CN205222133U - Automatic skeleton feed bin that divides material - Google Patents

Abstract

The utility model provides an automatic skeleton feed bin that divides material, including slide (64) and backplate (61), set up feeding slide (65) and a plurality of ejection of compact slide (62) on slide (64), ejection of compact slide (62) all are connected with feeding slide (65) and are link up, set up a plurality of branches material protruding (68) on feeding slide (65), divide material protruding (68) and ejection of compact slide (62) relative, backplate (61) are connected fixedly with slide (64) and are covered feeding slide (65) and ejection of compact slide (62). Utilize the utility model discloses can be so that get into skeleton in the skeleton feed bin along feeding slide slip in -process, bump and change the direction of motion through skeleton and branch material arch on the feeding slide to can enter into and expect protruding relative ejection of compact slide with this branch, all fill sufficient skeleton in all ejection of compact slides in the skeleton feed bin, realize well that expect automatic branch of the skeleton in the entering skeleton feed bin.

Description

A kind of skeleton feed bin of automatic feed dividing

Technical field

The utility model relates to a kind of skeleton feed bin, especially relates to the skeleton feed bin of a kind of automatic feed dividing being applied to automatic skeleton loading machine.

Background technology

For the production of sealing member such as annular gas seals, owing to wherein including skeleton, therefore, the mounting process of the skeleton in sealing member is inevitably related to.Skeleton in conventional sealing member as shown in figure 18, is provided with through hole in portion of frame center.

For the filling operation of skeleton 29 as shown in figure 18, traditional way relies on the artificial skeleton pickup mounting tool 5 be one by one directly placed in successively by skeleton 29 as shown in Figure 16, Figure 17 completely, not only operating speed is slow for this pure manual work mode, skeleton filling operating efficiency is low, and the labour intensity of operation employee is also larger; In addition, when actual production, carry out putting operation because operation employee needs to touch skeleton 29 with hand, therefore, as easy as rolling off a log pollution skeleton, thus reduce the adhesive property of skeleton, and then bring hidden danger of quality to sealing member product, have impact on the overall quality of sealing member.

If when utilizing automatic skeleton loading machine to carry out the filling operation of skeleton, skeleton to be loaded first is temporarily stored in skeleton feed bin usually, then flow out skeleton feed bin from the discharging slideway skeleton feed bin.Therefore, when discharging installation of slide track some on skeleton feed bin, if the skeleton that can be assigned to some in every bar discharging slideway can not be ensured well, filling operating efficiency and the operation quality of skeleton will be had influence on.

Utility model content

The technical problems to be solved in the utility model is: for prior art Problems existing, a kind of skeleton feed bin of automatic feed dividing is provided, enable the skeleton automatic feed dividing entering skeleton feed bin in discharging slideway, to improve filling operating efficiency and the operation quality of skeleton.

The technical problems to be solved in the utility model realizes by the following technical solutions: a kind of skeleton feed bin of automatic feed dividing, comprise slide plate and backboard, slide plate is offered charging slideway and some discharging slideways, described discharging slideway is all connected through with charging slideway, charging slideway arranges some sub-materials protruding, described sub-material is protruding relative with discharging slideway, and described backboard and slide plate are connected and fixed and cover charging slideway and discharging slideway.

Preferably, some described discharging slideways are parallel to each other, and the angle between described charging slideway and discharging slideway is 20-60 degree.

Preferably, described sub-material is protruding to be linked in sequence forming V-shape projection by the first curved transition sections, the second curved transition sections, the 3rd curved transition sections.

Preferably, the first described curved transition sections radius is 5-15mm.

Preferably, the second described curved transition sections radius is 3-15mm.

Preferably, the 3rd described curved transition sections radius is 15-40mm.

Preferably, described slide plate is offered charging porthole, described charging porthole communicates with charging slideway.

Preferably, described slide plate is offered discharging porthole, described discharging porthole communicates with discharging slideway.

Preferably, spacing otch offered by described backboard, described spacing otch is relative with discharging slideway.

Preferably, be connected and fixed by attaching screw between described backboard and slide plate.

