can drive pull arm 241 clamp plate be moved rearwardly into needed for away from From.

Wherein described pulling drive component 242 pulls frame along pulling track including pulling track, pulling frame and drive The pulling motor of slip, wherein the pull arm 241 includes the pulling for pulling upper arm and pulling underarm and driving both to clamp Driver, and set in the pulling upper arm and pull underarm to be equipped with claw, easy to clamp plate.

When laterally upper grip block and horizontal lower grip block clamp plate, milling cutter 22 is moved down carries out milling, milling to plate After the completion of cutting, the upper grip block and laterally lower grip block unclamp plate, and the pulling drive component 242 can drive pull arm 241 clamping plates are moved rearwardly into required distance, and grip block clamps plate again with laterally lower grip block in the transverse direction, milling cutter 22 move down to plate progress milling, the plate of the release of pull arm 241 at this time again, realize that accurate support is carried out to plate to be filled Folder, prevents from deforming in milling process, carries out accurate milling, simple in structure, improves production efficiency.

As can be seen from Figure 5, after the completion of milling, earpiece embryo material is transferred to by eye by the first splicing transfer device 6 Mirror pin embryo material planing station 3, wherein the first splicing transfer device 6 includes carriage 61, is equipped with for defeated in the carriage 61 Send the transfer passage 62 of earpiece embryo material, be provided with 62 side of transfer passage for catch earpiece embryo material after milling first Splicing arm 63 and the first grass-hopper 64 for the earpiece embryo material of the first splicing arm 63 to be transferred to transfer passage 62；

For the earpiece embryo material that can quickly take, earpiece embryo material is avoided to drop, being provided with rotation in the pulling drives Dynamic device 65, the first splicing arm 63 and pull arm 241 are symmetric, after pull arm 241 pulls plate to certain distance Plate is unclamped, by rotating driver 65, the first splicing arm 63 and 241 position of pull arm can be caused to exchange so that the first splicing Arm 63 can quickly catch earpiece embryo material, then pass through 65 first splicing arm 63 of rotating driver and 241 position of pull arm Exchange so that the first splicing arm 63 is rotated to 64 direction of the first grass-hopper.

The transfer drive component that first grass-hopper 64 includes transfer arm 641 and drives transfer arm 641 to move 642, the transfer drive component 642 includes transferring long rails, transfer cross track and driving transfer cross track turning The longitudinal drive moved on long rails is sent, electric rotating machine is provided with the transfer cross track and drives electric rotating machine The traverse driver moved on cross track is transferred, it is possible to achieve transfer arm is about 641, anteroposterior direction movement, wherein described Transfer arm 641 is arranged on the conveying axis of electric rotating machine, it is possible to achieve transfer arm 641 carries out 360 degree of rotation so that transfer arm 641 can be moved according to the situation of realization.

The electric rotating machine is transferred on cross track by finely tuning longitudinal drive and being arranged on, and electric rotating machine can be realized micro- Adjust so that more accurate to electric rotating machine shift position.

The clamp driver that the transfer arm 641 includes left transfer arm and right transfer arm and drives both to coordinate, wherein Left transfer arm and right transfer arm closure, which are either opened, realizes to the clamping of earpiece embryo material or unclamps.

The first pushing component 66 for promoting earpiece embryo material to be moved in transfer passage 62 is equipped with the side of transfer passage 62； First pushing component 66 includes the first track 661, the first draw runner 662 and promotes the first draw runner 662 in the first track 661 Mobile first promotes driver 663, wherein the first track 661 is set along 62 direction of transfer passage, is set on the first draw runner 662 Several the first promotion arms 664 being intervally arranged are put, the first promotion arm 664 is arranged on transfer passage 62；Push away when first Dynamic driver 663 drives the first draw runner 662 when being moved on the first track 661, and the first promotion arm 664 can be driven to promote conveying logical Earpiece embryo material movement on road 62.

Being promoted each first sets second to promote driver 665 on arm 664, the second promotion driver 665 drives First promotion arm 664 is moved up and down with respect to transfer passage 62, and control first promotes arm 664 and 62 distance of transfer passage, easy to push away Dynamic earpiece embryo material.

