CN109103008A - Inductance element automatic assembly equipment - Google Patents

Abstract

The present invention relates to the production fields of inductance element.Inductance element automatic assembly equipment, elastic slice feeding device, the first conveying robot unit, jig conveying device, coil case feeding device, the second conveying robot unit, third conveying robot unit, iron core feeding device, dress iron core apparatus and pressure riveting device including rack and thereon.The advantages of inductance element automatic assembly equipment is the assembly of automatical and efficient completion elastic slice, coil case and iron core.

Description

Inductance element automatic assembly equipment

Technical field

The present invention relates to the full-automatic assembling equipment of the production field of inductance element, especially inductance element.

Background technique

Inductance element be wire coiling magnetive cord and made of a kind of energy-storage travelling wave tube, mainly by elastic slice, coil case and Iron core assembles.Elastic slice is L-shaped, and nature is difficult vertically, and elastic slice automatic charging compares in inductance element assembling process It is difficult；Coil case size is small, and vertical state feeding is difficult；The jig stability for placing elastic slice and coil case is poor, leads to machining yield It is low.Existing inductance element assembling equipment has that automatic charging low efficiency and packaging efficiency are low.

Summary of the invention

The object of the present invention is to provide a kind of automatic group of the inductance element for being automatically finished elastic slice, coil case and iron core assembly It installs standby.

To achieve the goals above, the invention adopts the following technical scheme: inductance element automatic assembly equipment, including machine Frame and elastic slice feeding device thereon, the first conveying robot unit, jig conveying device, coil case feeding device, second remove Transport robot device, third conveying robot unit, iron core feeding device, dress iron core apparatus and pressure riveting device；

First conveying robot unit is for the elastic slice in elastic slice feeding device to be transported in jig conveying device；Second carries Carrying of the robot device for workpiece on coil case feeding device；Third conveying robot unit will be on coil case feeding device Coil case be transported in jig conveying device；Iron core is transported in dress iron core apparatus by iron core feeding device；

Iron core feeding device include centrifugal pan, vibration material rail, iron core blanking seat, the 12nd cylinder, mobile geosynclinal block, installation cover board, From loose spot, third fibre optical sensor and blanking connector；Centrifugal pan is mounted on mounting rack, and vibration material rail is mutually connected with centrifugal pan； Iron core blanking seat is mounted on mounting rack, and iron core blanking seat is mutually connected with vibration material rail；The mobile mobile cooperation of geosynclinal block is fallen in iron core Expect in seat, the 12nd cylinder is fixed on mounting rack, and the 12nd Telescopic-cylinder end is connected with mobile geosynclinal block；Connect from loose spot It connects on mobile geosynclinal block, raised idler wheel is installed from loose spot；Installation cover board is mounted on iron core blanking seat, is installed and is set on cover board There is tilted slotted hole, is located in tilted slotted hole from the raised idler wheel on loose spot；Third fibre optical sensor is mounted on installation cover board；Blanking connects Head is mounted below iron core blanking seat, and blanking connector and the blanking port of iron core blanking seat align, blanking port size and iron core ruler It is very little to match, the feed inlet sequence of blanking port position and iron core blanking seat；

Filling iron core apparatus includes lock mouth mounting rack, lock mouth, the 13rd cylinder and push rod；It is vertically-mounted by lock mouth mounting rack to lock mouth On the rack, lock mouth is equipped with lock nozzle aperture, and the output end of the 13rd cylinder connects push rod, and the 13rd cylinder controls push rod to moving down It is dynamic.

Preferably, lock mouth is two groups disposed in parallel, the 13rd cylinder and push rod are and matched two groups of mouth of lock.

Preferably, coil case feeding device include charging tray frame, charging tray, bolt, the second motor, coil case punishment in advance track, Conveyor belt and coil body turning mechanism；Charging tray frame is arranged on the rack charging tray and is placed in charging tray frame, and the rotation of bolt one end connects It connects on charging tray frame；Coil case punishment in advance track installation is on the rack；Second motor and conveyor belt are installed in coil case punishment in advance On track, the second motor drives conveyor belt movement to carry the coil case b in dynamic conveyor belt；Coil body turning mechanism is located at The discharge end of coil case punishment in advance track, for overturning coil case b；Coil body turning mechanism includes overturning seat, rotation groove seat, turns Take block, lifting sliding rail, rack gear, gear and the 7th cylinder；Overturning seat is arranged on the rack, and rotation groove seat is mounted on overturning seat； Turn to take and be provided on block and the matched coil slot for being used to place coil case of coil shape；Turn that block is taken to be rotatably connected on by pin shaft It rotates in groove seat；Gear is mounted on pin shaft, and rack gear is mounted on lifting sliding rail, and rack and pinion is meshed；Lifting sliding rail is perpendicular The dynamic cooperation of translation is on overturning seat, and the 7th cylinder is fixed on overturning seat, and the 7th Telescopic-cylinder end is connected with lifting sliding rail It connects, the 7th cylinder drives lifting sliding rail to move back and forth up and down.

