DE3016940C2 - Device for aligning non-circular objects - Google Patents

Description

The invention relates to a device for aligning non-circular objects with substantially oval ones or rectangular cross-section according to the preamble of claim 1.

It is already known such a device, which is used for aligning flat objects such. B. Biscuits is formed (DE-AS 11 49 662). Here will be Round belts serving as friction elements by means of rails at a certain height above the conveyor belt guided so that correctly positioned or aligned objects on the conveyor belt without contact pass under the round belt. Incorrectly positioned objects, on the other hand, come with a corner on the conveyor belt and with an opposite corner on a round belt or with both opposite Corners to lie on the round belt and are rotated by them into the correct position, whereupon they drop onto the conveyor belt. With this well-known Device cannot hold upright vessels or similar objects with poor stability be aligned. These would inevitably be borrowed fall over if they are in the incorrect position with one corner or two corners of their floor space below should be more or less inclined on the round belt. The round belts could also follow the lowering of the aligned vessels on the conveyor belt still attack the vessels and thereby affecting the accuracy of the alignment.

Next is a device for aligning substantially cylindrical cans with metallic conductive longitudinal seams known, the two belt-shaped friction elements on opposite sides of one Has conveyor belt (US-PS 37 22 657). The fed doses are initially with different Speed driven belt set in its own rotation and thereby through parallel to Scanned electrical contact strips running in the direction of transport. If the contact strips are outwardly pointing longitudinal seam are bridged, the drive for the two belts is switched, see above that these now circulate at the same speed and continue to transport the cans without rotating themselves. Aligning upright vessels with an oval or rectangular cross-section alone this known device is not possible due to the geometrical conditions.

Furthermore, a device is known in which vessels with an oval cross-section are fed in an orderly longitudinal position pivoted by 90 degrees and thereby brought into the transverse position (DE-OS 23 17 873). This device has a conveyor belt with fixed railings, the mutual spacing of which is initially somewhat is larger than the width of the vessels and then in a funnel-like transition area to a value expanded, which is slightly larger than the length of the vessels. The vessels are twisted in the transition area purely randomly clockwise or counterclockwise by means of the attacking the bottom of the vessel Conveyor belt by slowing down or completely stopping the containers that have already been placed across. The vessels collide with one another, so that this known device is subject to high stress on the vessels and high noise emission works. Free rotation of the vessels without touching each other or even one targeted, exact alignment of non-round vessels is not possible with this known device.

A device for aligning upright vessels with an essentially circular, at a circumferential point with a cam-

nicer. Bulge provided cross-section known, in which all vessels are gripped between two friction elements and set in rotation (US-PS 28 25 442). The vessels are designed as a circumferential belt or as a stationary friction rail Friction elements rotated until the cam-shaped The bulge comes into contact with the stops moving with the vessels. The vessels then slide on the friction elements until they leave the device. With this known device, to Only vessels with slight deviations from the circular cross-sectional shape can be aligned. It is unfavorable that even after blocking the self-rotation of the vessels in the correct position Friction elements continue to act on the circumference of the vessel and try to twist the vessel so that the bulge appears possibly slide off the stop again. An alignment of vessels with strongly deviating from the circular shape Cross-section, such as B. rectangular or oval vessels, is with this known device not possible.

After all, there is already an alignment device of vessels with an essentially. ■ rectangular, strongly rounded cross-section known in which On one side of a conveyor belt a fixed railing and on the other side a screw conveyor is arranged with two different core diameters (DE-OS 24 57 140). By having a The only slope extending transition area of the core diameter should be those vessels whose Length is transverse to the transport direction, rotated until the length is parallel to the transport direction lies. This known device can only process vessels with relatively strong rounded cross-sections. The vessels must also be fed in a regulated manner, otherwise they will reach the beginning of the screw at the wrong time and can be damaged in the process. The entire rotation of incorrectly positioned vessels must be in the area of one slope with increasing Core diameter take place, possibly against the back pressure of the awake vessels, so that a results in extremely restless vascular movement with correspondingly high noise emissions. It is also unfavorable that the The screw conveyor must be adapted exactly to the cross-section of the vessel, so that an exchange should be made in the event of a changeover is required.

