CN1047995C - Apparatus for arranging vibrating units - Google Patents

Abstract

To feed plural sorts of fastener-like parts in the specified suspended attitude to a following process by the same device by providing a first contact member vertical and linear to a supporting member on a transfer path forming member, a second contact member vertical and linear on one side of the first contact member, and a thin plate member protruding from the second contact member. A fastener-like part 1 in the lying attitude with a lug part 6 placed down is transferred by vibration while one side edge part of the lower body 2 of the fastener like part 1 is supported by a supporting plate 63 and the other side edge part is brought into contact with a first contact member 64. The fastener like part 1 is then shifted to a second contact member 69 from the first contact member 64 and transferred by the same vibration with the other side edge part brought into contact with the second contact member 69, and further transferred with the protruding part of a thin plate member 76 inserted into a clearance 4 between a pair of bodies 2. The thin plate member 76 gradually takes a vertical attitude toward the lower reaches. The fastener- like part 1 can be thereby suspended in the specified attitude on the thin plate member 76 and fed to a following process.

Description

The collating unit of vibrating mass

The present invention relates to a kind of vibrating mass collating unit that the parts of supplying with zip button shape for subsequent processing are arranged.

The scheme drawing of the embodiment that the known zip that uses on school bag and trousers of expression is buckled among Fig. 1, the whole body 2 of 1 expression, body 2 is formed by the polygon metal plate 2A of portion, 2B, and flat handle 6 is installed on the hook circle of fixing integratedly with flat part 2A 5.Be formed with circular hole on 6 at handle, pinch this handle just can the not shown side for the treatment of two sealed parts is sealed, for example that the zip part of trousers is sealed, dull and stereotyped 2a, 2b have formed the gap 4 of centre.When this zip button 1 with the state shown in scheming in a direction indicated by the arrow under the situation that subsequent processing is supplied with, at this moment, because inserting zip by the upper limb of thin plate 8 shown in Figure 2 buckles in 1 the gap 4, and move with direction shown in the arrow,, supply with to subsequent processing with the state that traverses motion shown in Figure 1 in the downstream with predetermined state.

Vibrating mass collating unit for this zip button, just know to device shown in Figure 25 by Figure 21, in Figure 21, the integral body of this device is by shown in 11, be used as the vibrating mass feedway, be installed in the parts receiving vessel 12 of torsion oscillations drive division top and be formed with helical track 13, a plurality of not shown zip buttons 1 that distribute dispersedly of storage on its center bottom 14, they rise along helical orbit 13 with direction shown in the arrow by torsion oscillations.In the end of helical orbit 13, be provided with its one at the downward-sloping conveyor surface 17 that makes progress of radius vector foreign side as shown in figure 22, which is provided with the collating unit 16 of zip button 1.And its footpath foreign side upwards is formed with the bag 15 with parts receiving vessel 12 one, and the zip button 1 that is arranged falls in it, and turns back in the parts receiving vessel 12.

Collating unit 16 comprises the thin plate 18 of the lower end that is fixed on conveyor surface 17, be fixed on the end of conveyor surface 17 by strip- shaped parts 19,20 its ends of clamping and with them and form.

A plurality of zip buttons 1 of the input in the center bottom 14 of parts receiving vessel 12 are carried on conveyor surface 17 by torsion oscillations, they slide into arrangement of parts device 16 slidably, because the center of gravity of body 2 is positioned at body and arrives downwards on the thin plate 18, the upper end of thin plate is inserted into one-tenth state as shown in figure 22 in the gap 4 that forms on the body, is transported to subsequent processing by torsion oscillations.

Yet, arrange under a kind of situation of zip button by collating unit 16, though also can carry the zip button by multiple different state, but these zip buttons will drop in the bag 15, can rise along the helical track in the parts receiving vessel 12 13 then, arrange to arrangement of parts device 16 again, and identical parts receiving vessel 12 in the zip button of a plurality of other kinds of input, when arriving identical collating unit 16, can not obtain suspended state as shown in figure 22 by torsion oscillations.

Figure 23 represents the zip button 1A of other kind and the suspended state of 1B, that the leftmost side is represented is above-mentioned zip button 1A, be to transport to subsequent processing with predetermined suspended state, in its back is the zip button 1B of other kind, the upper end of thin plate 18 is inserted its zip and is buckled gap on the body 2B of 1b, but the direction opposite with zip button 1 body 2 inserted, and the 6B of handle portion is carrying under the clamp position between thin plate 18 and the conveyor surface 17.And at the another kind of zip button 1A of upstream side, the upper end of thin plate 18 is not to be inserted in the gap of body 2A, and the handle 6A of ring-type is inserted between lamellar parts 18 and the conveyor surface 17 and carries.Much less, zip button 1A, 1B carry with predetermined state, no matter use what means, all they will be removed in the downstream.

