CN206997100U - A kind of contact pin straightening mechanism of double vibrating disks - Google Patents

Abstract

The utility model discloses a kind of contact pin straightening mechanism of double vibrating disks, solves the common head size shape all same due to big contact pin and small contact pin, the method for being used to limit workpiece height using baffle plate, the problem of effect of screening contact pin can not be played, its drip irrigation device is, including for separating the first vibrating disk of big contact pin and separating the second vibrating disk of small contact pin, first vibrating disk is fixedly arranged above the first screening rail, second vibrating disk is fixedly arranged above the second screening rail, the first screening rail or the second screening rail are equipped with the gap for making big contact pin or small contact pin depart from the first screening rail or the second screening rail in the presence of gravity and vibration, reach the purpose for screening big contact pin and small contact pin.

Description

A kind of contact pin straightening mechanism of double vibrating disks

Technical field

A kind of vibrating disk technical field is the utility model is related to, it is related to a kind of contact pin straightening mechanism of double vibrating disks.

Background technology

Vibrating disk is the auxiliary feeding equipment of a kind of automatic assembling or automatic processing machine.It can be various products in an orderly manner Arrangement comes out, and coordinates automatic assembly equipment to assemble at each position of product as a complete product, or coordinates certainly Dynamic processing equipment completes the processing to workpiece.

Publication No. CN103991685A Chinese invention patent file is now retrieved, title is three rail vibrating disks, Discharging opening end described in its specification is connected with three tracks, and anti-stacking baffle plate is provided with track, and anti-stacking baffle plate is used In the height of limitation workpiece, play a part of screening workpiece, anti-stacking and adjustment workpiece posture.

A kind of existing contact pin on moulding with vibrating disk to the contact pin, it is necessary to be screened and to adjust posture laggard Enter next station, the contact pin there are two kinds of different specifications, and referring to Fig. 1, including small contact pin 3 and big contact pin 4, its medium and small contact pin 3 wraps Head 32 and small pin 31 are included, big contact pin 4 includes head 32 and large needle 41, the size shape of head 32 of its medium and small contact pin 3 and big contact pin 4 Shape all same, large needle 41 is than small 31 big 1.3 times of pin.Because two contact pin shape sizes are more close, so worker is in work When often mix up, by contact pin be put into mistake vibrating disk in, large and small contact pin by vibrating disk enter mistake station, lead Cause waste product occur in the product after injection.

But due to the head size shape all same of this product, the method for being used to limit workpiece height using baffle plate, no The effect of screening contact pin can be played, so need a kind of new technical scheme to solve this problem.

Utility model content

The purpose of this utility model is to provide a kind of contact pin straightening mechanism of double vibrating disks, has and screens big contact pin and small insert The advantages of pin.

Above-mentioned technical purpose of the present utility model technical scheme is that：A kind of double vibrating disks are inserted Pin straightening mechanism, including for separating the first vibrating disk of big contact pin and separating the second vibrating disk of small contact pin, described first shakes Moving plate is fixedly arranged above the first screening rail, and second vibrating disk is fixedly arranged above the second screening rail, first screening Rail or the second screening rail, which are equipped with, makes big contact pin or small contact pin depart from the first screening rail or second in the presence of gravity and vibration The gap of rail is screened, the first screening rail includes top cover rail and preceding bottom rail, and the top cover rail and preceding bottom rail are worked in coordination will be big Contact pin or small contact pin are limited between the two, and the first screening rail also includes rear bottom rail, described afterwards between bottom rail and top cover rail Connected by connecting plate, the distance of the rear bottom rail and preceding bottom rail is the large needle length of big contact pin, the top of the first screening rail The reserved room of lid rail, because simultaneously ride over will not be vibrated in preceding bottom rail and rear bottom rail when the big contact pin reaches null position Dropped with gravity, the second screening rail includes upper torsion rail and lower torsion rail, and the upper torsion rail and lower torsion rail are mutually flat Row is fixed on the top of the second vibrating disk, and the upper rail and lower torsion rail mutual cooperation of reversing makes the small pin just inlay card of small contact pin Between upper torsion rail and lower torsion rail, the upper axial-rotation for reversing rail and the lower track for reversing rail along the second vibrating disk One week, upper torsion rail and lower torsion rail were from the gradual torsion perpendicular to ground to parallel to ground, the lower torsion rail or upper torsion The outer surface of transition is fixed with the block of screening large needle.