Compared with prior art, the beneficial effects of the utility model are: enter charging slideway in skeleton feed bin at skeleton and in the process of sliding along charging slideway, after the sub-material projection on skeleton and charging slideway collides, to sense of motion be changed and enter into relative discharging slideway protruding with this sub-material, the rest may be inferred, until all fill enough skeletons in discharging slideways all in skeleton feed bin, thus achieve the automatic feed dividing of the skeleton entered in skeleton feed bin well; Due to all enough skeletons can be filled in all discharging slideways of skeleton feed bin, therefore, the same batch of skeleton flowed out from skeleton feed bin can have several, and non-interference between several skeletons flowed out, thus effectively can improve filling operating efficiency and the operation quality of skeleton.

Accompanying drawing explanation

Fig. 1 is the front view of the skeleton feed bin of a kind of automatic feed dividing of the utility model.

Fig. 2 is the birds-eye view of the skeleton feed bin of a kind of automatic feed dividing of the utility model.

Fig. 3 is the lateral plan of the skeleton feed bin of a kind of automatic feed dividing of the utility model.

Fig. 4 is the front view of the backboard in Fig. 3.

Fig. 5 is the lateral plan of the backboard in Fig. 3.

Fig. 6 is the front view of the slide plate in Fig. 3.

Fig. 7 is the birds-eye view of the slide plate in Fig. 3.

Fig. 8 is the lateral plan of the slide plate in Fig. 3.

Fig. 9 is the partial enlarged drawing at B place in Fig. 6.

Figure 10 is a kind of front view of automatic skeleton loading machine.

Figure 11 is a kind of birds-eye view of automatic skeleton loading machine.

Figure 12 is a kind of left view of automatic skeleton loading machine.

Figure 13 is the partial enlarged drawing at A place in Figure 10.

Figure 14 is the front view of the supporting plate in Figure 10.

Figure 15 is the birds-eye view of the supporting plate in Figure 10.

Figure 16 is the front view of the skeleton pickup mounting tool (band skeleton) in Figure 10.

Figure 17 is the birds-eye view of the skeleton pickup mounting tool (band skeleton) in Figure 10.

Figure 18 is the enlarged diagram of the skeleton in Figure 16 or Figure 17.

Figure 19 is a kind of shown in Figure 10 electric control system schematic diagram (embodiment one) of automatic skeleton loading machine.

Figure 20 is a kind of shown in Figure 10 electric control system schematic diagram (embodiment two) of automatic skeleton loading machine.

Figure middle part product token name claims: 1-operation post, 2-slide block, 3-first inductor, 4-supporting plate, 5-skeleton pickup mounting tool, 6-skeleton feed bin, 7-bearing pin, 8-axle sleeve, 9-second inductor, 10-the 3rd inductor, 11-first cylinder, 12-cylinder stroke locating piece, 13-skeleton delivery track, 14-skeleton ranking jarring machine, 15-electric cabinet, 16-second cylinder, 17-the 4th inductor, 18-first pillar, 19-second pillar, 20-line slideway, 21-control panel, 22-counts inductor, 23-electromagnetic lock, 24-feed bin baffle plate, 25-rotating shaft, 26-mount pad, 27-connecting rod, 28-retracing spring, 29-skeleton, 41-installs registration mast, 42-framework location pin, 51-mounting-positioning holes, 52-framework location hole, 60-connecting bore, 61-backboard, 62-discharging slideway, the spacing otch of 63-, 64-slide plate, 65-charging slideway, 66-attaching screw, 67-charging porthole, 68-sub-material is protruding, 69-discharging porthole, 681-first curved transition sections, 682-second curved transition sections, 683-the 3rd curved transition sections.

Detailed description of the invention

In order to make the purpose of this utility model, technical scheme and advantage clearly understand, below in conjunction with the drawings and specific embodiments, the utility model is described in detail.Should be appreciated that specific embodiment described herein only in order to explain the utility model, and be not used in restriction the utility model.

The skeleton feed bin 6 of a kind of automatic feed dividing as shown in Figure 1, Figure 2, Figure 3 shows, mainly comprises slide plate 64 and backboard 61, is connected and fixed between described backboard 61 and slide plate 64 by attaching screw 66.The structure of described backboard 61 as shown in Figure 4, Figure 5, backboard 61 is offered the spacing otch 63 of some U-shapeds be parallel to each other.The concrete structure of described slide plate 64 is as shown in Fig. 6, Fig. 7, Fig. 8, slide plate 64 is offered connecting bore 60, charging slideway 65 and some the discharging slideways 62 be parallel to each other, described discharging slideway 62 is all connected through with charging slideway 65, and described backboard 61 covers charging slideway 65 and discharging slideway 62.Described charging slideway 65 also arranges some sub-material projections 68 be arranged in order, and described sub-material projection 68 is relative with discharging slideway 62.