Earpiece embryo material after the completion of the first splicing arm 63 receives milling, the first grass-hopper 64 can be close to the first splicings Arm 63 and earpiece embryo material is transferred on transfer passage 62, the first promotion driver 663 drives the first draw runner 662 to exist at this time When being moved on the first track 661, it can drive and promote arm to promote the earpiece embryo material movement on transfer passage 62, by earpiece embryo material It is delivered to earpiece embryo material planing station 3 to plane, realizes automatic transport, realize to earpiece embryo material self-feeding, improve Production efficiency.

As can be seen from Figure 6, earpiece embryo material planing station 3 includes planing workbench 31, on the side of planing workbench 31 Lateral surface planing mechanism 32, lateral surface sideline chamfering planing mechanism 33, turn-over mechanism 34, medial surface planing mechanism are placed with successively 35 and medial surface sideline chamfering planing mechanism 36；The side of the planing workbench 31 sets planing delivery track 37, the plane Delivery track 37 is cut along each mechanism arragement direction to stretch out；Planing delivery track 37 on be equipped with planing conveying sliding block 38 with And the planing feed drive device 39 for driving planing conveying sliding block 38 to be moved on planing delivery track 37；Sliding block 38 is conveyed in planing On be provided with planings conveying lifting cylinder 310 that several are spaced apart, and each planing conveying lifting cylinder 310 is provided with For promoting the planing pusher arm 311 of earpiece embryo material forward movement and driving planing pusher arm 311 to planing workbench 31 The planing pusher cylinder 312 of direction movement；Wherein plane pusher arm 311 respectively with lateral surface planing mechanism 32, lateral surface sideline Chamfering planing mechanism 33, turn-over mechanism 34, medial surface planing mechanism 35 and medial surface sideline chamfering planing mechanism 36 are corresponding, use Moved forward in promoting earpiece embryo material.

As can be seen from Figure 7, the lateral surface planing mechanism 32 includes being arranged on the side of planing workbench 31 for glasses The planing positioner 321 that foot embryo material is positioned, the opposite side of the planing workbench 31, which is set, to be used to carry out earpiece The planing device 322 of planing；The planing positioner 321 includes the first positioning cylinder 3211 and the second positioning cylinder 3212, First positioning cylinder 3211 is equipped with frock left mould, and it is right that the planing workbench 31 is equipped with frock matched with frock left mould Mould；Second positioning cylinder 3212 is equipped with the limiting plate 3213 for being used for limiting the forward movement of earpiece embryo material, the limiting plate 3213 are placed in frock left mould side；When limiting plate 3213 is moved forward on planing workbench 31 in the second positioning cylinder 3212 When, the limiting plate 3213 can limit earpiece forward movement, and the first positioning cylinder 3211 can drive frock left mould forward at this time It is mobile, earpiece embryo material is fixed between frock left mould and frock right mould.

Wherein described planing device 322 includes the adz block 3222 for installing planing tool host 3221 and drives adz block The planing drive component 3223 of 3222 movements, is additionally provided with binder component 3224, the binder component on adz block 3222 3224 include binder head and drive binder head with respect to the press cylinder that planing tool host 3221 moves up and down, when earpiece embryo material is put When planing tool host 3221, binder head is moving down fixed earpiece embryo material, when effectively avoiding the processing of planing tool host 3221, hair Raw displacement, improves processing accuracy.

Wherein described binder head includes U-shaped frame, several binder bearings, Ke Yiyou are arranged with two frame feet of U-shaped frame The fixed earpiece embryo material of effect.

The planing drive component 3223 includes planing cross track, and stent and drive are provided with planing cross track Making stent, the stent is equipped with planing long rails in the planing cross motor of planing cross track movement, in planing longitudinal direction Planing longitudinal motor of the driving adz block 3222 in planing long rails movement is provided with track, is realized to planing tool host 3221 Up and down, anteroposterior direction moves.

When limiting plate 3213 is moved forward on planing workbench 31 in the second positioning cylinder 3212, the limiting plate 3213 can limit the forward movement of earpiece embryo material, and the first positioning cylinder 3211 can drive the spacing movement of frock left mould at this time, eye Mirror pin embryo material is fixed between frock left mould and frock right mould, realizes and earpiece embryo material is precisely fixed, at this time planing tool host 3221 can be moved to the top of earpiece embryo material in planing drive component 3223, and binder head is moving down fixed earpiece at this time Embryo material, then planing processing is carried out to earpiece embryo material by planing tool host 3221, it is possible to prevente effectively from earpiece embryo material displacement, real Now precisely processing.