By using above-mentioned technical proposal, unsegregated big contact pin and small contact pin are poured into the first vibrating disk and the second vibration Disk.First vibrating disk is used for separating big contact pin, and the second vibrating disk is used for separating small contact pin.Two machines use simultaneously, improve big The separating rate of contact pin and small contact pin.Due to the length of small contact pin and the length thereof of big contact pin and in different size, pass through this Two differences are screened the gap of rail by the first screening rail or second and screened in the presence of gravity and vibration；When big contact pin or Small contact pin is transported to the first screening rail, when top cover rail and preceding bottom rail cooperate big contact pin or small contact pin be limited in both it Between, now big contact pin or small contact pin difficult for drop-off first screen rail.Meanwhile big contact pin or small contact pin are sequentially entered to the first screening In rail, it is easy to process below to be screened.Big contact pin stably slides between rear bottom rail and preceding bottom rail along the first screening rail. First vibrating disk big contact pin in vibration is not susceptible to position skew.Small contact pin first screening rail sliding process in, easily by To the influence of vibration.

When the position in the room that big contact pin and small contact pin move to top cover rail, the large needle of big contact pin is located at rear bottom rail with before The upper surface of bottom rail, big contact pin are not easy to shift in the presence of vibration；The upper table of bottom rail before the small pin of small contact pin is only positioned at Face, so small contact pin easily easily shifts in the presence of vibration, and then fall out state the first screening under gravity Rail.When big contact pin and small contact pin move to the second screening rail, in the presence of the second vibrating disk, the small pin of small contact pin is from level State is changed into plumbness, and then small pin is entered and reversed between rail and lower torsion rail；And the large needle of big contact pin can not enter To between upper torsion rail and lower torsion rail, big contact pin can drop in the presence of vibration from the upper surface of the second screening rail.It is small to insert Pin can be changed into horizontality along upper torsion rail and the lower track for reversing rail in the second screening rail transport from vertical state, side Just subsequent handling handles small contact pin.During the second vibrating disk use, there may be big contact pin to enter and reverse rail with Between torsion rail.Because the length of the large needle of big contact pin is longer, block makes big contact pin between upper torsion rail and lower torsion rail Position shifts, and then in the presence of vibration, big contact pin is departed from the second screening rail.

It is of the present utility model further set, it is described first screening rail connection it is oriented its transmit raw material the first Upward Trendline and First ladder rail, the junction of the first screening rail and the first ladder rail are fixed with bearing platform, and the first ladder rail includes Upper ladder rail and downstairs rail, oriented its of the second screening rail connection transmit the second Upward Trendline and the second ladder rail of raw material.

By using above-mentioned technical proposal, big contact pin and small contact pin sequentially enter along the first Upward Trendline and the first ladder rail Into the first screening rail.Big contact pin and small contact pin are sequentially entered to the second screening rail along the second Upward Trendline and the second ladder rail In.When big contact pin and small contact pin are transported to the first screening rail from the first ladder rail, bearing platform transmits big contact pin and small contact pin State change, its big contact pin and small contact pin is set to be easier to enter in the first screening rail.

Of the present utility model further to set, the first screening rail is fixed with the first discharge nozzle for collecting big contact pin, the Two screening rails are connected with the second discharge nozzle for collecting small contact pin.

By using above-mentioned technical proposal, the big contact pin screened is collected by the first discharge nozzle, will be screened Small contact pin collected by the second discharge nozzle, improve the efficiency of collection.

Of the present utility model further to set, the first screening rail is fixed on the first blanking box for collecting the contact pin to drop Interior, the second screening rail is fixed in the second blanking box for collecting the contact pin to drop.

By using above-mentioned technical proposal, the contact pin that the first screening rail drops is fallen in the first blanking box, convenient to dropping Contact pin be collected and classify once again；The contact pin that second screening rail drops is fallen in the second blanking box, convenient to be inserted to what is dropped Pin is collected and classified once again.

