DE1481087C - Device for conveying containers through a work or test area - Google Patents

Description

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The invention relates to a device for conveying solved by another, provided on its periphery with that of containers through a work or test individual container receiving pockets, to area that a device for ■ conveying the freely rotatable disc in a vertical axis as a barrier row one behind the other at a distance is provided, which is arranged on one side of the container along a predetermined path of movement from 5 transfer points of the conveyor and a feed point to a delivery point as well as one over which in the receiving pockets of that first control the containers at a distance Leading container running around a vertical disk with this rotating in an axis, on its circumference with container driving operative connection comes,
shoulder pockets provided and with a section with the device according to the invention

its circumference transversely to the conveying direction to an io avoided the disadvantages of the known device. Side of the same extending control disc and In addition, the containers also have flexible guide devices aligned in a row at the delivery point of the backwater conveyor in such a way as to ensure that when work starts again, no new containers are in engagement with the pockets of the control disc To keep alignment of the container in the working or test circuit and the delivery point of the conveyor 15 is required.
forward. The invention is described below in one embodiment

It is such a device for conveying approximately example with reference to drawings beBehältern known (U.S. Patent 3,160,277), wrote. It shows

in which one behind the other spaced Fig. 1 shows the arrangement of the various structural

Containers along a predetermined path of movement 20 parts illustrative plan view of a device guided from a feed point to a delivery point with the features of the invention,
will. The containers move in a working F i g. 2 a section along line 2-2 in

or test area on the circumference of a freely arranged around a Fig. 1,

vertical axis rotatable disc and along by fle- F i g. 3 a stepped cut out

xible guide means, which the container 25 sees along the line 3-3 in Fig. 1,
each in engagement with the pockets on the circumference of FIG. 4 a fig. 1 similar schematic plan view

Hold the freely rotating disc. on the device according to the invention, which, however

In another known conveying device, the normal operation of the device during the supply (US Pat. No. 2,404,232) are illustrated with containers with ■ rejecting a container,
means of freely rotatable pocket disks or star wheels 3 ° Fig. 5 is a view similar to Fig. 4, which is guided on its path of movement. The . Both occurrences of a jam at the downstream end and pocket washers are thereby represented by the flow of the behavior of the free-running turn-lock device loosely standing on an apron conveyor, and

Rotated container, each with a container between F i g. 6 a further FIG. 5 similar supervision,

to record oneself. This device is used in the rest of 35 which, however, a downstream jam in the the splitting of a container flow into two partial moments illustrates in which an inflow, Rejected container in the restricted area next to the

Both known devices, however, have a freely rotating locking device,
in common that in the event of a backlog of the container, the more detailed description of the parts and

There is a risk of breakage in the area of the disk or arrangement of the device according to the invention. The container of the known För- to point out that the latter are especially for dervorrichtungen are only one-sided in recovery in connection with a bottle testing system on the freely rotating deflectors, so that device is suitable, which one next to the bottom of it at Occurrence of a backflow jamming can usually consist of glass, are exposed to underside and one-sided pressure loads, 45 searching container arranged light source E and, for example, if because of the curved surfaces an optical or similar cleanliness test from for example bottles and through oblique in direction CI has, the thrust of a container running opposite the mouth train onto the contact surfaces lies in the beam path of the beam emanating from the light, a pressure source E which could possibly destroy the bottles. The light source E force component is exerted on this. In addition, when the conveyor device starts up again, the position relative to the container A and the cleanliness test head CI are shown in FIG. It is obvious that the disks or star wheels must be readjusted to those skilled in the art, so that other types of test or inspection must also be carried out in order to guide the subsequent containers in their path. 55 devices can be used.

In contrast, there is the task of the present- According to FIGS. 1, 2 and 3, the invention

The invention is to provide a device for conveying according to a device essentially a support of containers through a work or test area on frame 10, across the top thereof, by means of which the device is prevented from running a horizontal conveyor belt 11, wel container at occurrence of a jam within the ches 60 to tilt in a continuous straight track work or Priifbereichs and unilateral moves lib from the inlet to the outlet Della. Are exposed to pressure loads. This should lead to the conveyor 11, however, of course, in particular containers relatively small - not an endless belt, but can be divided into a low break strength, for example glass container with inlet section, which move in the middle area with the aid of the conveyor device and along 65 the top of the frame 10 from a discharge of work ¹ ; - or the test area. Belt section 11 b can be separated. The inlet outlet

The object of the present invention is achieved in. Section 11a of the conveyor points to its opposite one Device of the type mentioned at the outset, on the sides attached to guides 12, 13, which

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has passed through provided with curved sections 12 α and 13 α. According to FIG. 1 are the containers A to the 'row of containers to the side of the conveyor one after the other at approximately two container positions of which 11 away in the direction of the test area to in front of the test area and to at least two guides, which are between an inlet support plate container positions downstream of the Test area through 14 and an outlet support plate 15 is located. The 5 suction cups 33 are detected. A deviation from this light source is due to a light-scattering opalescent rule only when the cleanliness test end is covered by the glass pane 16, while the clean head CI generates a rejection pulse which carries the speed test head from a vertical column 17 dirty container AR holding suction cup, which is attached to the frame 10 and can remain effective until this container sen top side protrudes so that it passes the test head CI io to the rejection or ejection station in alignment with this wearing. fen is.