Preferably, elastic slice feeding device includes elastic slice turnover mechanism, vibration punishment in advance mechanism and elastic slice sorting mechanism；Along bullet Piece feedstock direction elastic slice turnover mechanism, vibration punishment in advance mechanism and elastic slice sorting mechanism are successively connected arrangement；Elastic slice turnover mechanism will Horizontal positioned elastic slice a is turned into vertical elastic slice a；Elastic slice turnover mechanism includes reload seat, spill spin block, the first cylinder, second Cylinder and expeller；Spill spin block with reload seat and connect by pin shaft, spill spin block is located among the seat that reloads；Spill spin block lower end and first The rotation connection of Telescopic-cylinder end；The shell fragment groove to match with the outer profile of elastic slice is provided on spill spin block；Second cylinder passes through second Cylinder peace block, which is mounted on, to reload on seat, and expeller is mounted on the second Telescopic-cylinder end, and the pusher end of expeller is located at the seat that reloads In, the pusher end of expeller and the shell fragment groove of spill spin block match；Vibrating punishment in advance mechanism includes the first vibrating motor fixing seat, the One vibrating motor and punishment in advance track；Punishment in advance track installation be provided in the first vibrating motor upper end, punishment in advance track with outside elastic slice The L-shaped groove that shape matches；Elastic slice sorting mechanism includes elastic slice sorting pedestal, third cylinder, sorting block, the first linear slide track component With the first fibre optical sensor；It is provided on sorting block and passes through the first linear slide track component with the matched sorting groove of elastic slice, sorting block Mobile connection is on elastic slice sorting pedestal, and the thickness for sorting block is matched with the width of elastic slice；The setting of third cylinder is in sorting base On seat, third Telescopic-cylinder end connection sorting block；First fibre optical sensor is mounted on elastic slice sorting pedestal, optical fiber head face point Select block；Reload seat and elastic slice sorting pedestal be arranged on the rack；First cylinder is connected on the rack by the first cylinder mounting block； First vibrating motor is arranged on the rack by the first vibrating motor fixing seat.

Using the inductance element automatic assembly equipment of above-mentioned technical proposal, elastic slice feeding device solves elastic slice from feeding The posture of state to assembled state changes, so that feeding more automates.Jig conveying device solves chain in process In flexible problem so that processing is more stable reliable.Using charging tray feeding, solves the problems, such as that coil case loading efficiency is low, adopt Solve the problems, such as that coil case vertical state feeding is difficult with coil body turning mechanism；Coil case feeding device improves machine operation effect Rate reduces the situation blocked in feeding process.The sorting that iron core feeding device solves single iron core in iron core feeding process is asked Topic is inputted by the power of the 12nd cylinder, realizes two movements, be respectively mobile geosynclinal block it is mobile with correspond to blanking port with It is mobile to unlock iron core from loose spot, enable to fall.The advantages of inductance element automatic assembly equipment is automatical and efficient complete At the assembly of elastic slice, coil case and iron core.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the embodiment of the present invention.

Fig. 2 is the configuration schematic diagram of the elastic slice feeding device of the embodiment of the present invention.

Fig. 3 is the configuration schematic diagram of the elastic slice turnover mechanism of the embodiment of the present invention.

Fig. 4 is the configuration schematic diagram of the vibration punishment in advance mechanism of the embodiment of the present invention.

Fig. 5 is the structural schematic diagram of the elastic slice sorting mechanism of the embodiment of the present invention.

Fig. 6 is the structural schematic diagram of the first conveying robot unit of the embodiment of the present invention.

Fig. 7 is the configuration schematic diagram of the jig conveying device of the embodiment of the present invention.

Fig. 8 is the configuration schematic diagram of the fixture body of the embodiment of the present invention.

Fig. 9 is the configuration schematic diagram of the coil case feeding device of the embodiment of the present invention.

Figure 10 is the configuration schematic diagram of the coil body turning mechanism of the embodiment of the present invention.

Figure 11 is the configuration schematic diagram of the second conveying robot unit of the embodiment of the present invention.

Figure 12 is the configuration schematic diagram of the third conveying robot unit of the embodiment of the present invention.

Figure 13 is the configuration schematic diagram of the iron core feeding device of the embodiment of the present invention.

Figure 14 is the dress iron core apparatus perspective view of the explosion of the embodiment of the present invention.

Figure 15 is the configuration schematic diagram of the pressure riveting device of the embodiment of the present invention.

Figure 16 is the configuration schematic diagram of the 4th conveying robot mechanism of the embodiment of the present invention.

Figure 17 is the configuration schematic diagram of the positioning mechanism of the embodiment of the present invention.

Figure 18 is the configuration schematic diagram of the upper riveting component of the embodiment of the present invention.

Figure 19 is the configuration schematic diagram of the finished product discharging device of the embodiment of the present invention.

Specific embodiment

The present invention is described further below with reference to Fig. 1-Figure 19.

The inductance element automatic assembly equipment as shown in Fig. 1-Figure 19, elastic slice feeding device 1 including rack 14 and thereon, First conveying robot unit 2, jig conveying device 3, coil case feeding device 4, the second conveying robot unit 5, third are removed Transport robot device 6, iron core feeding device 7, dress iron core apparatus 8, pressure riveting device 9 and finished product discharging device 10.

Inductance is mainly assembled by elastic slice a, coil case b and iron core d, feeding sequence be followed successively by elastic slice a, coil case b and Iron core d.