When falling into charging slideway 65 when skeleton and slide along charging slideway 65, after itself and sub-material projection 68 collide, will sense of motion be changed and enter into the discharging slideway 62 relative with this sub-material projection 68.Specifically: that nearest for distance charging slideway 65 arrival end sub-material projection 68 is defined as the 1st sub-material protruding, pusher successively, 2nd sub-material is protruding, it is protruding that distance charging slideway 65 arrival end that sub-material projection 68 is farthest defined as N sub-material, correspondence is with it, the 1st discharging slideway is defined as by with the protruding relative discharging slideway 62 of the 1st sub-material, pusher successively, 2nd discharging slideway,, be defined as N discharging slideway with the protruding relative discharging slideway 62 of N sub-material, N be here be greater than 1 natural number.Therefore, at skeleton in charging slideway 65 sliding process, first it collide with the 1st sub-material projection, then changes sense of motion and enter into the 1st relative discharging slideway protruding with the 1st sub-material.After filling enough skeletons in the 1st discharging slideway, skeleton in follow-up inflow charging slideway 65 is owing to being subject to the 1st sub-material projection and being in the dual collision of the skeleton in the 1st discharging slideway and having crossed the 1st sub-material projection, and continue to slide along charging slideway 65, until collide with the 2nd sub-material projection, then change sense of motion and enter into the 2nd relative discharging slideway protruding with the 2nd sub-material, the rest may be inferred, until all fill enough skeletons in discharging slideways 62 all in skeleton feed bin 6, thus achieve the automatic feed dividing of the skeleton entered in skeleton feed bin 6.

In order to improve the automatic feed dividing efficiency of the skeleton in skeleton feed bin 6, as shown in Figure 6, some the discharging slideways 62 being arranged in skeleton feed bin 6 are arranged in parallel, angle between described charging slideway 65 and discharging slideway 62 is 20-60 degree, according to the difference of skeleton specification, the angle between charging slideway 65 and discharging slideway 62 is chosen for 20 degree, 30 degree, 40 degree, 50 degree, 60 degree usually.Meanwhile, as shown in Figure 9, the V-arrangement described sub-material projection 68 being designed to be linked in sequence by the first curved transition sections 681, second curved transition sections 682, the 3rd curved transition sections 683 is protruding.Wherein, according to the difference of skeleton dimensions, the first described curved transition sections 681 radius is chosen for R5mm, R10mm, R15mm usually, the second described curved transition sections 682 radius is chosen for R3mm, R6mm, R10mm, R12mm, R15mm usually, and the 3rd described curved transition sections 683 radius is chosen for R15mm, R20mm, R25mm, R30mm, R35mm, R40mm usually.Slide plate 64 in described skeleton feed bin 6 adopts aluminum plate, not only handling ease, and lightweight, is conducive to the kinematic dexterity improving skeleton feed bin 6.Described backboard 61 adopts stainless steel sheet, can improve its rigidity, prevents distortion serious, can increase again the slip smoothness of skeleton in skeleton feed bin 6 simultaneously, improves the sub-material efficiency of skeleton.

When the filling operation of the skeleton 29 carried out as shown in figure 18, above-mentioned skeleton feed bin 6 can be installed on automatic skeleton loading machine.The automatic skeleton loading machine of one as shown in Figure 10, Figure 11, Figure 12, mainly comprise operation post 1, supporting plate 4, skeleton feed bin 6 and skeleton ranking jarring machine 14, described skeleton ranking jarring machine 14 exit end is connected through with between skeleton feed bin 6 arrival end by skeleton delivery track 13, operation post 1 is fixedly connected with the second pillar 19, by bearing pin 7 activity pivot joint between described skeleton feed bin 6 and the second pillar 19, can rotate relative to the second pillar 19 around bearing pin 7 to make skeleton feed bin 6.The first cylinder 11 is connected with between skeleton feed bin 6 arrival end on the second pillar 19 top, described skeleton feed bin 6 is flexibly connected with the telescopic movable rod of the first cylinder 11 by connecting bore 60, and the charging slideway 65 on described skeleton feed bin 6 is connected through with skeleton delivery track 13.Form triangular structure by the second pillar 19, skeleton feed bin 6, first cylinder 11, skeleton feed bin 6 can be obliquely installed relative to supporting plate 4, and skeleton feed bin 6 arrival end is higher than exit end.Described supporting plate 4 is positioned at below skeleton feed bin 6 exit end, and its concrete structure, as shown in Figure 14, Figure 15, supporting plate 4 is fixedly connected with and installs registration mast 41 and framework location pin 42.As shown in Figure 10, be fixedly connected with slide block 2 bottom described supporting plate 4, operation post 1 is fixedly connected with line slideway 20, described slide block 2 and line slideway 20 pivot bush unit, meanwhile, described slide block 2 is fixedly connected with the telescopic movable rod of the second cylinder 16, slide block 2 can be driven to make horizontal linear along line slideway 20 slide by the second cylinder 16, thus make supporting plate 4 relative to skeleton feed bin 6 exit end horizontal rectilinear motion, supporting plate 4 can be booked from the skeleton of skeleton feed bin 6 outflow as far as possible.