Wherein chamfering planing mechanism 33 in lateral surface sideline planes with lateral surface, and 32 structure of mechanism is essentially identical, and the main distinction exists It is different in 3221 placement location of planing tool host.

As can be seen from Figure 9, the turn-over mechanism 34 includes turn-over fixture 341 and drives 341 rotating turn-over of turn-over fixture Rotary cylinder 342, the turn-over fixture 341 include upper turn-over block, lower turn-over block and the closure cylinder for driving both to close, institute Closure cylinder is stated, is completed when earpiece embryo material is handled by lateral surface sideline chamfering planing mechanism 33 with lateral surface planing mechanism 32 Afterwards, earpiece embryo material can pusher arm promote move forward on turn-over fixture 341, at this time close cylinder drive turn-over block and Lower turn-over block closure clamps earpiece embryo material, and turn-over rotary cylinder 342 drives turn-over fixture 341 to rotate 180 degree at this time, realizes eye Mirror pin embryo material turn-over.

After the earpiece embryo material turn-over, medial surface planing mechanism 35 is entered in the case where planing pusher arm 311 promotes to glasses The medial surface planing processing of foot embryo material, wherein medial surface planing mechanism 35 and lateral surface 32 structure of mechanism of planing are identical, herein Just repeat no more；

After the medial surface planing processing of the earpiece embryo material, enter medial surface sideline in the case where planing pusher arm 311 promotes Chamfering planing mechanism 36 carries out the lateral surface edge of earpiece embryo material chamfered, wherein medial surface sideline chamfering planing mechanism 36 plane with lateral surface sideline chamfering, and 33 structure of mechanism is essentially identical, and the main distinction is, in interior side sideline, chamfer plane cuts machine Structure 36 increases a planing tool host 3221 and is used for earpiece embryo material groove milling, and carrying out contact pin for next process prepares, this two planes 3221 laid out in parallel of knife host is on adz block 3222.

The planing pusher arm 311 includes planing scraping wings, and the lower face of planing scraping wings is provided with W-shaped shrapnel, makes The pusher that must plane arm 311 can push down the forward movement of earpiece embryo material.

When earpiece embryo material is placed on planing workbench 31, the planing conveying lifting cylinder 310 drives planing pusher Cylinder 312 moves up, and pusher cylinder 312 of planing at this time drives planing pusher arm 311 to move forward to planing workbench 31, then Planing conveying sliding shoe is driven to be moved on planing delivery track 37 by feed drive device 39 of planing, so as to drive planing pusher Arm 311 promotes earpiece embryo material to move forward, when earpiece embryo material by lateral surface planing mechanism 32 to the outer of earpiece embryo material After side planing processing and lateral surface sideline chamfering planing mechanism 33 carry out chamfered to the lateral surface edge of earpiece embryo material, Rotate 180 ° to earpiece embryo material by turn-over mechanism 34 again and realize turn-over, then mechanism 35 is planed to earpiece embryo by medial surface The medial surface planing processing of material and medial surface sideline chamfering planing mechanism 36 carry out chamfering to the lateral surface edge of earpiece embryo material Processing, realizes and automates planing and chamfered to earpiece embryo material, improves production efficiency.

Earpiece embryo material after the completion of planing is delivered to earpiece embryo material contact pin station by the second splicing transfer device 7 4, earpiece embryo material contact pin station 4 carries out contact pin processing to earpiece embryo material and forms earpiece, and earpiece embryo material contact pin station 4 is The prior art just repeats no more herein, wherein the second splicing transfer device 7 includes the second delivery track 71, the second splicing arm 72 And the second splicing driver 73 for driving the second splicing arm 72 to be slided on the second delivery track 71, second delivery track 71 one end and earpiece embryo material planing station 3, the other end not with earpiece embryo material contact pin station 4；

Earpiece is formed when earpiece embryo material contact pin station 4 carries out earpiece embryo material contact pin processing, and earpiece passes through the Three splicing transfer devices 8 are delivered to earpiece lid glue station 5, and earpiece lid glue station 5 carries out earpiece lid glue processing.