Brief description of the drawings

Fig. 1 is contact pin of the prior art；

Fig. 2 is the external structure schematic diagram of double vibrating disk combinations in embodiment；

Fig. 3 is the external structure schematic diagram of the first vibrating disk in embodiment；

Fig. 4 is the structural representation of the first guide rail in embodiment；

Fig. 5 is the structural representation after the first screening rail upper end is splitted in embodiment；

Fig. 6 is the enlarged drawing at A in Fig. 4；

Fig. 7 is the enlarged drawing at B in Fig. 3；

Fig. 8 is the external structure schematic diagram of the second vibrating disk in embodiment；

Fig. 9 is the structural representation of the second guide rail in embodiment；

Figure 10 is the enlarged drawing at C in Fig. 8；

Figure 11 is the enlarged drawing at D in Fig. 9；

Figure 12 is the partial structural diagram at the second picking-up container in embodiment.

In figure：1st, the first vibrating disk；2nd, the first hopper；3rd, small contact pin；31st, small pin；32nd, syringe needle；4th, big contact pin；41st, it is big Pin；5th, the first guide rail；51st, support column；52nd, the first Upward Trendline；53rd, the first ladder rail；531st, upper ladder rail；532nd, downstairs Rail；54th, the first screening rail；541st, top cover rail；542nd, bearing platform；543rd, preceding bottom rail；544th, rear bottom rail；545th, connecting plate；6th, One blanking box；61st, the first discharge nozzle；62nd, the first material receiving port；63rd, the first half slot；7th, the second vibrating disk；71st, the second hopper； 8th, the second guide rail；81st, supporting plate；82nd, the second Upward Trendline；83rd, the second ladder rail；84th, the second screening rail；841st, upper torsion rail； 842nd, lower torsion rail；85th, block；9th, the second blanking box；91st, the second discharge nozzle；92nd, the second material receiving port；93rd, the second half slot.

Embodiment

The utility model is described in further detail below in conjunction with accompanying drawing.

This specific embodiment is only that it is not to limitation of the present utility model, ability to explanation of the present utility model Field technique personnel can make the modification of no creative contribution to the present embodiment as needed after this specification is read, but As long as all protected in right of the present utility model by Patent Law.

A kind of contact pin straightening mechanism of double vibrating disks, as shown in Fig. 2 including the first vibrating disk 1 and the second vibrating disk 7, One vibrating disk 1 is internally provided with the first hopper 2, and for placing larger product, the second vibrating disk 7 is internally provided with the second hopper 71, for placing less product.The product being placed in the first vibrating disk 1 will rotate rising along the first guide rail 5, be placed on Product in second vibrating disk 7 will rotate rising along the second guide rail 8, eventually through screening and the qualified products after adjustment posture Next station will be entered together by the first discharge nozzle 6 and the second discharge nozzle 9 respectively.

As shown in figure 3, including columnar first vibrating disk 1, the position of the top edges of the first vibrating disk 1 welds one Semicircular first blanking box 6 of outwardly convex.The first guide rail 5, the first guide rail 5 are welded with the inwall of the first vibrating disk 5 The beneath portions inserted inside the first blanking box 6 are welded with support column 51, and the other end of support column 51 is welded on the first blanking box 6 Bottom.The end of first blanking box 6 is plugged with the first discharge nozzle 61.

As shown in figure 4, the first guide rail 5 is made up of three parts, the first Upward Trendline 52, the first ladder rail are followed successively by from top to bottom 53 and first screen rail 54.The rotation of first Upward Trendline 52 welds together after rising a circle half with the first ladder rail 53, the first rank Terraced rail 53 divides for two layers, is upper ladder rail 531 and downstairs rail 532 respectively.The upper ladder rail 532 of ladder rail 531 and one turns over Weld together after half-turn with the first screening rail 54.The height that the upper rotation of ladder rail 531 rises rotates than downstairs rail 532 to be risen Height it is higher twice than the thickness of the first guide rail 5.The first screening rotation of rail 54 is connected on drawing mechanism after rising half-turn.