The invention is based on the object of a device to create the upright vessels with an essentially oval or rectangular cross-section reliably aligns and at the same time works smoothly, gently and with little noise

This object is achieved according to the invention on the basis of a device of the type mentioned at the beginning solved by the features specified in the characterizing part of claim 1.

In the device according to the invention, as a result of the use of friction elements which are movable relative to one another the self-rotation of the vessels with the desired through a corresponding design of the drive take place at a slow speed, so that the result is an extremely smooth run. Since the vessels during the Self-rotation does not stand on the friction elements, but is captured and held between them overturning of the vessels is ruled out. The properly positioned or aligned vessels are kept away from the friction elements by the two guides, so that the desired angular position the vessels cannot change them properly and they can be transported on by the conveyor belt alone.

In terms of careful handling of the vessels and safe turning of even sharp-edged vessels it is advantageous if, according to a further development of the invention, the two friction elements are carried by belts a soft elastic covering are formed.

The guides for the aligned vessels are allowed to prevent the incorrectly positioned vessels from rotating themselves do not hinder and are therefore z. B. transverse to the transport direction elastically yielding. A particularly simple structure with reliable function is according to a Further development of the invention achieved in that the guides are formed by fixed rails, the top of which is designed as a sliding surface and is arranged slightly higher than the conveyor belt These rails engage laterally on the lower end of the correctly positioned vessels and guide them safely between them through the friction surfaces. Incorrectly positioned vessels, on the other hand, run onto the top and stand on these, held by the Re'K-slementen until they aligned and then sink between the rails.

Accumulation of the incorrectly positioned vessels on the rails is z. B. by the rounding between Bottom and side surfaces of the vessels facilitated. It is better if, according to a further development of the invention the ends of the rails pointing against the direction of transport are rounded downwards or are beveled. In this case, vessels without appropriate rounding can easily be placed on the rails slide up.

It is particularly advantageous if, according to another development of the invention, the friction surfaces counteract survive the transport direction with respect to the inlet-side ends of the rails. Be that way the incorrectly positioned vessels are first captured by the friction elements and held before they are placed on the Slide the rails on and raise them a little. A tilting of the vessels when running onto the Rails is therefore excluded.

It is expedient if, in accordance with a further development of the invention, centrally between the friction elements the vessels are arranged on both sides on the closure or on the head leading Leilelemente. These Guide elements provide additional stabilization and guidance of the vessels. In particular, they prevent lateral inclination of the incorrectly positioned vessels during their own rotation.

Another development of the invention is that in the middle between the friction elements on the top of the vessels engaging hold-down is provided. This hold-down prevents being incorrect positioned vessels climb up during their own rotation, e.g. B. due to slight inclination.

For the purpose of simple changeover of the 5-piece device, it is advantageous if, according to two developments of the invention, the distance between the friction elements and the distance between the guides can be adjusted. Such a device can be adapted to vessels with the most varied of length-width ratios of the cross-section in a few simple steps and without replacement parts.

For a more detailed explanation of the invention, an exemplary embodiment is described below with reference to the drawings described. Hs shows

Fig. 1 is a plan view of an alignment device of vessels with a rectangular cross-section.

F i g. 2 the section AB according to FIG. I.