Figure 25 is the existing a part of scheme drawing that has the vibrating mass feedway of arrangement of parts device 21, should have in the example, for thin plate 27 is had a down dip by direction in the outer direction radius vector in footpath, by the end of parts 25,26 end clamping thin plates and be fixed on the bottom of conveyor surface 24.Though be slipped to this dip plane from the bottom of helical track 22, the promptly sliding major part that drops into the zip button 1 on this conveyor surface 17 is supplied with to subsequent processing with suspended state as shown in FIG., but same as the previously described embodiments, at the zip button 1A of other kind, when 1B arrives herein, not limiting must the one-tenth suspended state.

The objective of the invention is to: according to above-mentioned problem, a kind of vibrating mass collating unit that can supply with to subsequent processing with predetermined state in same device the parts (parts of for example tens kinds zip button, or zip button shape) of multiple zip button shape is provided.

Above purpose is to finish by following device, the vibration collating unit of zip button shape parts of the present invention, the zip button shape parts that are used for being dropped in large quantities torsion oscillations parts receiving vessel carry one side to supply with to subsequent processing with predetermined state by the vibration one side, these zip button shape parts form the body that a pair of plate of certain interval at least constitutes and the handle that pivotally is installed in a side of this body constitutes by relative, comprising: be fixed on towards a side of component feed direction and dip down carry the road form on the parts the linear holding components that predetermined space is arranged and perpendicular to linear first contact component of this holding components; What be fixed on that above-mentioned conveying road forms an above-mentioned side that is positioned at first contact component on the parts forms linear second contact component of parts perpendicular to above-mentioned conveying road, and perpendicular to this second contact plate and its upstream side starting end from the outstanding thin plate of this second contact component; With above-mentioned handle portion below the hardware body of above-mentioned zip button shape of accumbency state below a lateral margin support by above-mentioned mounted panel; Another lateral margin and the above-mentioned first contact plate limit contact edge are carried by vibration, secondly move to second contact plate from this first contact plate, and above-mentioned another lateral margin and the second contact plate limit contact edge are carried by vibration; The outshot limit of above-mentioned thin plate is inserted in the gap of above-mentioned a pair of body the limit and is carried, above-mentioned thin-plate member downstream little by little becomes plumbness, and the parts of above-mentioned zip button shape are suspended on this thin-plate member to next operation conveying with predetermined state.

For finishing above purpose, the vibration collating unit of zip button shape parts of the present invention comprises horizontal track of the linear with U-lag and the unit status rectification portion that forms with the conveyor surface that dips down to the footpath of above-mentioned parts receiving vessel foreign side that the end of downstream side of track forms, being fixed on of its downstream have a down dip towards a side direction of component feed direction carrying the road form on the parts the linear holding components that predetermined space is arranged and perpendicular to linear first contact component of this holding components; Be fixed on linear second contact component perpendicular to above-mentioned handover road formation parts of an above-mentioned side that is positioned at first contact component fixing on the above-mentioned handover road formation parts, reach the thin plate of giving prominence to from this second contact component perpendicular to its upstream side starting end of this second contact plate; The parts that make above-mentioned zip button shape make above-mentioned zip buckle import above-mentioned horizontal track down and its side is fallen in the accumbency state from the discharge end of the helical track that the center bottom of above-mentioned parts receiving vessel begins to form, when the downstream end by above-mentioned horizontal track leads above-mentioned conveyor surface with the zip button, because the action of gravity of whole center of gravity, make its become with above-mentioned handle portion below the hardware body of above-mentioned zip button shape of accumbency state below a lateral margin support by above-mentioned mounted panel; Another lateral margin and the above-mentioned first contact plate limit contact edge are carried by vibration, secondly move to second contact plate from this first contact plate, and above-mentioned another lateral margin and the second contact plate limit contact edge are carried by vibration; The outshot limit of above-mentioned thin plate is inserted in the gap of above-mentioned a pair of body the limit and is carried, above-mentioned thin-plate member downstream little by little becomes plumbness, and the parts of above-mentioned zip button shape are suspended on this thin-plate member to next operation conveying with predetermined state.