Elastic slice feeding device 1 for realizing elastic slice feeding, elastic slice feeding device 1 pass through the first conveying robot unit 2 It is connected with 3 phase of jig conveying device, the first conveying robot unit 2 is controlled for the elastic slice in elastic slice feeding device 1 to be transported to Have in conveying device 3；Jig conveying device 3 drives jig circulation to get up for recycling, and makes workpiece motion s therein to corresponding work Position carries out corresponding operating；Coil case feeding device 4 is located at 3 side of jig conveying device, and for the feeding of coil case, coil case is put It sets in charging tray；Carrying of second conveying robot unit 5 for workpiece on coil case feeding device 4；Third conveying robot Coil case is transported in jig conveying device 3 by device 6 from coil case feeding device 4；It is defeated that iron core feeding device 7 is mounted on jig It send device 3 other side, for the feeding of iron core, iron core is transported in dress iron core apparatus 8；It is defeated that dress iron core apparatus 8 is located at jig It send right above device 3, for iron core to be attached in the coil case in jig；Pressure riveting device 9 is located at 3 side of traveling of jig conveying device To end, the connection that presses is carried out for complete inductance will to be assembled, makes one；Finished product discharging device 10 and pressure riveting device The linking of 9 phases transports the working machine for conveying processing finished product.

As shown in Fig. 2-Fig. 6, elastic slice feeding device 1 includes elastic slice turnover mechanism 11, vibration punishment in advance mechanism 12 and elastic slice point Select mechanism 13；Successively it is connected along elastic slice feedstock direction elastic slice turnover mechanism 11, vibration punishment in advance mechanism 12 and elastic slice sorting mechanism 13 Arrangement；Horizontal positioned elastic slice a is turned over and is turn 90 degrees by elastic slice turnover mechanism 11, becomes vertical elastic slice a；It is logical to vibrate punishment in advance mechanism 12 Crossing vibration realizing, vertical elastic slice is orderly fed；Elastic slice sorting mechanism 13 sub-elects two from vibration 12 discharge port of punishment in advance mechanism every time Piece elastic slice waits the first conveying robot unit 2 to carry.Elastic slice feeding device 1 solves elastic slice from feeding state to assembling shape The posture of state changes, so that feeding more automates.

Elastic slice turnover mechanism 11 includes reload seat 111, spill spin block 112, the first cylinder 113, the second cylinder 114 and expeller 115；The seat 111 that reloads is arranged in rack 14, and the circular hole in 112 center of spill spin block is connect with the seat 111 that reloads by pin shaft, spill spin block 112 are located among the seat 111 that reloads；112 lower end of spill spin block and 113 telescopic end of the first cylinder are rotatablely connected；It is provided on spill spin block 112 The shell fragment groove 1221 to match with the outer profile of elastic slice carries elastic slice for placing；First cylinder, 113 lower end passes through the first cylinder Mounting blocks 116 are connected in rack 14；Second cylinder 114 is mounted on by the second cylinder peace block 117 to reload on seat 111, pusher Block 115 is mounted on 114 telescopic end of the second cylinder, and the pusher end of expeller 115 is located in the seat 111 that reloads, and expeller 115 pushes away Material end and the shell fragment groove 1221 of spill spin block 112 match.

At work, elastic slice original state is horizontal positioned, into spill spin block 112 shell fragment groove to elastic slice turnover mechanism 11 First cylinder 113 is shunk after in 1221, and spill spin block 112 is driven to turn to vertical state；Then the second cylinder 114 extends, and drives Expeller 115 is released, and vertical elastic slice a is promoted vibration punishment in advance mechanism 12.Due to the special construction of elastic slice, nature is difficult Vertically, elastic slice turnover mechanism 11 solves the high request of material process on elastic slice；By elastic slice turnover mechanism 11, feeding is more simple Just, it is horizontally arranged, improves work efficiency and integrated degree.

Vibrating punishment in advance mechanism 12 includes the first vibrating motor fixing seat 121, the first vibrating motor 122 and punishment in advance track 123； First vibrating motor 122 is arranged in rack 14 by the first vibrating motor fixing seat 121；Punishment in advance track 123 is mounted on first 122 upper end of vibrating motor is provided with the L-shaped groove to match with elastic slice shape in punishment in advance track 123.

Vibrate punishment in advance mechanism 12 at work, one end is connected with elastic slice turnover mechanism 11, the other end and elastic slice sorting machine Structure 13 is connected, and realizes the orderly punishment in advance of elastic slice, guarantees that elastic slice sorting mechanism 13 has elastic slice charging.

Elastic slice sorting mechanism 13 includes elastic slice sorting pedestal 131, third cylinder 132, sorting block 133, the first linear slide rail Component 134 and the first fibre optical sensor 135；Elastic slice sorts pedestal 131 and is arranged in rack 14；Sorting block 133 on be provided with The matched sorting groove of elastic slice, sorting block 133 are sorted on pedestal 131 by the first linear 134 mobile connection of slide track component in elastic slice, And the thickness for sorting block 133 is matched with the width of elastic slice；The setting of third cylinder 132 is on sorting pedestal 131, third cylinder 132 Telescopic end connection sorting block 133；First fibre optical sensor 135 is mounted on elastic slice sorting pedestal 131, and optical fiber head face sorts block 133；Sorting block 133 is two pieces interconnected, and third cylinder 132 is two, and each 132 telescopic end of third cylinder connects one piece Sort block 133；

At work, elastic slice is fed elastic slice sorting mechanism 13 from punishment in advance track 123, and just having started third cylinder 132 all is elongation State, the sorting groove of two sorting blocks 133 aligns at this time, is also aligned with punishment in advance track 123, and elastic slice enters two sorting blocks In 133 sorting groove；After detecting that two sorting blocks 133 have elastic slice by the first fibre optical sensor 135, third cylinder 132 is stretched It is long, two elastic slices are reversely released, elastic slice is sorted the blocking of block 133 at this time；The elastic slice being sorted to two sides waits first to carry Robot device 2 is carried.During elastic slice enters jig, it is inaccurate that elastic slice sorting mechanism 13 solves the positioning in handling process Really, in the problem of clamping free material and handling process the problem of low efficiency；The effect of elastic slice sorting mechanism 13 is on the one hand logical It crosses two sorting blocks 133 of setting and improves loading efficiency, the carrying that on the other hand can greatly improve elastic slice by the mechanism is accurate Rate and success rate.