The device according to FIG. 1 and 2 is for aligning upright bottles 1 with rectangular Cross-section set up. More precisely, the bottles should be fed in at different angular positions

1 when leaving the device with their broadsides lie parallel to the direction of transport so that they can then be labeled. The device has a horizontally running conveyor belt 2 with a frame 3. its upper run in the direction of the arrow is driven. At the inlet side of the device are on both sides of the conveyor belt 2, the width of which is Corresponds to the width of the bottle cross-section, railing 4 attached, the distance between which is slightly greater than that Length of the cross-section of the vessel. An endless one connects to this railing 4 on each side of the conveyor belt 2 Belt 5,6, each of which has a drive wheel 7 and a pulley 8, each with a vertical The axis of rotation is running. The belts 5, 6 have a soft elastic covering 9 made of sponge rubber and are of this type arranged that its on the side of the conveyor belt

2 lying strands parallel to the transport direction or to each other at the same distance from the conveyor belt 2 get lost. The distance between the two belts 5, 6 or between their adjacent strands is somewhat larger than the width of the bottle cross-section and in any case smaller than the length of the bottle cross-section. Between the deflecting wheels 8 and the drive wheels 7 there are also support rollers 10 for the belts 5, 6 arranged. The drive wheels 7 are synchronized with the conveyor belt 2 de ;. rt rotated that the Seen in the transport direction, the left-hand belt 5 rotates a certain amount faster than that Conveyor belt 2 and the other belt 6 slower by the same amount. In addition, the direction of movement is correct of the two strands of both belts 5, 6 pointing towards the conveyor belt 2 with the direction of movement

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The shafts 11 of the drive wheels 7 are in bearing plates 12 mounted, on which the deflection wheels 8 and the support rollers 10 are rotatably arranged. Each of the two bearing plates 12 rests on two brackets 13 attached to the frame 3 and is by means of elongated holes and clamping lever 14 can be locked at different distances from the conveyor belt 2. By one to the waves 11 of the drive wheels 7 connected, schematically indicated gear 15, the drive wheels in driven in synchronism with the conveyor belt 2 in the manner described above.

Below the belt 5, 6 on each side of the conveyor belt 2 is a rail 16, 17 with a rectangular Arranged cross-section, the horizontal top is designed as a sliding surface and is slightly higher than the surface of the conveyor belt 2. The distance between the two rails 16, 17, more precisely between their mutually facing vertical surfaces is slightly larger than the width of the bottle cross-section. The two rails 16, 17 are parallel to the transport direction or to each other and - exactly the same as well as the two belts 5, 6 - symmetrically to the conveyor belt Z In addition, the two rails 16, 17 so far above the plane of the conveyor belt 1 upwards that they are in the flat or vertical area of the bottle wall attack. The ends of the rails facing in the opposite direction to the transport direction 16, 17 are rounded towards the bottom. These ends are located behind the receiving areas, as seen in the direction of transport of the two belts 5, 6 and therefore attack the bottles 1 later than they do. The two Rails 16, 17 are by means of screws or the like. And Long holes adjustable transversely to the transport direction are attached to the associated bearing plates 12 and are usually adjusted together with these.

In the area between the belts 5, 6 is in the middle above of the conveyor belt 2 a Profilschi ine 18 with a U-shaped. downwardly open Que cut attached.

ίο The two vertical legs of the profile rail 18 serve as Leitclemente that guide the bottle head centrally between the belts 5, 6. The horizontal one Leg of the profile rail 18 serves as a hold-down device for the bottles 1. Its height corresponds to that the surface of the bottle head or bottle closure of a standing on the rails 16, 17, in Fig. 2 bottle la indicated by dash-dotted lines. To the To facilitate the inlet of the bottles 1, the starting area of the profile rail 18 is widened conically. On the straps 5, 6 are joined on both sides of the conveyor belt 2 by further railings 19, the distance between them being slightly larger is than the width of the bottle cross-section. The railings 19 are aligned with the rails 16, 17 and take over after this the further guidance of the bottles 1.