Under the accumbency state below handle portion is in, a lateral margin of the parts of the zip button shape between holding components to the first contact component is bearing on the holding components, because of this holding components and and this holding components have the zip button shape parts between first contact component of holding components opposite side of certain intervals to have a down dip to that side of first contact component, another lateral margin of zip button shape parts and the first contact component limit contact edge pass through vibrating transportation.One leaves first contact component and arrives second contact component, because it is equally also to lopsidedness, another side edge part of these zip button shape parts is just carried by vibration with the second contact component limit contact edge; At this moment, because the part of lamellar parts, carry simultaneously in the outstanding gap of inserting body of this outshot; And, because this thin plate is reversed into vertical configuration at downstream part, therefore positively can make the body of the parts of zip button shape be transported to subsequent processing with predetermined suspended state.

Or unit status rectification portion is set at the upstream side of above-mentioned first holding components, first, second contact component, the parts of zip button shape fall into the groove of U word shape from the screw-shaped track, at this moment, about side has been fallen 90 degree and carry by torsion oscillations, slides into from its end of downstream side on the conveyor surface that dips down towards footpath foreign side; And, the gravity of zip button shape parts single-piece center of gravity during owing to lay across, make zip be fastened as the state of lying on one's side that is in the below for its handle, gradually become predetermined state, can improve the efficiency of supply significantly through above-mentioned holding components, first, second contact component.

When multiple zip button shape parts being arranged with same vibration collating unit, have width that the width of groove of horizontal track of U word shape groove and the distance between holding components and first, second contact component should be able to guarantee to make the zip button of all categories can both carry out above-mentioned effect come fixed, therefore on making, have no problem, and only packing problem is arranged.

Fig. 1 is the oblique drawing of the zip button that is suitable in the embodiment of the invention.

Fig. 2 is that identical zip is buckled in the oblique drawing that is in suspended state on the thin plate.

Fig. 3 is the cut-away section lateral plan of the vibration collating unit of the embodiment of the invention.

Fig. 4 is the planar view identical with Fig. 3.

Fig. 5 is the amplification oblique drawing with the main portion of Fig. 3 same apparatus.

Fig. 6 is the cross sectional drawing of [6] among Fig. 4-[6] line direction.

Fig. 7 is the cross sectional drawing of [7] among Fig. 4-[7] line direction.

Fig. 8 is the amplification view of other main portion of same apparatus.

Fig. 9 is the amplification profile diagram of [9] among Fig. 8-[9] line direction.

Figure 10 is the amplification profile diagram of [10] among Fig. 8-[10] line direction.

Figure 11 is the amplification profile diagram of [11] among Fig. 8-[11] line direction.

Figure 12 is the cross sectional drawing of other main portion side among Fig. 8.

Figure 13 is the amplification profile diagram of [13] among Fig. 4-[13] line direction.

Figure 14 is the amplification front view of alternative other main portion of same apparatus.

Figure 15 is the cross sectional drawing of [15] among Figure 14-[15] line direction.

Figure 16 is the amplification profile diagram of the device effect of expression Figure 15.

Figure 17 is the amplification profile diagram of [17] among Figure 14-[17] line direction.

Figure 18 is the amplification profile diagram of the device effect of expression Figure 17,

Figure 19 is the amplification profile diagram of another same apparatus effect of expression.

Figure 20 is the amplification profile of the discharge end of same apparatus.

Figure 21 is the planar view of existing vibrating mass collating unit.

Figure 22 is the cross sectional drawing of [22] among Figure 21-[22] line direction.

Figure 23 is that the expression of [23] among Figure 22-[23] line direction carries different types of zip to buckle the planar view of state.

Figure 24 is the cross sectional drawing of another existing example same as shown in Figure 22.

Figure 25 is that the expression of [25] among Figure 24-[25] line direction carries alternative zip to buckle the planar view of state.

Embodiment:

Below, the vibration collating unit of the zip of the embodiment of the invention being buckled with reference to accompanying drawing describes.

Fig. 3 and Fig. 4 represent the integral body of present embodiment vibration collating unit, and this integral body is represented with mark 31.Each parts relevant with the present invention are installed in the part receptacle 32, are fixed with movable core 34 on its bottom surface, and this movable core 34 is connected with the base 33 of below by the inclination leaf spring 35 that sets at interval with equal angles.Be fixed with the electromagnet 37 that is wound with magnet coil 36 on base 33, at interval space g is relative with above-mentioned movable core 34.The structure of vibratory drive portion as mentioned above, it is all covered by tubular cover 38.Vibration feeder 31 by vibration-proof rubber spare 39 adjustable-heights be bearing on the floor.