As can be seen from Figure 10, wherein earpiece lid glue station 5 includes lid glue rack 51, is arranged in sequence with lid glue rack 51 Feeding adjustment mechanism 52, Qu Fei mechanisms 53, pressing mechanism 54 and lid gluing mechanism 55, lid is equipped with the side of feeding adjustment mechanism 52 Glue delivery track 56, the lid glue delivery track 56 extend forwardly into lid gluing mechanism 55；Lid is equipped with lid glue delivery track 56 The lid glue feed drive device that glue conveys sliding block 57 and drives lid glue conveying sliding block 57 to be moved on lid glue delivery track 56；Covering Several lid glue conveying lifting cylinders 58 being spaced apart, and each lid glue conveying lifting air are provided with glue conveying sliding block 57 The lid glue that cylinder 58 is provided with for clamping earpiece conveys clamping limb 59；Its middle cover glue conveying clamping limb 59 is adjusted with feeding respectively Mechanism 52, Qu Fei mechanisms 53, pressing mechanism 54 and lid gluing mechanism 55 are corresponding, for transferring the earpiece in each mechanism.

As can be seen from Figure 11, wherein the feeding adjustment mechanism 52 includes adjustment workbench 521, on adjustment workbench 521 Be provided with the right-left adjusting device 522 for adjusting earpiece right position and for adjusting earpiece front and back position before Adjusting apparatus 523 afterwards；The right-left adjusting device 522 include left locating piece, move to right motion block and driving move to right motion block it is close or Left and right adjustment cylinder of the person away from left locating piece；Before the front-rear adjusting device 523 includes front and rear adjustment arm 5231 and drives The front and rear adjustment drive component 5232 that arm 5231 moves is adjusted afterwards；The front and rear adjustment arm 5231 is placed in right-left adjusting device 522 Top, it is close or remote fixed afterwards to adjust pushing block before arm 5231 includes post-positioning block, preceding pushing block and drives before and after described The front and rear pusher cylinder of position block；When earpiece is placed in left locating piece and moves to right between motion block, the front and rear adjustment drive component 5232 can drive front and rear adjustment arm 5231 to be moved to above earpiece, and front and rear pusher cylinder can drive pushing block to promote glasses at this time Foot is close to post-positioning block, then is driven by left and right adjustment cylinder and move to right the motion block close clamping earpiece of locating piece to the left.

The front and rear adjustment drive component 5232 includes front and rear adjustment cylinder and lift adjustment cylinder, the front and rear adjustment gas The output shaft of cylinder is provided with fixed frame, and the lift adjustment cylinder is fixed on fixed frame, and the locating piece is arranged on rising-falling tone On the output shaft of whole cylinder, the front and rear pusher cylinder is arranged on post-positioning block, and the preceding pushing block is arranged on front and rear promotion On the output shaft of cylinder.

When earpiece is placed in left locating piece and moves to right between motion block, front and rear adjustment arm 5231 can be in front and rear adjustment driving group Part 5232 drives down, is moved to above earpiece, then adjusts earpiece front and back position by post-positioning block and preceding pushing block, then Move to right motion block and left locating piece is matched for clamping tightly the earpiece after adjustment, realize to earpiece automatic material arranging, avoid the occurrence of artificial mistake By mistake.

It was found from Figure 12 to Figure 13, wherein the lid gluing mechanism 55 includes lid glue clamping platform 551, in lid glue clamping platform 551 It is equipped with the left grip block of lid glue, the right grip block of lid glue and the lid glue clamping cylinder for driving both to clamp；The lid glue clamping platform 551 side is provided with lid glue crane, and lid glue sliding block is set on lid glue crane and drives lid glue sliding block 552 in lid glue The lid glue lifting cylinder 553 that crane moves up and down；Lid blob of viscose 554, piston rod 555 and material extrusion are equipped with lid glue sliding block 552 Driver 556；The lid blob of viscose 554 is equipped with interconnected discharging channel 5541 and material extrusion passage 5542；The piston rod 555 One end be placed on the Single port of material extrusion passage 5542, the material extrusion driver 556 can drive piston rod 555 in material extrusion passage Moved back and forth on 5542, the another port of the material extrusion passage 5542 is equipped with lid rubber moulding block 557；The lid rubber moulding block 557 is placed in The top of the left grip block of lid glue and the right grip block of lid glue.

The another port of the material extrusion passage 5542, which is equipped with, opens and closes block 558, and the lid rubber moulding block 557 is by opening and closing block 558 It is arranged on the another port of material extrusion passage 5542, the block 558 that opens and closes includes interconnected 5581 He of lateral transfer passage Longitudinally fed passage 5582, the lateral transfer passage 5581 are connected with material extrusion passage 5542, the longitudinally fed passage 5582 Single port is connected with lid rubber moulding block 557, and another port sets start and stop lever 559, is provided with and drives on block 558 is opened and closed The keying cylinder 5510 that start and stop lever 559 moves up and down.