In order to ensure operation continuity, improve operating efficiency, typically use skeleton pickup mounting tool as shown in Figure 16, Figure 17 5 and supporting plate 4 with the use of.Described skeleton pickup mounting tool 5 offers mounting-positioning holes 51 and framework location hole 52, when skeleton pickup mounting tool 5 is placed on after on supporting plate 4, described mounting-positioning holes 51 coordinates with installation registration mast 41, described framework location hole 52 coordinates with framework location pin 42, skeleton pickup mounting tool 5 certain length is stretched out on described framework location pin 42 top, can hook the skeleton 29 dropped on skeleton pickup mounting tool 5 to facilitate framework location pin 42.

Skeleton 29 to be loaded is put into skeleton ranking jarring machine 14, start skeleton ranking jarring machine 14, make skeleton 29 to be loaded can enter into the charging slideway 65 of skeleton feed bin 6 along skeleton delivery track 13, and slide along charging slideway 65, last sub-material is in each discharging slideway 62.For the ease of check in time in charging slideway 65, discharging slideway 62 skeleton flowing, filling situation, slide plate 64 is offered charging porthole 67 and discharging porthole 69, described charging porthole 67 communicates with charging slideway 65, and described discharging porthole 69 communicates with discharging slideway 62, as shown in Figure 6.In addition, can also be blown to charging slideway 65 by charging porthole 67, to improve the sliding velocity of skeleton 29.Because skeleton feed bin 6 is obliquely installed relative to supporting plate 4, and skeleton feed bin 6 arrival end is higher than exit end, therefore, the skeleton 29 entered in skeleton feed bin 6 skids off frame material storehouse 6 under self gravitation effect, and fall on skeleton pickup mounting tool 5, hooked the skeleton 29 dropped on skeleton pickup mounting tool 5 by framework location pin 42, the filling location of skeleton 29 can be realized, thus skeleton 29 play everywhere on skeleton pickup mounting tool 5 can be avoided, ensure that the order filling of skeleton 29.

In order to make skeleton 29 can be fitly, skid off from skeleton feed bin 6 in an orderly manner and fall on skeleton pickup mounting tool 5, as shown in figure 13, feed bin baffle plate 24 can be set at skeleton feed bin 6 exit end, rotating shaft 25, mount pad 26 and retracing spring 28, described mount pad 26 is fixedly mounted on the upside of skeleton feed bin 6 exit end, described rotating shaft 25 to be connected across between two mount pads 26 and to form relatively turnable flexible connection with mount pad 26, described feed bin baffle plate 24 links into an integrated entity with rotating shaft 25, described rotating shaft 25 is fixedly connected with connecting rod 27 simultaneously, described retracing spring 28 is connected and fixed with connecting rod 27.Therefore, described feed bin baffle plate 24, by rotating shaft 25 and skeleton feed bin 6 composition activity pin-jointed structure, makes feed bin baffle plate 24 can rotate relative to skeleton feed bin 6 exit end, and resets under retracing spring 28 acts on.