As shown in fig. 6, the first conveying robot unit 2 includes two sets of carrying mechanisms being arranged side by side, carrying mechanism includes First finger cylinder 23, the 4th cylinder 21 and the 5th cylinder 22, the first finger cylinder 23, which is realized, picks and places elastic slice a, by the 4th cylinder 21 first finger cylinder 23 of realization move horizontally, and realize the vertical shift of the first finger cylinder 23 by the 5th cylinder 22, and first Elastic slice a is transported in jig conveying device 3 by finger cylinder 23 from elastic slice sorting mechanism 13, two carrying mechanisms while work Make, greatly improves working efficiency.

As shown in Figure 7 and Figure 8, jig conveying device 3 includes carriage 31, first motor 32, sprocket wheel 33, chain 34, master Moving axis 35, fixture body 36, the 6th air cylinder fixed plate 37, the 6th cylinder 38, fastening strip 39, positioning clamping column 310, the second optical fiber pass Sensor 311, limit groove bar 312 and V belt translation component 313；Carriage 31 is arranged in rack 14；First motor 32 is mounted on defeated It send on frame 31, driving shaft 35 is rotatably connected on carriage 31, and 32 output shaft of first motor passes through V belt translation component 313 for power It passes on driving shaft 35；Sprocket wheel 33 is mounted in the shaft on carriage 31, and chain 34 is cooperatively connected on two sprocket wheels 33； Fixture body 36 is mounted on chain 34, fixture body 36 for placing raw material to be assembled, the spacing of every two fixture body 36 by Chain pitch and processing request determine；6th air cylinder fixed plate 37 is mounted on carriage 31, and the 6th cylinder 38 is fixed at In 6th air cylinder fixed plate 37,38 telescopic end of the 6th cylinder is connected with fastening strip 39；Fastening strip 39 is connected by linear bearing On three root posts of the 6th air cylinder fixed plate 37, fastening strip 39 is located between two groups of chains 34；Fastening strip 39 is equipped with multiple Clamping column 310 is positioned, 310 spacing of adjacent positioned clamping column is identical as the spacing of adjacent fixture body 36, outside positioning clamping column 310 Shape is truncated cone-shaped, and lower end is cylinder, is easy to adaptive location；Limit groove bar 312 is mounted on carriage 31, is located at fixture body 36 Top；The setting of second fibre optical sensor 311 is in limit groove bar 312, for detecting jig chinese raw materials feeding situation.

Jig conveying device 3 drives the circulation of 34 step-by-step movement of chain to get up at work, by first motor 32, in first motor 32 when resting, and the elongation of the 6th cylinder 38 drives fastening strip 39 to rise, so that positioning clamping column 310 is inserted into the circular hole of fixture body 36 In；And 36 upper limb of fixture body is limited the restriction of groove bar 312, Gu fixture body 36 is subjected to positioning clamping, convenient for workpiece therein Carry out corresponding operation.Jig conveying device 3 solves the problems, such as chain in process flexible, so that processing is more stable Reliably；The advantages of jig conveying device 3 is that fixture body is mounted on the chain link of chain, is had as actuated element using chain Effect utilizes the characteristic of chain drive, so that apparatus structure is compact；It positions clamping column 310 and limits the design of groove bar 312, so that water The jig of flat section is able to tightening, convenient for carrying out processing.

Fixture body 36 includes link block 361, carrier 362, spring 363 and positioning horizontal block 364；Link block 361 is fixedly mounted On chain 34,362 lower part of carrier is inserted into link block 361, and carrier 362 is connected on link block 361 by spring 363,

Specifically carrier lower end surface is equipped with straight pin, and straight pin is inserted into link block 361, and is connected by four springs 363 On link block 361, make it easier to dismantle；Positioning horizontal block 364 is mounted on carrier 362, is positioned and is provided with and determines in horizontal block 364 The position corresponding circular hole of clamping column 310.Converted products is assembled by three parts, is elastic slice a, coil case b and iron core d respectively, It is placed in the groove at 362 both ends of carrier, feeding sequence is followed successively by elastic slice a, coil case b and iron core d.

As shown in Figure 9 and Figure 10, coil case feeding device 4 include charging tray frame 41, charging tray 42, bolt 43, the second motor 44, Coil case punishment in advance track 45, conveyor belt 46 and coil body turning mechanism 47；Charging tray frame 41 is arranged in rack 14, and charging tray 42 is set Drawing and pulling type is counted into, charging tray 42 is placed in charging tray frame 41, and 43 one end of bolt is rotatably connected on charging tray frame 41；Coil case punishment in advance rail Road 45 is mounted in rack 14, is located at 41 side of charging tray frame, the second motor 44 and conveyor belt 46 are installed in coil case punishment in advance On track 45, the second motor 44 drives the movement of conveyor belt 46 to carry the coil case b in dynamic conveyor belt 46；Coil case overturning Mechanism 47 is located at the discharge end of coil case punishment in advance track 45, turn 90 degrees for turning over coil case b, then by third conveying robot The clamping of device 6 is transported in the fixture body in jig conveying device 3；