As shown in figure 5, it is top cover rail 541 that the first screening rail 54, which divides for three layers of upper, middle and lower, upper strata, middle level is connecting plate 545, Lower floor is made up of preceding bottom rail 543, rear bottom rail 544 and bearing platform 542.The lower section of top cover rail 541 is welded with connecting plate 545, connects rail 545 other ends are welded in rear bottom rail 544.

The distance between top cover rail 541 and preceding bottom rail 543 are the radius of a large needle 41, top cover rail 541 and rear bottom rail 544 The distance between also for the radius of large needle 41, the sky for making big contact pin 4 may be inserted between top cover rail 541 and preceding bottom rail 543 In gap.The distance between preceding bottom rail 543 and rear bottom rail 544 are shorter than the length of large needle 41 so that big contact pin 4 can ride over simultaneously before In bottom rail 543 and rear bottom rail 544.

Big contact pin 4 is moved on bearing platform 542 from the first ladder rail 53, and is continued to move along, and eventually enters into top cover rail In space between 541 and preceding bottom rail 543.Because the radius of the radius ratio large needle 41 of syringe needle 32 is big, big contact pin 4 can be stuck in top Lid rail 541 and the front end face of preceding bottom rail 543, will not overturn and drop.

As shown in fig. 6, when big contact pin 4 and small contact pin 3 are moved to the reserved room of top cover rail 541 simultaneously, inserted due to big Pin 4 can ride in preceding bottom rail 543 and rear bottom rail 544 simultaneously, so not falling out.

But the length of small contact pin 3 is shorter than the distance between preceding bottom rail 543 and rear bottom rail 544, so small contact pin 3 can only be taken In preceding bottom rail 543, because the quality of small pin 31 is bigger than syringe needle 32, therefore under gravity, small contact pin 3 can be from preceding bottom rail Space upset between 543 and rear bottom rail 544 is dropped.

Therefore, only big contact pin 4 can screen rail 54 by first, and small contact pin 3 can not be by serving and retaining big contact pin 4 and filter out the effect of small contact pin 3.

If the large needle 41 of big contact pin 4 is too short, similarly small contact pin 3 also can be from the sky between preceding bottom rail 543 and rear bottom rail 544 Gap upset is dropped, so only qualified big contact pin 4 could pass through the first screening rail 54.

In summary, only qualified big contact pin 4 could pass through the first screening rail 54.

As shown in fig. 7, the end of the first screening rail 54 is welded with the first material receiving port 62, the first material receiving port 62 is connected to first Half slot 63, when big contact pin 4 is moved to the end of the first screening rail 54, the first material receiving port 62 can be fallen into, and in Action of Gravity Field Lower sliding downwards, the first discharge nozzle 61 is slipped into from the first half slot 63, so that with syringe needle 32 in posture upper and that large needle 41 is under Into next station, the function of adjusting posture is realized.

As shown in figure 8, including columnar second vibrating disk 7, the position of the top edges of the second vibrating disk 7 welds one Semicircular second blanking box 9 of outwardly convex.The second guide rail 8, the second guide rail 8 are welded with the inwall of the second vibrating disk 7 The part for inserting the second blanking box 9 is the second screening rail 84, and supporting plate 55, supporting plate 55 are welded in the bottom of the second screening rail 84 Bottom be welded on the bottom of the second blanking box 9, the second screening rail 84 is played a supportive role.

As shown in figure 9, the second guide rail 8 is made up of the second Upward Trendline 82, the second ladder rail 83 and the second screening rail 84.Second The number of plies of ladder rail 83 increases to 4 layers, can at most install 4 group of second screening rail 84, can improve the second vibrating disk 7 Operating efficiency.

Second screening rail 84 is made up of upper torsion rail 841 and lower torsion rail 842, rises half-turn in the second screening rotation of rail 84 While overturn 90 degree.The position that second screening rail 84 welds together with the second ladder rail 83 is is vertically arranged, the second sieve The position for selecting the material receiving port 92 of rail 84 and second to weld together is horizontally disposed.