Coordinate retracing spring 28 can carry out ranking to the skeleton 29 of skeleton feed bin 6 exit end by feed bin baffle plate 24, to ensure that skeleton 29 fitly in a row skids off skeleton feed bin 6, also can control the rate of outflow of skeleton 29 simultaneously, control supporting plate 4 by the second cylinder 16 again and make horizontal rectilinear motion relative to skeleton feed bin 6 exit end, just can make the skeleton 29 that skids off from skeleton feed bin 6 by row successively automatic putting on skeleton pickup mounting tool 5, until the skeleton 29 on skeleton pickup mounting tool 5 all forces home, thus achieve the continuous of skeleton 29, rapid reloading operation, dramatically reduce the labour intensity of operation employee, improve the filling operating efficiency of skeleton 29, and, due in whole filling skeleton operation process, operation employee manually need not directly contact skeleton 29, thus completely avoid operation employee and touch the skeleton migratory stain that causes of skeleton 29 with hand, farthest ensure that the adhesive property of skeleton 29, be conducive to eliminating skeleton 29 because of not bonding brought hidden danger of quality, finally significantly can promote the quality of the sealing member product using skeleton 29.

Accurately can be socketed with the framework location pin 42 on supporting plate 4 to make the skeleton 29 dropped on skeleton pickup mounting tool 5, and avoid moving interference between the backboard 61 on skeleton feed bin 6 and the framework location pin 42 on supporting plate 4, as shown in Figure 4, backboard 61 offers the spacing otch 63 of some U-shapeds be parallel to each other, and described spacing otch 63 is relative one by one with discharging slideway 62, as shown in Figure 1.

In order to improve the automated job level of skeleton loading machine further, save human cost, and then improve filling operating efficiency and the filling quality of skeleton 29, as shown in Figure 10, Figure 11, operation post 1 is fixedly connected with the first pillar 18, P place on the first pillar 18, Q place fixedly mount the 3rd inductor 10, second inductor 9 respectively, F place on operation post 1, E place fixedly mount the first inductor 3, the 4th inductor 17 respectively, skeleton delivery track 13 is installed counting inductor 22, skeleton ranking jarring machine 14 installs electromagnetic lock 23.As shown in figure 19, described first inductor 3 is electrically connected with the first relay, described first relay is electrically connected with the first electromagnetic valve, described second inductor 9 is electrically connected with the second relay, described second relay is electrically connected with the second electromagnetic valve, described 3rd inductor 10 is electrically connected with the 3rd relay, described 3rd relay is electrically connected with the 3rd electromagnetic valve, described 4th inductor 17 is electrically connected with the 4th relay, described 4th relay is electrically connected with the 4th electromagnetic valve, the second described electromagnetic valve, 3rd electromagnetic valve is connected with the first cylinder 11 respectively, the first described electromagnetic valve, 4th electromagnetic valve is connected with the second cylinder 16 respectively.Described electromagnetic lock 23 is electrically connected with the 4th relay, photoelectric switch respectively, and described photoelectric switch is electrically connected with the 6th relay, and described skeleton ranking jarring machine 14 is electrically connected with the 6th relay.Described counting inductor 22 is electrically connected with the 5th relay, and described 5th relay is electrically connected with counting machine, forms skeleton counting unit by the counting inductor 22 be electrically connected successively, the 5th relay, counting machine.Wherein, the first described relay, the second relay, the 3rd relay, the 4th relay, the 5th relay, the 6th relay, the first electromagnetic valve, the second electromagnetic valve, the 3rd electromagnetic valve, the 4th electromagnetic valve, counting machine are all installed concentratedly in electric cabinet 15, respectively the first inductor 3, second inductor 9, the 3rd inductor 10, the 4th inductor 17 are powered by unified power supply, corresponding master cock is installed concentratedly on the control panel 21 be positioned at outside operation post 1, with the operation of convenient working personnel.

Described first cylinder 11, second pillar 19 and skeleton feed bin fluctuating ECU (Electrical Control Unit) form the fluctuating micromatic setting of skeleton feed bin 6, skeleton feed bin fluctuating ECU (Electrical Control Unit) wherein comprise be electrically connected successively the second inductor 9, second relay, the second electromagnetic valve and the 3rd inductor 10 be electrically connected successively, the 3rd relay, the 3rd electromagnetic valve; As shown in Figure 10, described skeleton feed bin 6 is by bearing pin 7 and the second pillar 19 activity pivot joint, described first cylinder 11 telescopic movable rod is flexibly connected with skeleton feed bin 6 arrival end, triangular structure is formed by the second pillar 19, skeleton feed bin 6, first cylinder 11, described second inductor 9, the 3rd inductor 10 lay respectively at the upper and lower both sides of skeleton feed bin 6, can rotate to make skeleton feed bin 6 around bearing pin 7 between the second inductor 9, the 3rd inductor 10.In order to ensure the rotation accuracy rate of skeleton feed bin 6, cylinder stroke locating piece 12 can be set on the telescopic movable rod of the first cylinder 11, as shown in Figure 10.Pivot bush unit axle sleeve 8 outside bearing pin 7, described axle sleeve 8 is fixedly connected with the second pillar 19, can be alleviated the wearing and tearing of bearing pin 7 by axle sleeve 8, and it is smooth and easy to ensure that skeleton feed bin 6 rotates.Described second cylinder 16 and the first inductor 3, first relay, the first electromagnetic valve and the 4th inductor 17 be electrically connected successively that are electrically connected successively, the 4th relay, the 4th electromagnetic valve form the positioning drive mechanisms of supporting plate 4, described supporting plate 4 driven by the second cylinder 16 and between E point, F point moving linearly, described first inductor 3, the 4th inductor 17 are in the two ends of supporting plate 4 movement travel respectively.

