CN105563819A - Magnetic snap continuous production device - Google Patents

Abstract

The invention discloses a magnetic snap continuous production device. The magnetic snap continuous production device comprises automatic assembly equipment and a pair of symmetrically-arranged automatic screening and sorting devices, wherein the automatic screening and sorting devices are used for screening and sorting a great number of plastic snaps and then feeding the plastic snaps into the automatic assembly equipment in order along tracks; the automatic assembly equipment is used for assembling the plastic snaps and magnets in sequence and stacking finished products. The magnetic snap continuous production device is simple in structure and ingenious in design; according to the characteristics of plastic magnetic snaps and the cycle working principle of the device, efficient and orderly product collection process is achieved.

Description

A kind of magnetic clasp continuous production device

Technical field

The present invention relates to a kind of magnetic clasp continuous production device, belong to screen window manufacturing equipment field.

Background technology

So-called magnetic stripe screen window is exactly fix gauze in the surrounding of window frame, magnetic clasp is equipped with in two fan gauze junctions, during use, gauze magnetic clasp is inhaled together, time no, gauze is taken off, the advantages such as current magnetic stripe screen window is firmly solid because of it, and air-proof condition is good have replaced traditional screen window, become the most salable screen window kind on market.

Carrying out in screen window magnet plastic button process, how the plastic button that the soft sramana of magnetic in irregular shape uses is screened and to be sorted, the process realizing automated production assembling is a great problem of these those skilled in the art of puzzlement always, traditional method is by manually tipping in plastic button by magnet, working (machining) efficiency is extremely low, be not suitable for large-scale production, and cost of labor is higher.

Carrying out in screen window magnet plastic button process, how magnetite is inserted in plastic button and complete the key link that assembling process is production process, mainly contain two kinds of assembling modes at present: 1) completed by hand by workman, and workman needs manually or other aid grippings, take time and effort, inefficiency and there is certain security risk; 2) by the mode of machining, make magnet piece and plastic button complete fastening under assembling pressing, but current process equipment often once can only process single workpiece, production efficiency is low.

Carrying out in screen window magnet plastic button process, how carry out compiling rapidly and effectively to a large amount of finished products and become a stubborn problem, mainly contain two kinds of collection modes at present: 1) pile up neatly by artificially collecting, owing to there is suction before magnet plastic button, make this kind of mode stacking efficiency low, and larger to workman's burden; 2) piled up by collecting mechanical, this kind of mode is current main collect means, but ubiquity piles up in process the problem needing to shut down, and efficiency is lower.

Summary of the invention

The object of the present invention is to provide a kind of magnetic clasp continuous production device, the above-mentioned problems caused to solve prior art deficiency.

For achieving the above object, technical scheme of the present invention is:

A kind of magnetic clasp continuous production device, comprises automatic assembly equipment and a pair symmetrically arranged automatic screening collator, wherein,

Automatic screening collator, for entering automatic assembly equipment by after plastic button screening and sequencing at random in a large number in an orderly manner along track.

Automatic assembly equipment, for completing assembling by plastic button and magnet piece successively, and by shaping for finished product stacking.

Described automatic screening collator involving vibrations dish, hopper, inside spin track, discharging opening, feeding port, feeding track, straight-line oscillation track, first track, second track, 3rd track, first feed back gap and the second feed back gap, hopper is provided with bottom described vibrating disk, hopper is provided with inside spin track, inside spin rail superior portion end is set to discharging opening, described discharging opening is divided into the first track by the first discharging separating belt of being provided with and the second discharging separating belt, second track and the 3rd track, described first track, second track is identical with the 3rd track and include sole-plate, track lateral wall, first feed back gap, first anti-stacking baffle plate and direction limiting mechanism, the track lateral wall that described first discharging separating belt and the second discharging separating belt are provided with described first track and the second track is respectively connected, described sole-plate, track lateral wall and the first feed back gap are concentric arc, and described sole-plate one side is fixedly connected with track lateral wall, described sole-plate another side is provided with described first feed back gap, and the first bottom, feed back gap is connected with described hopper, the track lateral wall of described first track, the second track, the 3rd track is provided with the first anti-stacking baffle plate, described direction limiting mechanism comprises screening gap, feed rail, second anti-stacking baffle plate, half station track plates and discharging track, the first track that described feed rail is corresponding with it, second track or the 3rd track are fixedly connected with, the track lateral wall of described feed rail junction is provided with the second anti-stacking baffle plate, described half station track plates is fixedly connected with described track lateral wall, and the two ends of described half station track plates are equipped with screening gap, and be provided with feed rail successively along plastic button direction of advance, screening gap, half station track plates, screening gap and discharging track, plastic button is delivered to feeding port by the first feeding separating belt of being provided with and the second feeding separating belt by described discharging track, described feeding port is fixedly connected with feeding track, described feeding track is connected with straight-line oscillation track, feeding track another side is provided with the second feed back gap, described second feed back gap is communicated with hopper, described straight-line oscillation orbit connection automatic assembly equipment.