After the containers have moved over a certain distance through the glass according to FIG. 1, the conveyor 11 moves the test area indicated on a disc 16 through to the following container A , they reach a part of the circumference again on the conveyor 11 and via the support plate 15 are taken around by the conveyor 15 of the star wheels 27 and 29 so that the bottom of the outlet section 11 b is carried along. Which is exposed in each container A when it reaches the loading station located in the test exit portion of the apparatus. In support of the vessel A is to be guided by a fixed rail loading the device with a lower resilient stationary guide fence 18 container A which is provided by solder band 35, through pulleys 36 and right arms 19 and the opposite fixed 20 37 reeved is, of which the pulley 36 rail 20 is carried. Part of the rail 20 is carried by a swivel arm 38 which is designed to be adjustable and, for this purpose, consists of a bracket 39 on the vertical column 17 with an angle member 21 in its base leg, while the pulley 37 is provided on a leg Slots 22, which is mounted with transversely gerich- swivel arm 40, which is hinged to a bracket ended slots 23 in an angle support bracket 24 25 41 on the vertical column 17, which cooperate. In the two arms 38 and 40 that merge with one another, slots 22 and 23, which are joined by stops 42, are detachable fastening slots which are at a certain angular distance from one another. The elements 25 inserted so that the guide 21 comparable belt 35 preferably consists of a Federstellbar both perpendicular and parallel to the conveyor Peese which the discs 36 and 37 against each other The portion 11 can be moved b. 30 and against the stops 42 pulls. An increased span on the conveyor section 11 a in the device in the belt 35 can be achieved by enlarging the container A introduced by the accumulation angular distance between the arms 38 and 40 of the conveyor itself under the movement of the range. According to FIG. 2, an upper spring conveyor 11 is also provided in the circumferential pockets 26 of a lower belt 43, which is guided over pulleys 44 and star wheel 27 and into the surrounding 35 45 aligned with these, which in turn on arms 46 gelafangstaschen 28 of an upper star wheel 29 are incorporated, which according to FIG. 3 (disk 45 pushed with arm. The star wheels 27 and 29 sit on a 46) pivotable by a part of the test head CI shaft 30, which are rotatably supported in bearings, not shown. The belt 43 is also mounted in the frame 10. The pockets or from a spring pee, which when laid around the recesses 26 of the lower star wheel 27 are able to get into engagement with 4 ° disks 44 and 45 to a certain initial tension on the body part of the container A. The angular distance between, which is why this star wheel is slightly smaller through the discs 44 and 45 is adjustable so that it has a knife than the upper star wheel 29, in which the belt 43 with the pockets 28 provided in the star wheel 29, the neck sections of the container A Pockets 28 can work together to grab the location. This size ratio is based on FIGS. 1 45 of the container necks at least during the passage and 2 clearly emerged. fens of the test station. The rejected according to FIG. 2 have the star wheels 27 and 29 nen container AR are shown in FIG. 1 by the perpendicular distance from one another, the shaft being guided around the circumference of the star wheels 27 and 29 until a hub 31 for receiving the necessary vacuum carries it securely on the surface of an ejection-collecting control device, which is not particularly deposed which im need to be asked. The negative pressure is in the present case from a horizontal turntable, the container A consists of suction arms 32 and suction cups 33, which is placed in a holder of a vertical shaft 52, which is mounted on the outer ends of each of the bearings 51. A motor 53 displaces the arms 32. The number of arms 32 and the collector 50 in rotation so that no obstruction suction cups 33 corresponds to the number of pockets 26 55 or impairment of the free supply and discharge in the star wheel 27. Below the hub 31 is one of rejected containers AR occurs,
Actuating device overflown by protruding members 35 a. Furthermore, there is a freely running or freely rotating transmission device 34. The containers A are thus blocking device 55, which are shown in FIG. 1 individually at the point at which each container leaves the top view and the conveyor 11 shown in side view in FIG. 3, of the suction 60 in question. The locking device 55 has a wells in a bearing 33 detected and temporarily held, 57 mounted vertical shaft 56 and runs in a while the container bottoms on the platen 14 level immediately below the disc 37 to wostehen. The suction cup 33 holds a container while the circumferential pockets of the angular movement from the pick-up point to 58 extend beyond the guide rails 18 to the point at which the container extends from the 65 and from one of the adjustable guides 21 opposite the support plate 15 begins to move away and runs up to the lying point over the conveyor outlet section conveyor 15 after it protrudes through 11 b. It should be noted that the container, the light diffusion disk 16 indicated test area ter A on the conveyor section 11a in the device

Claims (1)