When the filling operation carrying out skeleton 29, first by skeleton ranking jarring machine 14, skeleton 29 to be loaded can have been sorted, and by skeleton delivery track 13, skeleton 29 is delivered in skeleton feed bin 6, after calculating the filling quantity of skeleton 29, skeleton ranking jarring machine 14 can be controlled and quit work.Then, control the first cylinder 11 action, and stop when making skeleton feed bin 6 be clockwise to Q point, now, skeleton feed bin 6 exit end is upturned relative to supporting plate 4, controls the second cylinder 16 action, makes supporting plate 4 together with skeleton pickup mounting tool 5 from F point, and smoothly by skeleton feed bin 6 exit end, until stop when moving to E point.After supporting plate 4 is smoothly through skeleton feed bin 6 exit end together with skeleton pickup mounting tool 5, the action of control first cylinder 11 can be passed through, skeleton feed bin 6 is rotated counterclockwise stop to during P point, to make to keep suitable Vertical dimension spacing between skeleton pickup mounting tool 5 and skeleton feed bin 6 exit end, ensure that the skeleton 29 flowed out from skeleton feed bin 6 can stably be positioned at skeleton pickup mounting tool 5.Finally, control the second cylinder 16 counteragent, supporting plate 4 is moved from E point to F point together with skeleton pickup mounting tool 5, push the feed bin baffle plate 24 on skeleton feed bin 6 open when the skeleton 29 of first row in the discharging slideway 62 being in skeleton feed bin 6 and skid off skeleton feed bin 6 exit end, and drop into after on skeleton pickup mounting tool 5, namely hooked by the framework location pin 42 of first row on supporting plate 4, thus realize the first round and be positioned in skeleton pickup mounting tool 5 from the skeleton 29 that skeleton feed bin 6 flows out, after the skeleton 29 of this first round forces home, described feed bin baffle plate 24 resets under the effect of retracing spring 28.

Described second cylinder 16 drives supporting plate 4 to continue to move to F point together with skeleton pickup mounting tool 5, push the feed bin baffle plate 24 on skeleton feed bin 6 open when the skeleton 29 of second row in the discharging slideway 62 being in skeleton feed bin 6 and skid off skeleton feed bin 6 exit end, and drop into after on skeleton pickup mounting tool 5, namely hooked by the framework location pin 42 of second row on supporting plate 4, thus realize second take turns from skeleton feed bin 6 flow out skeleton 29 be positioned in skeleton pickup mounting tool 5, after this second skeleton of taking turns 29 forces home, described feed bin baffle plate 24 resets under the effect of retracing spring 28.So repeatedly, until stop when supporting plate 4 moves to F point together with skeleton pickup mounting tool 5, take off skeleton pickup mounting tool 5, the skeleton 29 of marshalling can be put into the production corresponding seal mold completing sealing member.Owing to offering the spacing otch 63 of some U-shapeds be parallel to each other on the exit end of skeleton feed bin 6, and spacing otch 63 is relative one by one with discharging slideway 62, therefore, after the framework location pin 42 on supporting plate 4 enters spacing otch 63, the skeleton 29 flowed out from discharging slideway 62 can promptly be socketed with framework location pin 42, thus ensure that promptness, accuracy that the skeleton 29 flowed out from skeleton feed bin 6 is socketed with the framework location pin 42 supporting plate 4, efficiently avoid between skeleton 29 and framework location pin 42 and move interference.