Coil case feeding device 4 at work, piles coil case b in charging tray 42, rotate bolt 43 after being placed on charging tray frame 41 It is locked, coil case b is then transported to coil case punishment in advance track 45 from charging tray 42 by the second conveying robot unit 5, Carry row's workpiece in charging tray simultaneously every time；Coil case b in coil case punishment in advance track 45 is under the drive of the second motor 44 It is moved to 47 direction of coil body turning mechanism, finally by coil body turning mechanism 47 by the work in two lines circle body punishment in advance track 45 Part carries out being turned into vertical state.Using charging tray feeding, solves the problems, such as gadget artificial loading low efficiency, turned over using coil case Rotation mechanism 47 solves the problems, such as that coil case vertical state feeding is difficult；The effect of coil case feeding device 4 is to improve machine operation Efficiency reduces the situation blocked in feeding process.

Coil body turning mechanism 47 can simultaneously operate two coil case punishment in advance tracks 45, specifically include overturning seat 471, it rotates groove seat 472, turn to take block 473, lifting sliding rail 474, rack gear 475, gear 476 and the 7th cylinder 477；Overturning seat 471 It is arranged in rack 14, rotation groove seat 472 is mounted on overturning seat 471；Turn take be provided on block 473 it is matched with coil shape For placing the coil slot 4731 of coil case；Turn that block 473 is taken to be rotatably connected in rotation groove seat 472 by pin shaft 478；Gear 476 are mounted on pin shaft 478, and rack gear 475 is mounted on lifting sliding rail 474, and rack gear 475 and gear 476 are meshed；Lifting sliding rail 474 vertical shifts cooperate on overturning seat 471, and the 7th cylinder 477 is fixed on overturning seat 471, and the 7th cylinder 477 is flexible End is connected with lifting sliding rail 474, and the 7th cylinder 477 drives about 474 lifting sliding rail to move back and forth；

Coil body turning mechanism 47 at work, coil case feeding state be it is horizontal positioned, into turning to take the coil slot of block 473 In, by the elongation of the 7th cylinder 477, band carry-over bar 475 rises, and band moving gear 476 rotates 90 degree, and coil case is made to keep perpendicular Directly, third conveying robot unit 6 is waited to grab.The coil case that coil body turning mechanism 47 solves horizontality is difficult to move The problem of taking, and not meeting state required by processing；The effect of coil body turning mechanism 47 is that feeding is more easy, coil case water Placing flat pipettes convenient for third conveying robot unit 6, improves work efficiency and integrated degree.

As shown in figure 11, the second conveying robot unit 5 includes transporting supports 51, third motor 52, the 8th cylinder 53, the Nine cylinders 54, pivoted-jaw clip 55, intermediate plate swivel base 56, active chuck mounting base 57, active chuck 58, fixed chuck 59 and horizontal semi-girder 510；Transporting supports 51 are fixedly mounted in rack 14；Horizontal semi-girder 510 is connected on transporting supports 51, and third motor 52 controls cross Semi-girder 510 transversely and horizontally moves, and the 8th cylinder 53 controls horizontal 510 vertical motion of semi-girder；9th cylinder 54 is mounted on horizontal semi-girder 510 On, 54 telescopic end of the 9th cylinder forms shifting chute pair with the connection slotware 511 of 55 upper end of pivoted-jaw clip and connect, 55 material of pivoted-jaw clip Material is magnet, and 55 lower end flat segments of pivoted-jaw clip and intermediate plate swivel base 56, which are formed, to be rotatablely connected, and intermediate plate swivel base 56 is mounted on horizontal semi-girder On 510；57 both ends of active chuck mounting base are mounted on horizontal semi-girder 510, and 58 central rotational of active chuck is connected to active chuck In mounting base 57；58 material of active chuck is ferrous material, is easy to magnet attraction；Active chuck 58 is arranged side by side multiple, wide Degree and coil case matched, 58 lower end of active chuck is provided with the wedge slot to match with coil case；Fixed chuck 59 is mounted on On horizontal semi-girder 510,59 lower end of fixed chuck is provided with position wedge slot corresponding with active chuck 58.

Second conveying robot unit 5 at work, completed by the 9th cylinder 54 by clamping work, when the 9th cylinder 54 extends When, drive pivoted-jaw clip 55 to rotate clockwise around axis, by the sucking action of pivoted-jaw clip 55 and active chuck 58, so that movable Collet 58 is rotated clockwise around axis, and 58 lower end of active chuck and fixed chuck 59 are mutually close at this time, is disposed therein to clamp Coil case, the 9th cylinder 54 is shunk when release；By 53 collective effect of third motor 52 and the 8th cylinder after clamping, will press from both sides The workpiece taken is transported in coil case punishment in advance track 45 from charging tray 42.Second conveying robot unit 5 solves coil case structure It is small and exquisite to be not easy to carry, and the problem of handling process inefficiency；The quantity of active chuck 58 can control, to adapt to work in charging tray The number of part a line；It is controlled by 54 cylinder of the 9th cylinder, may be implemented to clamp multiple workpiece, substantially increase carrying effect Rate.

As shown in figure 12, third conveying robot unit 6 is mounted in rack 14；Third conveying robot unit 6 passes through Second finger cylinder 64 realizes the clamping of coil case b, realizes that second finger cylinder 64 transversely and horizontally moves by the tenth cylinder 62, The longitudinal vertical shift of second finger cylinder 64 is realized by the 11st cylinder 63.Third conveying robot unit 6 turns over coil case Coil case in rotation mechanism 47 is transported in jig conveying device 3.