Described automatic assembly equipment comprises mechanical arm, tooling platform, carry over facility and assembling material-pulling device, wherein,

Mechanical arm, is fixed on tooling platform, and described mechanical arm comprises the turning cylinder of driven by servomotor, draws the lift cylinder of platform and connection absorption platform, for receiving the magnet piece of carry in carry over facility, and is moved to by described magnet piece on assembling material-pulling device;

Tooling platform, for fixing described carry over facility and assembling material-pulling device.

Described carry over facility comprises feed mechanism, pusher and feed mechanism, described feed mechanism comprises conveyer belt, striker plate, described striker plate is close to conveyer belt and is placed, described pusher and feed mechanism are located at conveyer belt both sides respectively and are oppositely arranged, described striker plate is located between pusher and conveyer belt, described pusher comprises scraping wings, first cylinder and cylinder mount pad, described cylinder mount pad is fixed on striker plate side, and with described conveyer belt heteropleural, described first cylinder is fixedly connected with scraping wings, described striker plate has pusher mouth at scraping wings place, described feed mechanism comprises feeding platform, slide rail and the second cylinder, described feeding platform to be located at above slide rail and to be slidably connected with described slide rail, described second cylinder is fixed on tooling platform bottom surface, and the second cylinder is fixedly connected with feeding platform, described feeding platform is arranged with the first feeding groove and the second feeding groove, and described first, second feeding groove opening part is equipped with chamfering.

Described assembling material-pulling device comprises feeding mechanism, material transferring mechanism, collecting mechanism and material jacking mechanism, described material transferring mechanism is located at feeding mechanism front, described collecting mechanism is located at the front of material transferring mechanism, described collecting mechanism comprises collection conduit, described feeding mechanism comprises a pair feed pipe, described feed pipe correspondence is communicated with described straight-line oscillation track, described material transferring mechanism comprises spill chute, the spill of corresponding feed pipe turns material slide block, 3rd cylinder and be connected to the putty plate of the 3rd cylinder, described spill turns material slide block slide in opposition in spill chute, and spill turns material slide block outer panel is fixedly connected with putty plate, described material jacking mechanism comprises four-cylinder and is connected to the die pad of four-cylinder, described feed pipe is close to material jacking mechanism and is symmetrically set in the both sides of material jacking mechanism, described 3rd cylinder is symmetrically set in feed pipe front port both sides, described die pad slides in spill chute along feedstock direction, and centre position is provided with chute of stepping down bottom die pad.

Described automatic assembly equipment comprises auto-feeder, automatic assembling device and automatic collecting device.

Described auto-feeder comprises fuselage, portal frame, feeding station, lower platen, lower platen assembly and feeding cylinder, described feeding station correspondence is communicated with described straight-line oscillation track, described portal frame comprises crossbeam, described portal frame is located at above feeding station and two ends are secured by bolts on fuselage, lower platen assembly is provided with on the right side of described portal frame, described feeding cylinder comprises feeding cylinder barrel and feeding output, described feeding cylinder barrel is fixed in the middle part of crossbeam by cylinder mount pad bolt, and described feeding output is fixed on lower platen assembly, described lower platen assembly is fixedly connected with described lower platen.

Described automatic assembling device comprises " ㄇ " shape frame and track, described track is placed with the double plastic button of advance, is provided with space bar in the middle of described double plastic button, also comprise conveyer and apparatus for assembling, described conveyer comprises the workbench and magnet conveyer belt that arrange about described space bar symmetric transverse, fixed mount, pressing plate and joint pin, described workbench one end is provided with described magnet conveyer belt, the other end is fixedly connected with described track, described two workbench, track and space bar composition one " mountain " shape structure, described joint pin is vertically equipped with in the middle part of described fixed mount, the other end of described joint pin is fixedly connected with described pressing plate upper surface, described joint pin periphery is also provided with the spring be fixedly connected with pressing plate with described fixed mount respectively, described pressing plate is corresponding with described workbench to be arranged, described apparatus for assembling comprises fixed station, power plate, cylinder and the pressing tongs of being located at described central rack, described fixed station is symmetrically arranged with two cylinders about described space bar, the piston rod of described cylinder is fixedly connected with described power plate, is provided with the pressing tongs of " ㄇ " shape in the middle part of the lower surface of described power plate, the equal horizontal symmetrical of described fixed mount is fixed on the two ends of described pressing tongs.