Above-mentioned automatic skeleton loading machine can also cancel the first above-mentioned relay, the second relay, the 3rd relay, the 4th relay and the 5th relay, and adopt PLC to control, its concrete control circuit structure as shown in figure 20, the first described inductor 3, second inductor 9, the 3rd inductor 10, the 4th inductor 17 and counting inductor 22 and electromagnetic lock 23 are all electrically connected with PLC input end, and the first described electromagnetic valve, the second electromagnetic valve, the 3rd electromagnetic valve, the 4th electromagnetic valve and counting machine, photoelectric switch are all electrically connected with PLC mouth; Described second electromagnetic valve, the 3rd electromagnetic valve are connected with the first cylinder 11 respectively, and described first electromagnetic valve, the 4th electromagnetic valve are connected with the second cylinder 16 respectively, and described photoelectric switch, the 6th relay, skeleton ranking jarring machine 14 are electrically connected successively.The positioning drive mechanisms of supporting plate 4 is constituted by the first inductor 3, first electromagnetic valve, the 4th inductor 17, the 4th electromagnetic valve and the second cylinder 16 and PLC, described first inductor 3, the 4th inductor 17 are separately positioned on supporting plate 4 movement travel two ends, described supporting plate 4 driven by the second cylinder 16 and between the first inductor 3, the 4th inductor 17 moving linearly.Skeleton feed bin fluctuating ECU (Electrical Control Unit) is constituted by the second inductor 9, second electromagnetic valve, the 3rd inductor 10 and the 3rd electromagnetic valve and PLC, described second inductor 9, the 3rd inductor 10 are separately positioned on skeleton feed bin about 6 both sides, and described skeleton feed bin 6 rotates between the second inductor 9, the 3rd inductor 10 around bearing pin 7.Constitute skeleton counting unit by counting inductor 22, PLC sum counter, described counting inductor 22 is arranged on skeleton delivery track 13.Carry out centralized control by PLC, not only can simplify electric control system, but also the automatization level of skeleton filling operation can be improved further, and guarantee control accuracy, thus be conducive to the filling operating efficiency and the operation quality that improve skeleton.

The foregoing is only preferred embodiment of the present utility model; not in order to limit the utility model; it should be pointed out that all do within spirit of the present utility model and principle any amendment, equivalent to replace and improvement etc., all should be included within protection domain of the present utility model.

Claims (10)

1. the skeleton feed bin of an automatic feed dividing, it is characterized in that: comprise slide plate (64) and backboard (61), slide plate (64) is offered charging slideway (65) and some discharging slideways (62), described discharging slideway (62) is all connected through with charging slideway (65), charging slideway (65) arranges some sub-material projections (68), described sub-material projection (68) is relative with discharging slideway (62), described backboard (61) and slide plate (64) are connected and fixed and cover charging slideway (65) and discharging slideway (62).

2. the skeleton feed bin of a kind of automatic feed dividing according to claim 1, it is characterized in that: some described discharging slideways (62) are parallel to each other, and the angle between described charging slideway (65) and discharging slideway (62) is 20-60 degree.

3. the skeleton feed bin of a kind of automatic feed dividing according to claims 1 or 2, is characterized in that: described sub-material projection (68) to be linked in sequence forming V-shape projection by the first curved transition sections (681), the second curved transition sections (682), the 3rd curved transition sections (683).

4. the skeleton feed bin of a kind of automatic feed dividing according to claim 3, is characterized in that: described the first curved transition sections (681) radius is 5-15mm.

5. the skeleton feed bin of a kind of automatic feed dividing according to claim 3, is characterized in that: described the second curved transition sections (682) radius is 3-15mm.

6. the skeleton feed bin of a kind of automatic feed dividing according to claim 3, is characterized in that: the 3rd described curved transition sections (683) radius is 15-40mm.

7. the skeleton feed bin of a kind of automatic feed dividing according to claims 1 or 2, it is characterized in that: charging porthole (67) offered by described slide plate (64), described charging porthole (67) communicates with charging slideway (65).

8. the skeleton feed bin of a kind of automatic feed dividing according to claim 7, it is characterized in that: discharging porthole (69) offered by described slide plate (64), described discharging porthole (69) communicates with discharging slideway (62).

9. the skeleton feed bin of a kind of automatic feed dividing according to claims 1 or 2, it is characterized in that: spacing otch (63) offered by described backboard (61), described spacing otch (63) is relative with discharging slideway (62).

10. the skeleton feed bin of a kind of automatic feed dividing according to claims 1 or 2, is characterized in that: be connected and fixed by attaching screw (66) between described backboard (61) and slide plate (64).