5 6 Device introduced and fed through this conveyor section in between the rotating locking device 55 and the star wheels 27 and 29, where the star wheels 27 and 29 release. By moving the conveyor H temporarily through the spring feeders 35 and 43, the container A ₁ will be held in until it is again held to the conveyor system on the container A ₂ , while the container outlet section is alive or to the ejection collecting inlet A due to the jamming of the container at the direction 50 are returned. If a substantial downstream side is not able to move further, the interruption in the supply of container A is prevented by the rotating one from occurring, it can happen that the star wheels 27 locking device 55 can continue to rotate. Accordingly and 29 are not set in rotation, whereby the jammed row of containers is not pushed further downstream of the Beauch, the free-running action of the rotating locking container A _z , so that the Vorricheinrichtung 55 is interrupted. tion continues to stand still. In this way, the leg is Figs. 4, 5 and 6 are held in state unverklemmtem schematically certain container A _1, as to be described below operating conditions that there is no risk of crushing of the Behälveranschaulicht. This exists when the jam has been cleared and. In the illustration according to FIG. 4, the device is set to continue conveying the containers again so that a constant supply of containers is possible. The present schematically illustrated in Figure 5 is so that the pockets of the starwheels are those in which a downstream constantly filled and the spring pees are able to jam when nothing other than conveying the containers during their movement through the test - Containers to be let through section life to keep to the station. If no containers are rejected 20 of the rotating locking device 55,
6 is an operating state of the device at which the pocket receiving it is shown in FIG. 6 when, in the event of a jam on the downstream side, alignment with a pocket 58 of the circulating conveyor 11 is a rejected container AR locking device arrives, an alignment of the concerned is available in the restricted area. From the in Verbinfenden pocket of the locking device to a pocket 25 training with F i g. The explanations given in 5 focus on the star wheel. As a result, a tooth 59 precedes that the jam in Fig. 6 against the container A ₃ locking device between two containers. The tooth acts so that the container. By interrupting this rotary movement, the section has reached life. As a result of the linear movement 30, a tooth 59 of the conveyor section 11 fe is immediately prevented from pushing the container onto it- container A into the pocket 26 and in doing so forced to place the container A between the adjustable guide 21 as a stop for the star wheel 27. and leaves the rails 18 at the downstream exit. In this condition - step in instead of a part. . In the in Figure 4 ₁ illustrated transmitted container A shown in FIG. 5 -. In operating state, a zuzum collector is a rejected container AR 35 of the schematic representation of Figure 6 has been worn 50 so that a gap back of rejected containers AR available, that of in the row of containers that have passed through is created, a suction cup 33 held in a star wheel pocket 26, which is located downstream on the conveyor section 11 fe, so that the conveyor 11 does not have any influence on the direction of movement. In the embodiment shown, it has. The rejected container AR is form is the collector device of a fence-type 40 enclosed by the suction effect of the suction cup 33 in the star guide 50 a, one of which is held back by the end wheel pocket 26, so that when the section 50 fe is spirally pulled inward and The downstream jam is eliminated and the device thus forms a guide which resumes normal operation of the whole before, not in the middle of moving on the circulating collector - the downstream row of containers moving inwards prevents the container from being around the circumference to remain 45, but carried to the collector 50 and to ^V: ben, where it is released to the other arriving at the collector. Could hinder further supply of rejected containers. Containers through the device is F i g. 5 shows schematically in a top view the device, finally, the gap created by the removal of the recess in a state in which a downstream container AR , the jam is present, which is a downstream movement 50 also in FIG. 4 is shown, the discharged container A is prevented again. The containers closed. ter thus accumulate regardless of the forward movement. Thus, a simple and effective movement of the conveyor 11 is above on the conveyor section 11 fe. At this point in time, the teeth 59 and the flow-free passage of a test device revolving locking device 55 separate the devices from the containers which are to be described and which are to be described in the discharge area which is critical for rejecting or ejecting certain containers. If the containers back up at and for the passage of all other containers downstream, the containers A _{3 will be assigned} . The device has for this purpose a circumferential and A ₂ through the container A ₁ against the guide 21 freewheeling locking device, which urges a break, so that the locking device 55 is held in a 60 of fragile containers and a wrong Ar position in which it strives to push the container mode of the inspection or testing device on to ter A ₂ , but is able to prevent it.
Container A ₃ is prevented. The container A ₂ blocks the container A ₁ , which in turn makes the container claim: ter A blocked so that the star wheels 27 and 29 to 65 device for conveying containers through prevented from rotating. In the one shown in FIG. 5 a work or test area that provides a facility The state shown are the containers A and A ₂ so device for conveying the in series one behind the other in widely separated from each other, that they the container A ₁ spaced container along a front certain trajectory from a loading point to a delivery point as well as the container at a distance, rotatable about a vertical axis, with container receiving pockets on its circumference provided and with a portion of its circumference transversely to the conveyor to one side of the same extending control disk and furthermore has flexible guide devices at the delivery point of the conveyor device, to keep the containers in engagement with the pockets of the control disc and the delivery point to the conveying device, characterized in that a further disc, provided on its circumference with individual container receiving pockets (58) and freely rotatable about a vertical axis, is provided as a locking device (55), which is located on one side of the delivery point (Ub) of the conveying device (11 ) is arranged and via the container passing through in the receiving pockets of that first control disk comes into a driving operative connection with the latter. 1 sheet of drawings 009 529/197