Part receptacle 32 is made of each appurtenances that is installed in its inboard bowl-type groove 40 and be installed on bowl-type groove 40 outer walls, in bowl-type groove 40, form helical track 41 by known manner, depositing many zip buttons 1 in the center bottom of groove 40, for the sake of clarity, only drawn a few among the figure, in fact deposited with high density more.

In part receptacle 32, begin to be provided with successively state rectification portion 43, zip button output mechanism 44, zip button suspended state converter section 45, zip button suspention portion 46, upstream side from upstream side and stop that decontrol 47 and downstream stop decontrol 48.Below, successively above-mentioned each one is described.

Fig. 5 and Fig. 6 represent the detailed construction of state rectification portion 43.In the end of helical track 41, fixing circular-arc narrow road forms plate 51.Form plate 51 by this narrow road, form the narrow road 52 that width only is a bit larger tham snap close 2 width of zip button 1.In the end of narrow road 52, be fixed with horizontal transition road 53 as annex, this horizontal transition road 53 forms the linearity groove 53C of U font section.Upper end 53a, the 53b of the side wall portion of groove 53C is the conical surface that has a down dip towards groove 53 side direction, and as shown in Figure 5, the width of groove only is a bit larger tham snap close 2 thickness and the handle portion 6 thickness sums of zip button 1.There is the arranging and moving face 54 as annex end in this horizontal transition road 53.It more than is the structure of state rectification portion 43.

Below, mainly zip button output mechanism 44 is described with reference to Fig. 7.Form the oblong breach in a part of arranging conveyor surface 54, the flashboard 56 chimeric with this breach is installed on the arrangement conveyor surface 54 by hinge 57.Driving cylinder transferring elements 60 is installed below flashboard 56, on these parts 60 slotted hole 60a is arranged, the leading section 59a of the drive spindle of driving cylinder 58 is bonded in this slotted hole 60a.Driving cylinder 58 carries out compressed-air actuated supply by electromagnetic valve not shown in the figures and discharges.As shown in the figure, the driving cylinder body is fixed on the side wall portion 40a of bowl-type groove 40 obliquely.That works shown in long and short dash line among the figure rotates around hinge 57 for flashboard 56, and when this flashboard 56 was in open position shown in the long and short dash line, zip button 1 was just fallen and is located at exterior accommodating in the case 61.

Below, mainly the detailed construction of suspending converter section 45 in midair is described with reference to Fig. 8 to Figure 12.This suspention converter section 45 is installed in the end of arranging conveyor surface 54 as appurtenances.Arranging and moving face 54 is towards sidewall 74, promptly direction is downward-sloping outside diameter.Conversion is carried the road to form plate 62 and be directed downwards inclination in diameter, and conversion is carried the road to form plate 62 and is directed downwards in the diameter and is fixed on obliquely on the sidewall 74, forms step between above-mentioned plate 62 and arrangement conveyor surface 54 ends.Carry linearity back plate 63 that snap close 2 one lateral edge portion that can support zip button 1 are arranged on the road formation plate 62 and linearity the 1st butt parts 64 that are vertically fixed on this conveying road formation plate 62 in conversion, these butt parts 64 are relative with above-mentioned back plate 63 on the direction in diameter, and and above-mentioned back plate 63 between form the space, this space is as the conversion road 65 of straight line.

Dull and stereotyped 66 form plate 62 proper alignment with the conveying road, on this flat board 66, as shown in the figure, the 2nd contact component 69 of L shaped section and the 1st butt parts 64 butts, and the 2nd butt parts 69 are fixed on dull and stereotyped 66 by bolt 70 with the accessory 67,68 that inserts.The suspention converter section 45 of above-mentioned structure is fixed on the sidewall 40a of bowl-type groove 40 by bolt 73 by flat board 72, diaphragm plate 71.By Fig. 8, Figure 10 and Figure 12 as seen, the 1st butt parts 64 of linearity form breach 64a on the way, by this breach 64a, the sidepiece of carrying direction one side in the diameter of snap close 1 snap close 2 come from upstream side is towards the 2nd contact plate 69 side shiftings, afterwards with its butt.

Below, mainly suspention portion 46 is described with reference to Figure 13 to Figure 14.Suspention portion 46 mainly is made of thin plate 76, and its upstream side originates in the 2nd butt parts 69 of suspended state converter section 45 and the boundary portion of the 1st butt parts 64, and it begins towards the downstream to reverse toward vertical direction gradually from leaning angle shown in Figure 11.The downstream of the thin plate 76 that Figure 13 has represented to be reversed is connected with upstream side in the downstream of thin plate 76 and stops decontrol 47.