As shown in Figure 10, it is upper to reverse the diameter that the distance between rail 841 and lower torsion rail 842 are one small pin 31, when small When contact pin 3 is moved on the second screening rail 84 with the second ladder rail 83, because the second screening rail 84 is now to be vertically arranged, Reversed so small contact pin 3 may be inserted into rail 841 and the lower space reversed between rail 842, because the diameter of syringe needle 32 is than upper It is big to reverse the distance between rail 841 and lower torsion rail 842, so small contact pin 3 is not fallen out.

Because the diameter of large needle 41 is bigger than the distance between upper torsion rail 841 and lower torsion rail 842, big contact pin 4 is not It can be reversed in insertion in rail 841 and the lower space reversed between rail 842, big contact pin 4 will be floated on the second screening rail 84.When big When contact pin 4 has other contact pins to collide big contact pin 4 below, big contact pin 4 will be hit.

With reference to Figure 11, when small contact pin 3 moves to the position shown in Figure 11, the second screening rail 84 has overturn 45 degree, Now reach the big contact pin 4 of shown position to will be unable to continue the surface for staying in the second screening rail 84, all drop.

Claims (4)

1. a kind of contact pin straightening mechanism of double vibrating disks, it is characterised in that including the first vibrating disk for separating big contact pin (4) (1) and the small contact pin (3) of separation the second vibrating disk (7), first vibrating disk (1) is fixedly arranged above the first screening rail (54), second vibrating disk (7) is fixedly arranged above the second screening rail (84), the first screening rail (54) or the second screening Rail (84), which is equipped with, makes big contact pin (4) or small contact pin (3) depart from the first screening rail (54) or the in the presence of gravity and vibration The gap of two screening rails (84), the first screening rail (54) include top cover rail (541) and preceding bottom rail (543), the top cover rail (541) work in coordination with preceding bottom rail (543) and be limited in big contact pin (4) or small contact pin (3) between the two, the first screening rail (54) also include rear bottom rail (544), be connected after described between bottom rail (544) and top cover rail (541) by connecting plate (545), institute The distance for stating rear bottom rail (544) and preceding bottom rail (543) is large needle (41) length of big contact pin (4), the first screening rail (54) The reserved room of top cover rail (541), when the big contact pin (4) reaches null position due to ride over simultaneously preceding bottom rail (543) and Vibrated it will not be dropped afterwards in bottom rail (544) with gravity, the second screening rail (84) includes upper torsion rail (841) and lower torsion Rail (842), the upper torsion rail (841) and lower torsion rail (842) are parallel to each other and are fixed on the top of the second vibrating disk (7), institute Stating torsion rail (841) and lower torsion rail (842) mutual cooperation makes small pin (31) the just inlay card of small contact pin (3) in upper torsion rail (841) between lower torsion rail (842), upper rail (841) and the lower track for reversing rail (842) reversed is along the second vibrating disk (7) axial-rotation one week, it is upper torsion rail (841) and it is lower reverse rail (842) from the gradual torsion perpendicular to ground to parallel to Ground, the lower torsion rail (842) or the upper outer surface for reversing rail (841) are fixed with the block (85) of screening large needle (41).

A kind of 2. contact pin straightening mechanism of double vibrating disks according to claim 1, it is characterised in that the first screening rail (54) connect oriented its and transmit the first Upward Trendline (52) and the first ladder rail (53) of raw material, described first screens rail (54) and the The junction of one ladder rail (53) is fixed with bearing platform (542), the first ladder rail (53) include upper ladder rail (531) and under Ladder rail (532), oriented its of the second screening rail (84) connection transmit the second Upward Trendline (82) and the second ladder rail of raw material (83)。

A kind of 3. contact pin straightening mechanism of double vibrating disks according to claim 1, it is characterised in that the first screening rail (54) it is fixed with the first discharge nozzle (61) for collecting big contact pin (4), the second screening rail (84), which is connected with, collects the of small contact pin (3) Two discharge nozzles (91).

A kind of 4. contact pin straightening mechanism of double vibrating disks according to claim 1, it is characterised in that the first screening rail (54) it is fixed in the first blanking box (6) for collecting the contact pin to drop, the second screening rail (84), which is fixed on, collects what is dropped In the second blanking box (9) of contact pin.