Described automatic collecting device comprises feeding-passage, turntable and collects turntable, iron plate is provided with in the middle of described feeding-passage and turntable, described iron plate both sides are placed with into the magnet plastic button of axial symmetry distribution, the tail end of described feeding-passage is provided with turntable, the tail end of described turntable is provided with collection turntable, described collection turntable is circumferentially evenly provided with three groups of collecting frames, be respectively the first to the 3rd collecting frame, described first collecting frame place is provided with feed station, described second collecting frame place is provided with unloading station, and described 3rd collecting frame place is without processing stations.

Beneficial effect of the present invention is:

Owing to present invention employs, automatic assembly equipment is coordinated with a pair symmetrically arranged automatic screening collator, automatic screening collator is utilized to enter automatic assembly equipment by after plastic button screening and sequencing at random in a large number in an orderly manner along track, then successively plastic button and magnet piece are completed assembling, and by shaping for finished product stacking, the assembled in pairs realizing magnet plastic button is shaping, and process achieves full-automation, improve working (machining) efficiency, it is simple that complete machine has structure, with low cost, the speed of service is fast, the advantage that fluency is high, its working (machining) efficiency is far above existing magnet plastic button process equipment.

Compared with existing magnetic clasp continuous production device, the present invention adopts automatic screening collator, by the one the second anti-stacking baffle plates, the one the second feed back gaps, direction limiting mechanism can effectively by the first track, second track, in 3rd track, the plastic button of the penguin shape of conveying is pressed without stacking, penguin shape plastic button installing hole place faces up, the plastic button head of penguin shape is fed forward in the requirement of the posterior placement order of front foot, namely achieve a kind of to irregular workpiece by without stacking, there is left and right, the automatic feed of the sequential feeding of front and back and positive and negative, automatic Composition for plastic button provides indispensable condition, and in conjunction with multi-track screening and sequencing structure, while very big raising screening and sequencing efficiency, ensure in the adequacy entering the plastic button amount on straight-line oscillation track, in addition by the first track, second track, plastic button after 3rd track screening can be arranged side by side at feeding track along predetermined attitude, because feeding track width equals the width of plastic button, therefore unnecessary plastic button can be recovered in hopper from the second feed back gap, re-start screening and sequencing work, the problem that the need material speed of the straight-line oscillation track of so effective solution is not identical with charging rate.The present invention raising whole plastic button screening assembling production efficiency, save a large amount of manpower while, also have that structure is simple, automaticity is high, the advantage high to the screening accuracy of plastic button.

Compared with existing magnetic clasp continuous production device, the first automatic assembly equipment that the present invention adopts, by fixing carry over facility and assembling material-pulling device on tooling platform, by mechanical arm, magnet piece is displaced to assembling material-pulling device by carry over facility again, the synchronous carry of pair of magnet block can be realized, and then synchronously assemble with a pair plastic button, then carry out the collection of finished product, finally realize the highly-efficient processing process of magnet plastic button.Have structure simple, with low cost, the speed of service is fast, the advantage that fluency is high.

Compared with existing magnetic clasp continuous production device, the second automatic assembly equipment that the present invention adopts, there is auto-feeder, described auto-feeder makes plastic button feeding process to be processed be that feeding air cylinder driven feeding output shaft promotes the feeding of lower platen assembly, lower platen assembly is fixedly connected with lower platen, and lower platen bottom surface is provided with friction plate, and lower platen assembly makes lower platen press down in feeding process, make friction plate be close to plastic button surface, thus drive plastic button to complete feeding; When feeding process terminates, lower platen assembly makes lower platen promote, and friction plate is separated with plastic button surface, and the cylinder of feeding simultaneously tightens up, and completes reset, enters next circulation.This kind of device, has the advantage improving feeding process efficiency and accuracy, and giving security in order for subsequent processing.

Compared with existing magnetic clasp continuous production device, the second automatic assembly equipment that the present invention adopts, there is automatic assembling device, by the conveyer that is provided with and apparatus for assembling, the sustainability automatic Composition achieving plastic button and magnet in the soft sramana of magnetic operates, reduce the working strength of workman, improve automaticity, not only improve operating efficiency, and reduce cost of labor, easy realization is manufactured on a large scale, is convenient to promote the use of, and the present invention also has the advantage that structure is simple, reasonable in design, be easy to manufacture.