Below mainly illustrate that with reference to Figure 14 to Figure 16 upstream side stops the detailed construction of releasing portion 47.

Upstream side stops that decontrol 47 is mainly formed by sheet-type driving cylinder device 80, in this device 80, fixation side flat board 81 is fixed on the sidewall 40a of bowl-type groove 40, on dull and stereotyped 81, form linearity guide rail 83, tabular piston 82 is entrenched on the guide rail 83 as shown in figure 15, and can move up and down along guide rail 83.Also be fixed with zip snapping touch panel 87 on piston 82, its bottom 87a when zip button 1 is suspended on this thin plate 76, only has very little gap between the bottom of the snap close 2 of zip button 1 and the contact plate 87 bottom 87a near thin plate 76.On piston plate 82, by bolt suspended state holding plate 86 is arranged by parts 84, this holding plate 86 is fixed on the parts 84, between the upper end of this holding plate 86 and the snap close 2 of the zip button 1 that is in vertical suspended state under it very little gap is only arranged.

Below, mainly illustrate that with reference to Figure 17 to Figure 19 the downstream stops the detailed construction of decontrol 48.This decontrol 48 is mainly formed by sheet-type driving cylinder device 90, its tabular adapter plate 91 is fixed on the sidewall 40a of bowl-type groove 40, be formed with linearity guide rail 92 on adapter plate 91, tabular driven plunger 93 can move along the above-below direction among Figure 17 on guide rail 92.

Zip snapping touch panel 94 is installed on driven plunger 93, wears the bottom of bolt 99 on the upper end 97 of this contact plate 94, twisting nut 109 on it, carry out common location.Pasting poly-urethane rubber sheet 98 on upper end 97, the head 99a of bolt 99 movably interts up and down by poly-urethane rubber sheet 101 among the hole 95a on horizontal adapter plate 95.This adapter plate 95 is being pushed with respect to the enwinding spring axis anticlockwise direction by wind spring 96, direction end in the footpath of this adapter plate 95, vertically be fixed with the plate 103 that is used to install the 2nd zip snapping touch panel, contact plate 102 and plate 103 proper alignment ground by screw retention on plate 103, usually on position shown in Figure 17.Be provided with hook 94a in the bottom of contact plate 94, only have between the bottom of this hook 94a and the snap close 2 of the zip button 1 that is in vertical suspended state very little with gap vis-a-vis.

Stop in the downstream on the driven plunger 93 of decontrol 48, zip button detecting device 104 is installed, as shown in figure 14, this detector 104 is made of reverse U shape adapter plate 105 and the luminous element 106 and the photo detector 107 that are fixed on its two bottom.As shown in figure 17, when zip button 1 is transported between contact plate 94 and 102 owing to covered the light that sends from luminous element 106.Photo detector 107 just detects it, and detects zip button 1 and carry on the desired location.In the present embodiment, when photo detector 107 does not receive the light of self-emission device 106 continuously more than the 1st schedule time, will make upstream side driving cylinder device 80 and downstream driving cylinder device 90 are driven together, simultaneously, when photo detector 107 receives the light of self-emission device 106 continuously more than the 2nd schedule time, upstream side and downstream driving cylinder device 80 and 90 are driven.Before this drives, stop the drive division of feed appliance earlier, after the schedule time, make driving cylinder device 80 and 90 return to original position.And then begin to drive feed appliance.Figure 20 represents to be located at the part status maintaining part 50 in downstream, which is provided with thin plate 120, and this thin plate 120 is relative with the end 121 of thin plate 76, and and is between the upper end of zip button 1 main body 2 of suspended state very little gap is only arranged.

More than describe the structure of vibrating part collating unit 31 of the zip button of the embodiment of the invention, the following describes its action.