As shown in figure 13, iron core feeding device 7 includes centrifugal pan 71, vibration material rail 72, iron core blanking seat 73, the 12nd gas Cylinder 74, mobile geosynclinal block 75, installation cover board 76, from loose spot 77, third fibre optical sensor 78 and blanking connector 79；Centrifugal pan 71 is installed On mounting rack 710, vibration material rail 72 is connected with 71 phase of centrifugal pan, and vibration material rail 72 is used for orderly vibrating transportation iron core；Iron core Blanking seat 73 is mounted on mounting rack 710, and iron core blanking seat 73 is connected with 72 phase of vibration material rail；The mobile mobile cooperation of geosynclinal block 75 exists In iron core blanking seat 73, the 12nd cylinder 74 is fixed on mounting rack 710,74 telescopic end of the 12nd cylinder and mobile geosynclinal block 75 are connected；It is connected on mobile geosynclinal block 75 from loose spot 77, raised idler wheel is installed from loose spot 77；Installation cover board 76 is mounted on On iron core blanking seat 73, tilted slotted hole 761 there are two setting on cover board 76 is installed, is located at tilted slotted hole from the raised idler wheel on loose spot 77 In；Third fibre optical sensor 78 is mounted on installation cover board 76, for whether in place to detect iron core；Blanking connector 79 is mounted on iron 73 lower section of core blanking seat, blanking connector 79 and the blanking port 731 of iron core blanking seat 73 align, 731 size of blanking port and iron core Size matches, the feed inlet sequence of 731 position of blanking port and iron core blanking seat 73.

At work, iron core enters mobile geosynclinal block 75 by vibration material rail 72 to iron core feeding device 7, due to the upper end iron core d Have boss, be stuck in just from the end of loose spot 77, will not be fallen, then the 12nd cylinder 74 extends, will mobile geosynclinal block 75 to Extrapolation, and limited shrink back by tilted slotted hole on installation cover board 76 from 77 upper end protrusion idler wheel of loose spot at this time, cause from loose spot 77 nock retreats, and iron core d falls, and falls in the blanking port of iron core blanking seat 73 under lucky, and blanking connector 79 connects sebific duct, will Iron core movement is into dress iron core apparatus 8.Iron core feeding device 7 solves the sorting of single iron core in iron core feeding process；Iron core Feeding device 7 realizes two movements by the power input of the 12nd cylinder 74, is that mobile geosynclinal block 75 is mobile with right respectively It answers blanking port and from the movement of loose spot 77 to unlock iron core, enables to fall.

As shown in figure 14, dress iron core apparatus 8 includes lock mouth mounting rack 81, lock mouth 82, the 13rd cylinder 83 and push rod 84；Lock Mouth 82 is vertically installed in rack 14 by locking mouth mounting rack 81, and lock mouth 82 is equipped with the defeated of lock the 821, the 13rd cylinder 83 of nozzle aperture Outlet connection the 84, the 13rd cylinder 83 of push rod control push rod 84 moves down, and the iron core d locked on mouth 82 is attached to jig by push rod 84 In workpiece in.Locking mouth 82 is two groups disposed in parallel, and the 13rd cylinder 83 and push rod 84 are and 82 matched two groups of mouth of lock.Make Used time then drives push rod 84 that iron core d is assembled into jig downwards from lock nozzle aperture 821 into iron core d by the 13rd cylinder 83 Workpiece in.

As shown in Figure 15-Figure 18, pressure riveting device 9 includes the 4th conveying robot mechanism 91, positioning mechanism 92, lower riveting component 93 and upper riveting component 94；Lower riveting component 93 and upper riveting component 94 are respectively mounted on the rack, and the two collective effect realizes riveted；4th Conveying robot mechanism 91 is mounted on riveting component 94, for by the workpiece handling being completed into positioning mechanism 92, etc. Finished product discharging device 10 is transported to riveted and by the inductance component of riveted；Positioning mechanism 92 is mounted on the rack, positioning mechanism 92 between lower riveting component 93 and upper riveting component 94, and positioning mechanism 92 is for positioning the inductance of assembling, convenient lower riveting Component 93 and upper 94 precise operation of riveting component.Pressure riveting device 9 solves the damage for directly pressing in jig and generating to jig, with And position phenomenon devious in the handling process, the quality to press is improved, bad product rate is reduced.

Four conveying robot mechanisms 91 include third finger cylinder 913, the 14th cylinder 911 and the 15th cylinder 912, are led to It crosses third finger cylinder 913 and clamps workpiece, third finger cylinder 913 is controlled by the 14th cylinder 911 and is vertically moved vertically, is led to Cross the 15th cylinder 912 control 913 horizontal transverse movement of third finger cylinder.

Positioning mechanism 92 includes intermediate slide plate 921, mobile microscope carrier plate 922, the 16th cylinder 923, public locating piece 924, the 18 cylinders 925 and female locating piece 926；Intermediate slide plate 921 is arranged in rack 14, and block is equipped in the middle part of intermediate slide plate 921；It moves The mobile cooperation of dynamic load platen 922 is on intermediate slide plate 921, and the 16th cylinder 923 is mounted in rack 14, the 16th cylinder 923 Telescopic end is connected with mobile microscope carrier plate 922；On mobile microscope carrier plate 922, female locating piece 926 is mobile for the public setting of locating piece 924 On public locating piece 924, the shape of male locating piece 924 and female locating piece 926 is matched with inductance profile for cooperation, mobile microscope carrier plate The limited area of inductance is placed in setting on 922；18th cylinder 925 is mounted on mobile microscope carrier plate 922, the 18th cylinder 925 Telescopic end is connected with female locating piece 926.