Compared with existing magnetic clasp continuous production device, the second automatic assembly equipment that the present invention adopts, there is automatic collecting device, multipair different in nature magnet plastic button from feeding-passage enter in pairs and between be separated with iron plate, through turntable, feeding-passage is often just rotated once by two magnet plastic button turntables, the anglec of rotation is 180 degree, thus arrive the feed station of collecting turntable, when n-th to do not rotated by turntable directly enter feed station time, (n+1) enters the feed station of collecting turntable after turntable rotates 180 ° to magnet plastic button, now n-th carries out discharging to entering unloading station, when (n+1) is to when entering unloading station, (n+2) does not rotate through turntable and directly enters feed station, therefore, magnet plastic button group after discharging because of attraction stacking shaping, this kind of device, structure is simple, be skillfully constructed, utilize the characteristic of magnet plastic button itself, in conjunction with the periodic duty principle of this device, realize the product-collecting process of effective.

Accompanying drawing explanation

As the processing process figure that Fig. 1 is the present embodiment 1;

As the processing process figure that Fig. 2 is the present embodiment 2;

As the structural representation that Fig. 3 is the automatic screening collator in the present invention;

As the partial enlarged drawing that Fig. 4 is A place in Fig. 3;

As the structural representation that Fig. 5 is the automatic assembly equipment in embodiment 1;

As the structural representation that Fig. 6 is the carry over facility in embodiment 1;

As the structural representation that Fig. 7 is the assembling material-pulling device in embodiment 1;

As the structural representation that Fig. 8 is Fig. 7 middle concave chute part;

As the structural representation that Fig. 9 is mechanical arm in embodiment 1;

As the structural representation that Figure 10 is auto-feeder in embodiment 2;

As the structural representation that Figure 11 is automatic assembling device in embodiment 2;

As the structural representation that Figure 12 is automatic collecting device in embodiment 2.

Detailed description of the invention

See accompanying drawing: a kind of magnetic clasp continuous production device, comprise automatic assembly equipment and a pair symmetrically arranged automatic screening collator, wherein,

Automatic screening collator, for entering automatic assembly equipment by after plastic button screening and sequencing at random in a large number in an orderly manner along track.

Automatic assembly equipment, for completing assembling by plastic button and magnet piece successively, and by shaping for finished product stacking.

Described automatic screening collator involving vibrations dish 1, hopper 2, inside spin track 6, discharging opening 3, feeding port 16, feeding track 17, straight-line oscillation track 19, first track 7, second track 8, 3rd track 9, first feed back gap 10 and the second feed back gap 18, hopper 2 is provided with bottom described vibrating disk 1, hopper 2 is provided with inside spin track 6, inside spin track 6 upper end is set to discharging opening 3, described discharging opening 3 is divided into the first track 7 by the first discharging separating belt 4 of being provided with and the second discharging separating belt 5, second track 8 and the 3rd track 9, described first track 7, second track 8 is identical with the 3rd track 9 and include sole-plate, track lateral wall 12, first feed back gap 10, first anti-stacking baffle plate 11 and direction limiting mechanism 13, the track lateral wall 12 that described first discharging separating belt 4 and the second discharging separating belt 5 are provided with described first track 7 and the second track 8 is respectively connected, described sole-plate, track lateral wall 12 and the first feed back gap 10 are concentric arc, and described sole-plate one side is fixedly connected with track lateral wall 12, described sole-plate another side is provided with described first bottom, feed back gap 10, feed back gap 10, first and is connected with described hopper 2, the track lateral wall 12 of described first track 7, second track 8, the 3rd track 9 is provided with the first anti-stacking baffle plate 11, described direction limiting mechanism 13 comprises screening gap 20, feed rail 21, second anti-stacking baffle plate 22, half station track plates 23 and discharging track 24, the first track 7 that described feed rail 21 is corresponding with it, second track 8 or the 3rd track 9 are fixedly connected with, the track lateral wall 12 of described feed rail 21 junction is provided with the second anti-stacking baffle plate 22, described half station track plates 23 is fixedly connected with described track lateral wall 12, and the two ends of described half station track plates 23 are equipped with screening gap 20, and be provided with feed rail 21 successively along plastic button direction of advance, screening gap 20, half station track plates 23, screening gap 20 and discharging track 24, plastic button is delivered to feeding port 16 by the first feeding separating belt 14 of being provided with and the second feeding separating belt 15 by described discharging track 24, described feeding port 16 is fixedly connected with feeding track 17, described feeding track 17 is connected with straight-line oscillation track 19, feeding track 17 another side is provided with the second feed back gap 18, described second feed back gap 18 is communicated with hopper 2, described straight-line oscillation track 19 is communicated with automatic assembly equipment.