To known electromagnetic wire Figure 36 energising, just produced vibratory force, make part receptacle 32 axle ambient vibration therein, like this, zip button 1 just rises along helical track 41 in a direction indicated by the arrow, enter in the narrow road 52 that is formed by parts 51 after arriving the discharge end of helical track 41, the length direction of guaranteeing zip button 1 in this narrow road 52 is along throughput direction, then its state of by accumbency become 90 ° the state of lying on one's side of having overturn and falls groove and form in the parts 53.Because it is horn-like that upper end 53a, the 53b of groove 53 two sides form, shown in be easy to make zip button 1 to become to be the state of lying on one's side.Zip button 1 is carried in this groove 53 by vibration, because its center of gravity more is partial to handle portion 6 one sides than its center, so be to transmit to arranging conveyor surface 54 with the state of toppling over towards the side wall portion of handle side direction in groove 53.At this moment, because center of gravity is in handle portion 6 these sides, so, when it becomes the accumbency state once more, become handle portion 6 and arranged conveyor surface 54 contacted states, be transferred downstream with this state and survey.When zip button 1 is fallen suspention converter section 45 from arranging conveyor surface 54, as shown in Figure 9, by gravity at first, the handle portion 6 of zip button 1 below, the both side edges of snap close 2 respectively with back plate 63 and the 1st butt parts 64 butts, be transferred under oscillating action with such state.Its hook 5 drops in the linearity groove 65 between back plate 63 and the 1st butt parts 64, is carried by this groove guiding.

Owing on the 1st butt parts 64, be provided with breach 64a, when zip button 1 reaches this indentation, there, just direction slips into this breach 64a in the diameter of bowl-type groove 40, as shown in figure 10, the edge part in the diametric(al) outside of snap close 2 and the area of contact of back plate 63 diminish, zip button 1 is shifted to the 2nd butt parts 69 sides, therefore, presss from both sides as shown in Figure 10 on the outstanding end 76a that is inserted in outstanding slightly thin plate 76 in the gap 4 that forms on the snap close 2.Its outstanding length of side end is very little at its upstream for thin plate 76.Because the zip button moves on the direction in this protrusion extending direction diameter that is groove, make the gap 4 of snap close 2 press from both sides to be inserted in so can stablize reliably and give prominence on the 76a of end.

Situation when gap 4 folders of the snap close 2 of expression zip button 1 are inserted in thin plate 76 upper end 76a among Figure 12.When the zip button 1 on upstream side top is fallen suspention converter section 45, be state shown in the 1a earlier.The gap 4 of body 2 is embedded in that the back becomes state shown in the 1b on the end of thin plate 76 of the breach 64a that starts from the 1st butt parts 64 after first contact component 64 breaks away from then, when this state, the major part of snap close 2 embeds, become the state of horizontal commentaries on classics, after having broken away from the conveying road and forming parts 62, be in and be the complete suspended state shown in the 1c, afterwards reversing along with the past vertical direction of thin-plate member 76, and become upright suspended state, and shift to the downstream with this state.When zip button 1 so that suspended state is carried successively in succession completely, it intactly by the driving cylinder device 80,90 in upstream side and downstream, keeps suspention portion 50 one by one to supply with subsequent processing from state.

Below, the situation that zip button 1 is stopped somewhere is described.

For example, as shown in figure 14, zip button 1 is carried in succession because it is not vertical suspention, as among the figure 1,1 ' shown in like that, be blocked between the upper end of the state holding plate 86 of driving cylinder device 80 and thin plate 76.At this moment, the zip button 1 in their downstreams still successfully is being transferred at interval with certain, at driving cylinder device 80 places of upstream side above-mentioned stopping has taken place.Therefore, follow-up zip button is entirely by zip button 1 gear of upstream side.Therefore, the photo detector 107 in the zip button detector 104 receives the light of luminous element 106 more than at the fixed time continuously, and this detector 104 integrally is located on the downstream driving cylinder device 90.Therefore, vibration feeder stops to drive, and the conveying of zip button 1 is stopped.Then, drive driving cylinder device 80 and 90, as shown in figure 15, driven plunger 82 is risen by guide rail 83 guiding, meanwhile holding plate 86 also rises, so do not hinder zip button 1 to break away from the upper end 76a of thin plate 76, as shown in figure 16, zip button 1 is from the upper end 76a disengaging of thin plate 76 and fall in the pocket.Like this, in the zip button that is stopped 1,1 as shown in figure 14 ' the fall into pocket after, follow-up zip button 1 just can successfully be carried.Through behind the certain hour, driving cylinder device 80 and 90 returns to the desired location, and vibration feeder restarts to drive, and carries out above-mentioned feeding action again.

Below, zip button 1 is led to the situation that is stopped on the position of luminous element 106 light describe in downstream driving cylinder device 90.