Positioning mechanism 92 at work, drives female locating piece 926 to move to male locating piece 924 from the 18th cylinder 925 first It is dynamic, to be allowed to that intermediate Inductive position restriction is arranged in；Then the 16th cylinder 923 drives mobile microscope carrier plate 922 to be moved to The circular hole position of intermediate slide plate 921 waits lower riveting component 93 and upper riveting component 94 that inductance is carried out riveted jointly；Due to right simultaneously Two workpiece are operated, and the direction of workpiece is consistent, and the positioning mechanism of right end is identical as left end working principle, only female positioning Block is fixed, and public locating piece is driven by cylinder.Positioning mechanism 92 solves the problems, such as that workpiece is difficult to the direct riveted on carrier, and The low problem of precision during riveted: the effect of positioning mechanism 92 is positioned before riveted, and the yields of workpiece is improved, fixed Position clamp system structure is simple, and the 4th conveying robot mechanism 91 is facilitated to be pipetted.

Lower riveting component 93 is mounted in rack 14, and top is riveter, can be gone up and down, and withstands the lower end of iron core, with upper riveting group 94 collective effect of part.Upper riveting component 94 includes the 18th cylinder 941, crane 942 and upper riveted head 943；18th cylinder 941 It is mounted on the rack by connecting plate 944, the mobile cooperation of crane 942 is on connecting plate 944,941 telescopic end of the 18th cylinder It is connected with crane 942, upper riveted head 943 is mounted on crane 942；Upper riveted head 943 is equipped with for pushing down iron core Protruding column, upper 943 shape of riveted head matches with public locating piece 924；

At work, upper riveted head 943 declines upper riveting component 94 under the drive of 18 cylinders 941, is embedded in public locating piece 924 Afterwards, the protruding column of upper riveted head 943 withstands iron core upper end, completes riveted with lower 93 collective effect of riveting component.

As shown in figure 19, finished product discharging device 10 is connected with 9 phase of pressure riveting device, will be added by the 4th conveying robot mechanism 91 Work finished product is carried from positioning mechanism 92；Finished product discharging device 10 includes discharge rack and the 4th motor 101 thereon, discharging Belt 102 and stopper 103, the 4th motor drive outfeed belt 102 to move, and stopper 103 is for stopping to be placed on out vertically Expect the workpiece on belt 102, workpiece is made to fall into horizontality.4th motor drives the movement of outfeed belt 102 to move it to carry On processing finished product move out material, stopper 103 is located in the discharging direction of outfeed belt 102, and stopper 103 is for will be vertical The workpiece upper end being placed on outfeed belt 102 stops that workpiece is made to fall into horizontality.

At work, the feeding that elastic slice is realized by elastic slice feeding device 1, is removed by the first conveying robot unit 2 It transports in jig conveying device 3, jig conveying device 3 is used to get up jig circulation, and division of labor step assembles inductance；Secondly Realize the carrying of workpiece on the feeding coil case feeding device 4 of coil case by the second conveying robot by coil case feeding device 4 Device 5 is completed；Then by third conveying robot unit 6 by workpiece handling into jig；It is then real by iron core feeding device 7 The feeding of existing iron core, and iron core is placed into jig by filling iron core apparatus 8, thus complete the assembling of three components of inductance； After then being carried out by the 4th conveying robot mechanism 91 of pressure riveting device 9, the fixation that presses is carried out to it；Finally by 4th conveying robot mechanism 91 is transported to finished product is processed in finished product discharging device 10, by finished product discharging device 10 by production Inductance transports.

Claims (4)

1. inductance element automatic assembly equipment, it is characterised in that elastic slice feeding device (1) including rack (14) and thereon, first Conveying robot unit (2), jig conveying device (3), coil case feeding device (4), the second conveying robot unit (5), Three conveying robot units (6), iron core feeding device (7), dress iron core apparatus (8) and pressure riveting device (9)；

First conveying robot unit (2) is used to the elastic slice in elastic slice feeding device (1) being transported to jig conveying device (3) In；Carrying of second conveying robot unit (5) for workpiece on coil case feeding device (4)；Third conveying robot unit (6) coil case on coil case feeding device (4) is transported in jig conveying device (3)；Iron core feeding device (7) is by iron core It is transported in dress iron core apparatus (8)；

Iron core feeding device (7) include centrifugal pan (71), vibration material rail (72), iron core blanking seat (73), the 12nd cylinder (74), Mobile geosynclinal block (75), installation cover board (76), from loose spot (77), third fibre optical sensor (78) and blanking connector (79)；Centrifugal pan (71) it is mounted on mounting rack (710), vibration material rail (72) is mutually connected with centrifugal pan (71)；Iron core blanking seat (73) is mounted on It shelves on (710), iron core blanking seat (73) is mutually connected with vibration material rail (72)；Mobile geosynclinal block (75) mobile cooperation is in iron core blanking In seat (73), the 12nd cylinder (74) is fixed on mounting rack (710), the 12nd cylinder (74) telescopic end and mobile geosynclinal block (75) it is connected；It is connected on mobile geosynclinal block (75) from loose spot (77), raised idler wheel is installed from loose spot (77)；Cover board is installed (76) it is mounted on iron core blanking seat (73), installation cover board (76) is equipped with tilted slotted hole (761), from the protrusion rolling on loose spot (77) Wheel is located in tilted slotted hole；Third fibre optical sensor (78) is mounted in installation cover board (76)；Blanking connector (79) is mounted on iron core Below blanking seat (73), blanking connector (79) and the blanking port (731) of iron core blanking seat (73) align, and blanking port (731) is big It is small to match with core dimensions, the feed inlet sequence of blanking port (731) position and iron core blanking seat (73)；