When earpiece is placed between the left grip block of lid glue and the right grip block of lid glue, the lid glue clamping cylinder can drive both Earpiece is matched for clamping tightly, lid glue lifting cylinder 553 drives lid blob of viscose 554 close to earpiece by lid glue sliding block 552 at this time, at this time Material extrusion driver 556 can promote piston rod 555 to move forward, by the colloidal objects in material extrusion passage 5542 from lid rubber moulding block 557 On extrusion to earpiece, simple in structure, after the completion of use, start and stop lever 559 moves down, as can be seen from Figure 14, the start and stop lever 559 can block the junction of lateral transfer passage 5581 and longitudinally fed passage 5582 so that lateral transfer passage 5581 and vertical It is not communicated with to transfer passage 5582, avoids colloidal objects from flowing on lid rubber moulding block 557, only need to be start and stop lever when lid glue again 559 move up so that lateral transfer passage 5581 is connected with longitudinally fed passage 5582.

Wherein described lid glue conveying clamping limb 59 includes lid glue and conveys left grip block, the right grip block of lid glue conveying and drive The lid glue conveying clamping cylinder that both clamp.

The Qu Fei mechanisms 53 are to realize to remove waste material to earpiece by scraper, and pressing mechanism 54 is by heating briquetting Eliminate earpiece and leave cut in removal waste material process, the wherein concrete structure of Qu Fei mechanisms 53 and pressing mechanism 54 is existing Technology, just repeats no more herein.

Wherein the 3rd splicing transfer device 8 includes the 3rd delivery track 81, the 3rd splicing arm 82 and drives the 3rd splicing The 3rd splicing driver 83 that arm 82 slides on the 3rd delivery track 81, the one end and glasses of the 3rd delivery track 81 Foot embryo material contact pin station 4 is connected, and the other end extends to 521 top of adjustment workbench.

When earpiece is placed in adjustment workbench 521 by the 3rd splicing arm 82, feeding adjustment mechanism 52 is realized to eye at this time Mirror pin automatic material arranging, is at correct position, avoids the occurrence of mistake, then earpiece is moved to by conveying clamping limb Qu Fei mechanisms 53 are removed earpiece waste disposal, then the earpiece after going to give up is moved to pressing by conveying clamping limb Mechanism 54, eliminates earpiece and leaves cut in removal waste material process, then by conveying clamping limb the earpiece after the completion of processing It is moved to lid gluing mechanism 55 and lid glue processing is carried out to earpiece, realizes the glue processing of automation lid, improve production efficiency.

So that realizing automated production from earpiece automatic plate feeding, milling, planing, contact pin, lid glue, the present invention will be each Station passes sequentially through the first splicing transfer device 6, the second splicing transfer device 7 and the 3rd splicing transfer device 8 and is attached, and keeps away Staff is exempted from and the operating process taken and then realize processing one by one is carried out to it, while the use of machine effectively prevent The generation of staff's long-term work feeling of fatigue, guarantee can be provided for work to the quality of continuation and product.Work Personnel only need earpiece plate being placed in blowing space 11 and earpiece finished product is taken, and reduce the production process pair The demand of staff, ensure that the reasonable utilization of resource, effectively increases work efficiency.

Wherein it is used for the production technology of the earpiece automatic assembly line, its step includes

(1), earpiece plate feeding：Required earpiece plate is placed in blowing space 11, at this time by earpiece Plate is pushed out to earpiece plate milling station 2 from blowing space 11；

(2), earpiece plate milling：Earpiece plate is clamped in earpiece plate milling station 2, on gantry stand 21 Milling cutter 22 move down to earpiece plate carry out milling formed earpiece embryo material；

(3), earpiece embryo material is planed：When earpiece embryo material is delivered to earpiece embryo material planing station 3, planing tool is successively to eye Mirror pin embryo material carries out machining；And a groove is planed for contact pin insertion in the one end of earpiece embryo material；

(4), earpiece embryo material contact pin；Earpiece embryo material after the completion of planing is delivered to earpiece embryo material contact pin station 4, Formation earpiece in contact pin alignment indentation insertion earpiece embryo material；

(5), earpiece lid glue：Earpiece is delivered to earpiece lid glue station 5, colloidal liquid lid glue in earpiece contact pin Position forms earpiece finished product where head.