At this moment, photo detector 107 can't accept light continuously, after between predetermined, driving cylinder device 80 and 90 is driven, among Figure 17, driven plunger 93 rises along guide rail 92, the contact plate 94 that is fixed on the piston 93 also rises with the hook portion 94a that is installed in these contact plate 94 lower ends, as shown in figure 18, this hook portion 94a contacts with the bottom of zip button 1 body 2 that is stopped, when contact plate 94 again when rising, as shown in figure 19, bolt 99 is outstanding a lot of from adapter plate 95 tops, simultaneously, and the elastic force of the upper end 97 opposing wind springs 96 of contact plate 94, make adapter plate 95 rotate as shown in Figure 19, like this, just make the contact plate 102 that is fixed on adapter plate 95 ends rotate, therefore do not hinder zip button 1 to be broken away from from the upper end 76a of thin plate 76 by hook 94 jack-up.Like this, the zip button 1 that is stopped all breaks away from from the upper end 76a of thin plate 76, falls in the pocket.Through after the schedule time, driving cylinder device 80 and 90 returns to the normal position, and afterwards, vibration feeder begins to drive, and begins above-mentioned feeding action again.

The above is the action of originally executing example.Zip button 1 side is changeed, become the predetermined state of lying on one's side then, in suspention converter section 45, as shown in figure 10, supporting the both side edges of the snap close 2 of zip button 1 respectively by holding components 63 and the 1st butt parts 64, zip button 1 is carried on the road at straight line by vibration with this state to be carried, near the 2nd butt parts 69 sides the time, gap 4 folders on the snap close 1 are inserted on the outstanding thin plate 76, therefore, can be applicable to zip button 1A, 1B, and the 1C of other type described in prior art, also can be applicable to the zip button of other kinds.

When being used to arrange another kind of zip button, if the zip button 1 of known kind also remains in the bowl-type groove 40 in large quantities, then drive zip button output mechanism 44, promptly, drive driving cylinder device 58, make flashboard 56 turn to position shown in the long and short dash line among Fig. 7 by its leading section 59a that drives pavilion 59 by transferring elements 60, then carry the zip button 1 of the known kind of coming just all to accommodate in the case 61 from upstream side by falling into above this flashboard 56 by vibration.1 on the zip button that had arrived the downstream before flashboard 56 is open all is discharged to the outside from the end that part suspends the road in midair.Detect by the emptying that is located at the part emptying detector (figure does not show) in the bowl-type groove 40, or and can confirm as emptying the time through the schedule time, later just stop to drive driving cylinder device 58 at this schedule time warp, make flashboard 56 get back to position shown in the solid line, promptly the arrival of another kind zip button is being waited in the position that engages with arrangement conveyor surface 54 on this position.After on the center bottom 42 of the zip button of another road class being put into bowl-type groove 40,, just can carry out and above-mentioned same fully feeding action as long as begin to drive vibration feeder.

In above-mentioned action, also can adorn 90 actions that keep zip button 1 complete suspended state by sheet-type driving cylinder device 80 and sheet-type driving cylinder.In this two driving cylinders device 80,90 any one can stop releasing with this as described above when zip button 1 is stopped.Occur in the upstream side that the downstream stops decontrol 48 when stopping, and be when beyond upstream side stops decontrol 47, locating, can not remove and stop even drive driving cylinder device 80,90 sometimes.In this case, even stop that when detecting to make decontrol 47,48 drives the schedule times and the vibration feeder drive division is driven and when stopping to remove, then by means such as the siren hornes of ringing, gets rid of this by the operator and stop.

More than to stopping that at upstream side decontrol the situation that diagram stops has taken place has been described, certainly, be not only stopping of this form, whether also can detect its suspended state when giving birth to stopping of this form for the different types of zip garnishment described in the prior art in stopping decontrol 47,48 correct, even only a state off-square zip button 1 is stopped, also can it be rejected in the pocket by above-mentioned action, its result always can supply to subsequent processing to the zip button 1 that correct suspended state is arranged.

More than embodiments of the invention are illustrated, though the present invention is not limited to the foregoing description, on the technology of the present invention thought basis, can make all other patterns.

For example, in the present embodiment, the attitude that is provided with the zip button is corrected parts 43, utilize its center-of-gravity position, whole zip buttons 1 is become lie on one's side attitude fixed, be handle piece 6 below import suspention converter section 45 because such layout even omit parts 45, can not lose effect of the present invention yet.And, at this moment,, upstream side and downstream side block decontrol 47 and 48 because being set, because the zip button of various different attitudes is discharged into to bag because of obstruction, therefore do not have any problem.