Filling iron core apparatus (8) includes lock mouth mounting rack (81), lock mouth (82), the 13rd cylinder (83) and push rod (84)；Lock mouth (82) it is vertically installed on rack (14) by locking mouth mounting rack (81), lock mouth (82) is equipped with lock nozzle aperture (821), the 13rd gas The output end of cylinder (83) connects push rod (84), and the 13rd cylinder (83) control push rod (84) moves down.

2. inductance element automatic assembly equipment according to claim 1, it is characterised in that lock mouth (82) is disposed in parallel Two groups, the 13rd cylinder (83) and push rod (84) are and matched two groups of lock mouth (82).

3. inductance element automatic assembly equipment according to claim 1, it is characterised in that coil case feeding device (4) includes Charging tray frame (41), charging tray (42), bolt (43), the second motor (44), coil case punishment in advance track (45), conveyor belt (46) and line Circle body turnover mechanism (47)；Charging tray frame (41) setting is placed in charging tray frame (41) in rack (14) loading plate (42), bolt (43) one end is rotatably connected on charging tray frame (41)；Coil case punishment in advance track (45) is mounted on rack (14)；Second motor (44) it is installed on coil case punishment in advance track (45) with conveyor belt (46), the second motor (44) drives conveyor belt (46) fortune The dynamic coil case b on load dynamic conveyor belt (46)；Coil body turning mechanism (47) is located at coil case punishment in advance track (45) Discharge end, for overturning coil case b；Coil body turning mechanism (47) includes overturning seat (471), rotation groove seat (472), turns to take Block (473), lifting sliding rail (474), rack gear (475), gear (476) and the 7th cylinder (477)；Overturning seat (471) is arranged in machine On frame (14), rotation groove seat (472) is mounted on overturning seat (471)；Turn take be provided on block (473) it is matched with coil shape For placing the coil slot (4731) of coil case；Turn that block (473) is taken to be rotatably connected on rotation groove seat (472) by pin shaft (478) On；Gear (476) is mounted on pin shaft (478), and rack gear (475) is mounted on lifting sliding rail (474), rack gear (475) and gear (476) it is meshed；Lifting sliding rail (474) vertical shift cooperates on overturning seat (471), and the 7th cylinder (477) is fixed at On overturning seat (471), the 7th cylinder (477) telescopic end is connected with lifting sliding rail (474), and the 7th cylinder (477) drives lifting Sliding rail (474) moves back and forth up and down.

4. inductance element automatic assembly equipment according to claim 1, it is characterised in that elastic slice feeding device includes elastic slice Turnover mechanism (11), vibration punishment in advance mechanism (12) and elastic slice sorting mechanism (13)；Along elastic slice feedstock direction elastic slice turnover mechanism (11), it vibrates punishment in advance mechanism (12) and elastic slice sorting mechanism (13) is successively connected arrangement；

Horizontal positioned elastic slice a is turned into vertical elastic slice a by elastic slice turnover mechanism (11)；Elastic slice turnover mechanism (11) includes changing Expect seat (111), spill spin block (112), the first cylinder (113), the second cylinder (114) and expeller (115)；Spill spin block (112) with The seat (111) that reloads is connected by pin shaft, and it is intermediate that spill spin block (112) is located at the seat (111) that reloads；Spill spin block (112) lower end and first The rotation connection of cylinder (113) telescopic end；The shell fragment groove (1221) to match with the outer profile of elastic slice is provided on spill spin block (112)； Second cylinder (114) is mounted on the seat that reloads (111) by the second cylinder peace block (117), and expeller (115) is mounted on the second gas On cylinder (114) telescopic end, the pusher end of expeller (115), which is located at, reloads in seat (111), the pusher end of expeller (115) and rotation The shell fragment groove (1221) of switch block (112) matches；Vibrating punishment in advance mechanism (12) includes the first vibrating motor fixing seat (121), the One vibrating motor (122) and punishment in advance track (123)；Punishment in advance track (123) is mounted on the first vibrating motor (122) upper end, punishment in advance The L-shaped groove to match with elastic slice shape is provided in track (123)；Elastic slice sorting mechanism (13) includes elastic slice sorting pedestal (131), third cylinder (132), sorting block (133), the first linear slide track component (134) and the first fibre optical sensor (135)；Point It selects to be provided on block (133) and passes through the first linear slide track component (134) movement with the matched sorting groove of elastic slice, sorting block (133) It is connected in elastic slice sorting pedestal (131), and the thickness for sorting block (133) is matched with the width of elastic slice；Third cylinder (132) is set It sets in sorting pedestal (131), third cylinder (132) telescopic end connection sorting block (133)；First fibre optical sensor (135) peace In elastic slice sorting pedestal (131), optical fiber head face sorts block (133)；Reload seat (111) and elastic slice sorting pedestal (131) It is arranged on rack (14)；First cylinder (113) is connected on rack (14) by the first cylinder mounting block (116)；First vibration Dynamic motor (122) are arranged on rack (14) by the first vibrating motor fixing seat (121).