The device described above works as follows: The bottles 1 are continuously fed by the conveyor belt 2 between the railings 4 on the one side at any distance and any angular position. If a bottle 1 is standing with its narrow sides parallel to the transport direction, it is simultaneously gripped by the two belts 5, 6 in the area of the narrow sides and clamped between them. Short

. then the bottom of the bottle runs onto the one-sided, rounded ends of the rails 16, 17, the FIasehe 1 is raised slightly and is now on the formed as sliding surfaces upper sides of the two rails 16, 17 (bottle la in Fig. 2). Simultaneously begins mtOigc ucT ünicrSCuicuiiCiiGn vjcSCuWinuigricitcFi the belt 5, 6 and the frictional entrainment of the bottle 1 a natural rotation in the direction of the arrow, the Bottle 1 temporarily penetrates even deeper into the flexible covering 9. The self-rotation continues until after a rotation of about 90 degrees, the broad sides of the bottles are now parallel to the transport direction

4 ·: lie. The bottle is now held by the straps 5, 6 released and sinks in this desired angular position between the rails 16,17 on the conveyor belt 2 from. The onward transport now takes place again through the conveyor belt 2, the bottle 1 through the

so rails 16, 17 are guided in the desired angular position until they run in between the railings 19 wjr-l During the lifting, turning and lowering of the bottle 1, its head is also supported by the profile rail 18, which also prevents excessive lifting of the bottle

If the broad sides of a bottle 1 entering the device form an acute angle with the direction of transport, so this bottle is grasped by the belt 5, 6 without being clamped and swiveled briefly until it continues to run in the desired angular position between the rails 16, 17. The pivoting can also counteract in the direction of the arrow, since the different speeds of the belts 5, 6 are not noticeable here makes tipping of the bottle is again prevented by the profile rail 18

If you see an incoming bottle 1 already in the desired one Angular position, d. H. the broad sides are parallel to the transport direction, so this bottle is

not / wipe the two belts and there is no significant rotation. This bottle stands also in the middle of the conveyor belt 2, so it runs without Contact with one of the belts 5 or 6 between the rails 16, 17. Is it on the other hand to one side of the The conveyor belt is slightly offset, so it briefly runs against the corresponding belt 5 or 6 and / or the corresponding one Rail 16 or 17 and is thereby in the middle of the conveyor belt 2 between the rails 16, 17 pushed. This bottle then passes through the device without changing its angular position.

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Claims (10)

Patent claims: 1. Device for aligning non-circular objects with essentially oval or rectangular ones Cross-section, with a conveyor belt and on both sides of the conveyor belt opposite one another arranged friction elements, of which at least one can be driven in the transport direction, the distance between the friction learners is slightly larger than the width of the objects, so that only objects are guided past the friction elements without contact, their lengths run parallel to the transport direction, while all other objects initially from the friction elements detected and set in rotation until their lengths are also parallel to the direction of transport run, characterized in that the friction elements (5, 6) to be aligned Grasp the vessels between them and that below the friction elements (5, 6) on both sides of the conveyor belt (2) guides (16, 17) are arranged opposite one another, which guides the aligned vessels grasp and guide it without contact between the friction elements (5,6). 2. Apparatus according to claim 1, characterized in that the two friction components by belts (5,6) can be formed with a flexible covering. 3. Apparatus according to claim 1 or 2, characterized in that the guides by stationary Rails (16, 17; are formed, the top of which is designed as a sliding surface and slightly higher than the Conveyor belt (2) is arranged. 4. Apparatus according to claim 3, characterized in that the opposite to the transport direction facing ends of the rails (16, 17) are rounded or beveled downwards. 5. Apparatus according to claim 3 or 4, characterized in that the friction surfaces (5,6) opposite the transport direction with respect to the inlet-side ends of the rails (16, 17) protrude. 6. Device according to one of claims 1 to 5, characterized in that centrally between the Friction elements (5, 6) are arranged to guide the vessels on both sides on the closure or on the head are. 7. Device according to one of claims 1 to 6, characterized in that centrally between the Friction elements (5, 6) a hold-down device engaging on the top of the vessels is provided. 8. Device according to claims 6 and 7, characterized in that the guide elements and the Hold-down device is formed by a profile rail (18) with a U-shaped cross section that is open at the bottom will. 9. Device according to one of claims 1 to 8, characterized in that the distance between the friction elements (5,6) is adjustable. 10. Device according to one of claims 1 to 9, characterized in that the distance between the guides (16, 17) is adjustable.