The step of wherein described (3), further includes following sub-step：

(a) planing tool carries out machining to the lateral surface of earpiece embryo material；

(b) planing tool carries out chamfering to the lateral surface sideline of earpiece embryo material；

(c) planing tool carries out machining to the medial surface of earpiece embryo material；

(d) planing tool carries out chamfering to the medial surface sideline of earpiece embryo material.

Contact pin and earpiece embryo material in the step of wherein described (4) are heated in advance, contact pin insertion after the heating In earpiece embryo material and it is cooled to room temperature.

The step of wherein described (5), further includes following sub-step：

(a) excess waste at position where scraping off earpiece pin head by scraper

(b) pressing is carried out to the position, removes the cut that scraper leaves；

(c) colloidal liquid lid glue, the position where earpiece pin head forms earpiece finished product.

When earpiece plate is placed in blowing space 11, earpiece plate is pushed out to earpiece plate by institute from blowing space Milling station 2；Earpiece plate milling station 2 carries out milling, and earpiece embryo material is delivered to after the glasses embryo material that milling is formed Planing station 3, earpiece embryo material planing station 3 are planed, and the earpiece embryo material after the completion of planing is delivered to earpiece embryo Expect contact pin station 4, earpiece embryo material contact pin station 4 carries out earpiece embryo material contact pin processing and forms earpiece, earpiece conveying To earpiece lid glue station 5, earpiece lid glue station 5 carries out earpiece lid glue processing so that from earpiece plate it is automatic on Material, milling, planing, contact pin, lid glue realize automated production, avoid staff and taking and then realizing one by one is carried out to it The operating process of processing, while the use of machine effectively prevent the generation of staff's long-term work feeling of fatigue, for work Guarantee can be provided to the quality of continuation and product.Staff only need by earpiece plate be placed in blowing space with And earpiece finished product is taken, and reduces demand of the production process to staff, the reasonable utilization of resource ensure that, effectively Improve work efficiency.

The above is only the preferred embodiment of the present invention, and protection scope of the present invention is not limited merely to above-mentioned implementation Example, all technical solutions belonged under thinking of the present invention belong to protection scope of the present invention.It should be pointed out that for the art Those of ordinary skill for, some improvements and modifications without departing from the principles of the present invention, these improvements and modifications It should be regarded as protection scope of the present invention.

Claims (4)

1. a kind of production technology of earpiece, it is characterized in that：Its step includes

(1), earpiece plate feeding：Required earpiece plate is placed in blowing space, at this time by earpiece plate from Blowing space is pushed out to earpiece plate milling station；

(2), earpiece plate milling：Earpiece plate, the milling cutter on gantry stand are clamped in earpiece plate milling station Move down and milling formation earpiece embryo material is carried out to earpiece plate；

(3), earpiece embryo material is planed：When earpiece embryo material is delivered to earpiece embryo material planing station, planing tool is successively to earpiece Embryo material carries out machining；And a groove is planed for contact pin insertion in the one end of earpiece embryo material；

(4), earpiece embryo material contact pin；Earpiece embryo material after the completion of planing is delivered to earpiece embryo material contact pin station, slotting Earpiece is formed in pin alignment indentation insertion earpiece embryo material；

(5), earpiece lid glue：Earpiece is delivered to earpiece lid glue station, colloidal liquid lid glue in earpiece pin head institute Earpiece finished product is formed at position.

2. a kind of production technology of earpiece according to claim 1, it is characterized in that：The step (3) further include with Lower sub-step：

(a) planing tool carries out machining to the lateral surface of earpiece embryo material；

(b) planing tool carries out chamfering to the lateral surface sideline of earpiece embryo material；

(c) planing tool carries out machining to the medial surface of earpiece embryo material；

(d) planing tool carries out chamfering to the medial surface sideline of earpiece embryo material.

3. a kind of production technology of earpiece according to claim 1, it is characterized in that：Contact pin in the step (4) Heated with earpiece embryo material, in contact pin insertion earpiece embryo material after the heating and be cooled to room temperature in advance.

4. a kind of production technology of earpiece according to claim 1, it is characterized in that：The step (5) further include with Lower sub-step：

(a) excess waste at position where scraping off earpiece pin head by scraper

(b) pressing is carried out to the position, removes the cut that scraper leaves；

(c) colloidal liquid lid glue, the position where earpiece pin head forms earpiece finished product.