In this example, described automatic assembly equipment comprises mechanical arm 25, tooling platform 26, carry over facility 27 and assembling material-pulling device 28, wherein,

Mechanical arm 25, be fixed on tooling platform 26, described mechanical arm 25 comprises the turning cylinder 53 of driven by servomotor, draws the lift cylinder 55 of platform 54 and connection absorption platform 54, for receiving the magnet piece 40 of carry in carry over facility 27, and is moved to by described magnet piece 40 on assembling material-pulling device 28;

Tooling platform 26, for fixing described carry over facility 27 and assembling material-pulling device 28.

In this example, described carry over facility comprises feed mechanism, pusher and feed mechanism, described feed mechanism comprises conveyer belt 29, striker plate 30, described striker plate 30 is close to conveyer belt 29 and is placed, described pusher and feed mechanism are located at conveyer belt 29 both sides respectively and are oppositely arranged, described striker plate 30 is located between pusher and conveyer belt 29, described pusher comprises scraping wings 32, first cylinder 33 and cylinder mount pad 34, described cylinder mount pad 34 is fixed on striker plate 30 side, and with described conveyer belt 29 heteropleural, described first cylinder 33 is fixedly connected with scraping wings 32, described striker plate 30 has pusher mouth 31 at scraping wings 32 place, described feed mechanism comprises feeding platform 35, slide rail 36 and the second cylinder 37, described feeding platform 35 to be located at above slide rail 36 and to be slidably connected with described slide rail 36, described second cylinder 37 is fixed on tooling platform 26 bottom surface, and the second cylinder 37 is fixedly connected with feeding platform 35, described feeding platform 35 is arranged with the first feeding groove 38 and the second feeding groove 39, and described first, second feeding groove opening part is equipped with chamfering.

In this example, described assembling material-pulling device comprises feeding mechanism, material transferring mechanism, collecting mechanism and material jacking mechanism, described material transferring mechanism is located at feeding mechanism front, described collecting mechanism is located at the front of material transferring mechanism, described collecting mechanism comprises collection conduit 48, described feeding mechanism comprises a pair feed pipe 41, described feed pipe 41 correspondence is communicated with described straight-line oscillation track 19, described material transferring mechanism comprises spill chute 42, the spill of corresponding feed pipe 41 turns material slide block 43, 3rd cylinder 44 and be connected to the putty plate 45 of the 3rd cylinder 44, described spill turns material slide block 43 slide in opposition in spill chute 42, and spill turns material slide block outer panel 50 is fixedly connected with putty plate 45, described material jacking mechanism comprises four-cylinder 46 and is connected to the die pad 47 of four-cylinder 46, described feed pipe 41 is close to material jacking mechanism and is symmetrically set in the both sides of material jacking mechanism, described 3rd cylinder 44 is symmetrically set in feed pipe 41 front port both sides, described die pad 47 slides in spill chute 42 along feedstock direction, and centre position is provided with chute 49 of stepping down bottom die pad 47.

Composition graphs 1, Fig. 3 to Fig. 9, by symmetrically arranged automatic screening collator, plastic button is inputted in the feed pipe 41 of assembling material-pulling device by the track of symmetry, magnet piece 40 is made to complete by the carry process of conveyer belt 29 to feeding platform 35 by carry over facility 27, and above the spill chute 42 by mechanical arm 25 magnet piece 40 being transferred to assembling material-pulling device 28, by lift cylinder 55 magnet piece 40 is pressed in plastic button 52 and completes assembling, and eventually through die pad 47, shaping magnet plastic button is headed in collection conduit 48 successively.

Embodiment 2:

A kind of magnetic clasp continuous production device, comprises automatic assembly equipment and a pair symmetrically arranged automatic screening collator, wherein,

Automatic screening collator, for entering automatic assembly equipment by after plastic button screening and sequencing at random in a large number in an orderly manner along track.

Automatic assembly equipment, for completing assembling by plastic button and magnet piece successively, and by shaping for finished product stacking.