And, in above embodiment, though individually be provided with second contact part material 69 of section L word shape and the flat board 66 that thereunder sets and portion's material 67,68, also can be to form, for example for the thin plate part material 76 of suspention zip button 1, can insert in the slit that forms on the part of incorporate second contact portion in these cases.Much less, in this case, second interface member 69 is not dull and stereotyped 66, portion's material 67,68, all is integral, and except that the flat board 66 of below, can carry out integratedly, and other parts 67,68 can form one with shape as shown in the figure.

By the above, if, just can be common use of zip button institute of multiple class, and reduce cost of production significantly with vibrating mass collating unit of the present invention.

Claims (3)

1. the vibration collating unit of zip button shape parts, this device is used for carrying one side to supply with to subsequent processing with predetermined state by the vibration one side zip button shape parts that dropped into torsion oscillations parts receiving vessel in large quantities, these zip button shape parts form the body that a pair of plate of certain interval at least constitutes and the handle that pivotally is installed in a side of this body constitutes by relative, it is characterized in that comprising: be fixed on towards a side of component feed direction and dip down carry the road form on the parts the linear support sector primary that predetermined space is arranged and perpendicular to linear first contact component of this holding components; Be fixed on above-mentioned conveying road form on the parts be positioned at first contact component, an above-mentioned side form linear second contact component of parts perpendicular to above-mentioned conveying road, and perpendicular to this second contact plate and its upstream side starting end from the outstanding thin plate of this second contact component; With above-mentioned handle portion below the hardware body of above-mentioned zip button shape of accumbency state below a lateral margin support by above-mentioned mounted panel; Another lateral margin and the above-mentioned first contact plate limit contact edge are carried by vibration, secondly move to second contact plate from this first contact plate, and above-mentioned another lateral margin and the second contact plate limit contact edge are carried by vibration; The outshot limit of above-mentioned thin plate is inserted in the gap of above-mentioned a pair of body the limit and is carried, above-mentioned thin-plate member downstream little by little becomes plumbness, and the parts of above-mentioned zip button shape are suspended on this thin-plate member to next operation conveying with predetermined state.

2. the vibration collating unit of zip button shape parts, this device is characterised in that and comprises by horizontal track of the linear with U-lag and the unit status rectification portion that forms with the conveyor surface that dips down to the footpath of above-mentioned parts receiving vessel foreign side that the end of downstream side of track forms, being fixed on of its downstream have a down dip towards a side direction of component feed direction carrying the road form on the parts the linear holding components that predetermined space is arranged and perpendicular to linear first contact component of this holding components; Above-mentioned conveying road forms linear second contact component perpendicular to above-mentioned conveying road formation parts of an above-mentioned side that is positioned at first contact component fixing on the parts, reaches the thin plate of giving prominence to from this second contact component perpendicular to its upstream side starting end of this second contact plate; Make the discharge end of the helical track that above-mentioned zip button shape parts begin to form from the center bottom of above-mentioned parts receiving vessel make above-mentioned zip buckle import above-mentioned horizontal track down and its side is fallen in the accumbency state, when the downstream end by above-mentioned horizontal track leads above-mentioned conveyor surface with the zip button, because the action of gravity of whole center of gravity, make its become with above-mentioned handle portion below the hardware body of above-mentioned zip button shape of accumbency state below a lateral margin support by above-mentioned mounted panel; Another lateral margin and the above-mentioned first contact plate limit contact edge are carried by vibration, secondly move to second contact plate from this first contact plate, and above-mentioned another lateral margin and the second contact plate limit contact edge are carried by vibration; The outshot limit of above-mentioned thin plate is inserted in the gap of above-mentioned a pair of body the limit and is carried, above-mentioned thin-plate member downstream little by little becomes plumbness, and the parts of above-mentioned zip button shape are suspended on this thin-plate member to next operation conveying with predetermined state.

3. vibrating mass collating unit as claimed in claim 1 or 2, it is characterized in that comprising: first parts that are located at the downstream of above-mentioned lamellar parts block decontrol, the parts detecting device on the desired location that second parts in its downstream block decontrol and block decontrol near second parts; By this parts detecting device more than first schedule time, when detecting zip button shape parts continuously and more than second schedule time, not detecting zip button shape parts continuously, the drive division of above-mentioned torsion oscillations is stopped, block decontrol and drive above-mentioned first, second parts in the 3rd schedule time, then removed the obstruction of zip button shape parts, stop driving then, drive above-mentioned torsion oscillations drive division once more above-mentioned first, second parts obstruction decontrol.

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