It should be noted that, described automatic screening collator involving vibrations dish 1, hopper 2, inside spin track 6, discharging opening 3, feeding port 16, feeding track 17, straight-line oscillation track 19, first track 7, second track 8, 3rd track 9, first feed back gap 10 and the second feed back gap 18, hopper 2 is provided with bottom described vibrating disk 1, hopper 2 is provided with inside spin track 6, inside spin track 6 upper end is set to discharging opening 3, described discharging opening 3 is divided into the first track 7 by the first discharging separating belt 4 of being provided with and the second discharging separating belt 5, second track 8 and the 3rd track 9, described first track 7, second track 8 is identical with the 3rd track 9 and include sole-plate, track lateral wall 12, first feed back gap 10, first anti-stacking baffle plate 11 and direction limiting mechanism 13, the track lateral wall 12 that described first discharging separating belt 4 and the second discharging separating belt 5 are provided with described first track 7 and the second track 8 is respectively connected, described sole-plate, track lateral wall 12 and the first feed back gap 10 are concentric arc, and described sole-plate one side is fixedly connected with track lateral wall 12, described sole-plate another side is provided with described first bottom, feed back gap 10, feed back gap 10, first and is connected with described hopper 2, the track lateral wall 12 of described first track 7, second track 8, the 3rd track 9 is provided with the first anti-stacking baffle plate 11, described direction limiting mechanism 13 comprises screening gap 20, feed rail 21, second anti-stacking baffle plate 22, half station track plates 23 and discharging track 24, the first track 7 that described feed rail 21 is corresponding with it, second track 8 or the 3rd track 9 are fixedly connected with, the track lateral wall 12 of described feed rail 21 junction is provided with the second anti-stacking baffle plate 22, described half station track plates 23 is fixedly connected with described track lateral wall 12, and the two ends of described half station track plates 23 are equipped with screening gap 20, and be provided with feed rail 21 successively along plastic button direction of advance, screening gap 20, half station track plates 23, screening gap 20 and discharging track 24, plastic button is delivered to feeding port 16 by the first feeding separating belt 14 of being provided with and the second feeding separating belt 15 by described discharging track 24, described feeding port 16 is fixedly connected with feeding track 17, described feeding track 17 is connected with straight-line oscillation track 19, feeding track 17 another side is provided with the second feed back gap 18, described second feed back gap 18 is communicated with hopper 2, described straight-line oscillation track 19 is communicated with automatic assembly equipment

In this example, described automatic assembly equipment comprises auto-feeder, automatic assembling device and automatic collecting device.

In this example, described auto-feeder comprises fuselage 56, portal frame 57, feeding station 59, lower platen 60, lower platen assembly 61 and feeding cylinder 62, described feeding station 59 correspondence is communicated with described straight-line oscillation track 19, described portal frame 57 comprises crossbeam 58, described portal frame 57 is located at above feeding station 59 and two ends and is secured by bolts on fuselage 56, lower platen assembly 61 is provided with on the right side of described portal frame 57, described feeding cylinder 62 comprises feeding cylinder barrel 63 and feeding output 64, described feeding cylinder barrel 63 is fixed in the middle part of crossbeam 58 by cylinder mount pad 65 bolt, and described feeding output 64 is fixed on lower platen assembly 61, described lower platen assembly 61 is fixedly connected with described lower platen 60.

In this example, described automatic assembling device comprises " ㄇ " shape frame 66 and track 71, described track 71 is placed with the double plastic button of advance, is provided with space bar 72 in the middle of described double plastic button, also comprise conveyer and apparatus for assembling, described conveyer comprises the workbench 70 and magnet conveyer belt 69 that arrange about described space bar 72 symmetric transverse, fixed mount 68, pressing plate 73 and joint pin 74, described workbench 70 one end is provided with described magnet conveyer belt 69, the other end is fixedly connected with described track 71, described two workbench 70, track 71 and space bar 72 form one " mountain " shape structure, described joint pin 74 is vertically equipped with in the middle part of described fixed mount 68, the other end of described joint pin 74 is fixedly connected with described pressing plate 73 upper surface, described joint pin 74 periphery is also provided with the spring be fixedly connected with pressing plate 73 with described fixed mount 68 respectively, described pressing plate 73 is corresponding with described workbench 70 to be arranged, described apparatus for assembling comprises fixed station 77, power plate 75, cylinder 76 and the pressing tongs 67 be located in the middle part of described frame 66, described fixed station 77 is symmetrically arranged with two cylinders 76 about described space bar 72, the piston rod of described cylinder 76 is fixedly connected with described power plate 75, is provided with the pressing tongs 67 of " ㄇ " shape in the middle part of the lower surface of described power plate 75, described fixed mount 68 all horizontal symmetrical is fixed on the two ends of described pressing tongs 67.

In this example, described automatic collecting device comprises feeding-passage 78, turntable 79 and collection turntable 80, iron plate 81 is provided with in the middle of described feeding-passage 78 and turntable 79, described iron plate 81 both sides are placed with into the magnet plastic button 82 of axial symmetry distribution, the tail end of described feeding-passage 78 is provided with turntable 79, the tail end of described turntable 79 is provided with collects turntable 80, described collection turntable 80 is circumferentially evenly provided with three groups of collecting frames, be respectively the first to the 3rd collecting frame (83, 84, 85), described first collecting frame place 83 is provided with feed station, described second collecting frame 84 place is provided with unloading station, described 3rd collecting frame 85 place is without processing stations.

Composition graphs 2, Figure 10 to Figure 12, by symmetrically arranged automatic screening collator, plastic button is inputted in the carry station 59 of automatic carry device by the track of symmetry, being contacted with plastic button by lower platen 60 makes plastic button complete carry process, pressing down of lower platen 60 and lifting process is controlled by lower platen assembly 62, the feeding process of lower platen 60 is controlled by feeding cylinder 62, the plastic button in carry station 59 is made to enter automatic assembling device in an orderly manner, when plastic button marches on the track 71 between workbench 70, cylinder 76 presses down, in the process pressed down, the magnet pressing down station both sides is first pressed on above described workbench 70 by pressing plate 73, then cylinder 76 then presses down, in the process, spring starts compression, joint pin 74 passes described fixed mount 68 and moves upward relative to described fixed mount 68, until pressing tongs 67 is depressed into being in the magnet pressed down on station in plastic button, realize the assembling of plastic button and magnet piece.After having assembled, cylinder 76 starts to shrink, and the magnet plastic button after assembling can enter automatic collecting device, and the plastic button not carrying out assembling advances to and presses down station place, and joint pin 74 moves downward relative to described fixed mount 68 under the elastic force effect of spring, reinstatement state.Then the circulation of next assembly working is entered.Automatic collecting device utilizes the magnetic of magnet plastic button itself, by turntable 79, the cooperation of collecting turntable 80 and feeding process, completes the collection of magnet plastic button and makes that finished product is stacking to be piled up.

Claims (9)

1. a magnetic clasp continuous production device, it is characterized in that, comprise automatic assembly equipment and a pair symmetrically arranged automatic screening collator, wherein, automatic screening collator, for entering automatic assembly equipment in an orderly manner along track, automatic assembly equipment by after plastic button screening and sequencing at random in a large number, for successively plastic button and magnet piece being completed assembling, and by shaping for finished product stacking.

2. a kind of magnetic clasp continuous production device according to claim 1, it is characterized in that, described automatic screening collator involving vibrations dish, hopper, inside spin track, discharging opening, feeding port, feeding track, straight-line oscillation track, first track, second track, 3rd track, first feed back gap and the second feed back gap, hopper is provided with bottom described vibrating disk, hopper is provided with inside spin track, inside spin rail superior portion end is set to discharging opening, described discharging opening is divided into the first track by the first discharging separating belt of being provided with and the second discharging separating belt, second track and the 3rd track, described first track, second track is identical with the 3rd track and include sole-plate, track lateral wall, first feed back gap, first anti-stacking baffle plate and direction limiting mechanism, the track lateral wall that described first discharging separating belt and the second discharging separating belt are provided with described first track and the second track is respectively connected, described sole-plate, track lateral wall and the first feed back gap are concentric arc, and described sole-plate one side is fixedly connected with track lateral wall, described sole-plate another side is provided with described first feed back gap, and the first bottom, feed back gap is connected with described hopper, the track lateral wall of described first track, the second track, the 3rd track is provided with the first anti-stacking baffle plate, described direction limiting mechanism comprises screening gap, feed rail, second anti-stacking baffle plate, half station track plates and discharging track, the first track that described feed rail is corresponding with it, second track or the 3rd track are fixedly connected with, the track lateral wall of described feed rail junction is provided with the second anti-stacking baffle plate, described half station track plates is fixedly connected with described track lateral wall, and the two ends of described half station track plates are equipped with screening gap, and be provided with feed rail successively along plastic button direction of advance, screening gap, half station track plates, screening gap and discharging track, plastic button is delivered to feeding port by the first feeding separating belt of being provided with and the second feeding separating belt by described discharging track, described feeding port is fixedly connected with feeding track, described feeding track is connected with straight-line oscillation track, feeding track another side is provided with the second feed back gap, described second feed back gap is communicated with hopper, described straight-line oscillation orbit connection automatic assembly equipment.

3. a kind of magnetic clasp continuous production device according to claim 2, it is characterized in that, described automatic assembly equipment comprises mechanical arm, tooling platform, carry over facility and assembling material-pulling device, wherein, mechanical arm, is fixed on tooling platform, and described mechanical arm comprises the turning cylinder of driven by servomotor, draws the lift cylinder of platform and connection absorption platform, for receiving the magnet piece of carry in carry over facility, and described magnet piece is moved on assembling material-pulling device; Tooling platform, for fixing described carry over facility and assembling material-pulling device.

4. a kind of magnetic clasp continuous production device according to claim 3, it is characterized in that, described carry over facility comprises feed mechanism, pusher and feed mechanism, described feed mechanism comprises conveyer belt, striker plate, described striker plate is close to conveyer belt and is placed, described pusher and feed mechanism are located at conveyer belt both sides respectively and are oppositely arranged, described striker plate is located between pusher and conveyer belt, described pusher comprises scraping wings, first cylinder and cylinder mount pad, described cylinder mount pad is fixed on striker plate side, and with described conveyer belt heteropleural, described first cylinder is fixedly connected with scraping wings, described striker plate has pusher mouth at scraping wings place, described feed mechanism comprises feeding platform, slide rail and the second cylinder, described feeding platform to be located at above slide rail and to be slidably connected with described slide rail, described second cylinder is fixed on tooling platform bottom surface, and the second cylinder is fixedly connected with feeding platform, described feeding platform is arranged with the first feeding groove and the second feeding groove, and described first, second feeding groove opening part is equipped with chamfering.

5. a kind of magnetic clasp continuous production device according to claim 3, it is characterized in that, described assembling material-pulling device comprises feeding mechanism, material transferring mechanism, collecting mechanism and material jacking mechanism, described material transferring mechanism is located at feeding mechanism front, described collecting mechanism is located at the front of material transferring mechanism, described collecting mechanism comprises collection conduit, described feeding mechanism comprises a pair feed pipe, described feed pipe correspondence is communicated with described straight-line oscillation track, described material transferring mechanism comprises spill chute, the spill of corresponding feed pipe turns material slide block, 3rd cylinder and be connected to the putty plate of the 3rd cylinder, described spill turns material slide block slide in opposition in spill chute, and spill turns material slide block outer panel is fixedly connected with putty plate, described material jacking mechanism comprises four-cylinder and is connected to the die pad of four-cylinder, described feed pipe is close to material jacking mechanism and is symmetrically set in the both sides of material jacking mechanism, described 3rd cylinder is symmetrically set in feed pipe front port both sides, described die pad slides in spill chute along feedstock direction, and centre position is provided with chute of stepping down bottom die pad.

6. a kind of magnetic clasp continuous production device according to claim 2, it is characterized in that, described automatic assembly equipment comprises auto-feeder, automatic assembling device and automatic collecting device.

7. a kind of magnetic clasp continuous production device according to claim 6, it is characterized in that, described auto-feeder comprises fuselage, portal frame, feeding station, lower platen, lower platen assembly and feeding cylinder, described feeding station correspondence is communicated with described straight-line oscillation track, described portal frame comprises crossbeam, described portal frame is located at above feeding station and two ends are secured by bolts on fuselage, lower platen assembly is provided with on the right side of described portal frame, described feeding cylinder comprises feeding cylinder barrel and feeding output, described feeding cylinder barrel is fixed in the middle part of crossbeam by cylinder mount pad bolt, and described feeding output is fixed on lower platen assembly, described lower platen assembly is fixedly connected with described lower platen.

8. a kind of magnetic clasp continuous production device according to claim 6, is characterized in that, described automatic assembling device comprises " ㄇ " shape frame and track, described track is placed with the double plastic button of advance, is provided with space bar in the middle of described double plastic button, also comprise conveyer and apparatus for assembling, described conveyer comprises the workbench and magnet conveyer belt that arrange about described space bar symmetric transverse, fixed mount, pressing plate and joint pin, described workbench one end is provided with described magnet conveyer belt, the other end is fixedly connected with described track, described two workbench, track and space bar composition one " mountain " shape structure, described joint pin is vertically equipped with in the middle part of described fixed mount, the other end of described joint pin is fixedly connected with described pressing plate upper surface, described joint pin periphery is also provided with the spring be fixedly connected with pressing plate with described fixed mount respectively, described pressing plate is corresponding with described workbench to be arranged, described apparatus for assembling comprises fixed station, power plate, cylinder and the pressing tongs of being located at described central rack, described fixed station is symmetrically arranged with two cylinders about described space bar, the piston rod of described cylinder is fixedly connected with described power plate, is provided with the pressing tongs of " ㄇ " shape in the middle part of the lower surface of described power plate, the equal horizontal symmetrical of described fixed mount is fixed on the two ends of described pressing tongs.

9. a kind of magnetic clasp continuous production device according to claim 6, it is characterized in that, described automatic collecting device comprises feeding-passage, turntable and collection turntable, iron plate is provided with in the middle of described feeding-passage and turntable, described iron plate both sides are placed with into the magnet plastic button of axial symmetry distribution, the tail end of described feeding-passage is provided with turntable, the tail end of described turntable is provided with collection turntable, described collection turntable is circumferentially evenly provided with three groups of collecting frames, be respectively the first to the 3rd collecting frame, described first collecting frame place is provided with feed station, described second collecting frame place is provided with unloading station, described 3rd collecting frame place is without processing stations.