WO2012072155A1 - Apparatus for storing articles, and installation and method for handling articles - Google Patents

Abstract

Apparatus for the (buffer-)storage of articles, in particular of containers, having a transporting plane (14) for the containers, which is formed by at least two adjacent, parallel transporting regions (12, 13) which can be driven in opposite transporting directions (B, C) for transporting the containers, and having at least one transfer device (22, 23), which can be displaced or adjusted along the transporting regions (12, 13) and by means of which the containers conveyed in the direction of the transfer device (22, 23) by one transporting region are transferred to at least one adjacent transporting region (13, 12), which conveys the containers in the direction away from the transfer device (22, 23), wherein the at least one transfer device (22, 23), together with the associated transporting regions, forms a (buffer-)storage zone (11.1, 11.2) with an inlet (16, 18) and with an outlet (17, 19) for the articles.

Description

 Device for storing objects and apparatus and method for treating objects

The invention relates to a device according to the preamble of claim 1, to a system according to the preamble of claim 10 and to a method according to the preamble of claim 13.

"Articles" in the context of the invention are primarily containers and in particular cans, fakes, tubes, pouches, each made of metal, glass and / or plastic, but also other packaging, for filling of products, in particular of liquid or viscous products are suitable.

For the purposes of the invention, "equipment units" or "equipment machines" are, in particular, units or machines which are used to apply equipment or features, for example labels and fillings, to objects or containers and / or for printing on objects or containers.

The term "essentially" in the context of the invention means deviations from the exact value by +/- 10%, preferably by +/- 5%, and / or deviations in the form of changes that are insignificant for the function.

An apparatus with the features of the preamble of claim 1 for storing or buffering objects is known (WO2006 / 040058). The known device is designed as a one-sided buffer table, with a transport plane for the objects, which is formed by two parallel and adjacent transport areas with opposite conveying or transporting direction, with an inlet and an outlet on one side of the transport plane and along the transport areas by a linear drive movable or movable Überubeinrichtung. With this, the objects conveyed from the inlet via a first transport region to the overtube device are deflected to a second transport region, which conveys the articles to the outlet. The subregion of the transport plane between the inlet and the outlet on the one hand and the overrun device on the other hand forms the storage zone of the device. To increase and decrease this storage zone and thus the absorption capacity of the storage zone (possible number of items in the Memory zone) is the overrun device by a linear drive along the transport areas movable or movable. The known device is particularly suitable as an intermediate or buffer storage in facilities for treating the objects, for example in systems for treating containers.

In many cases it is necessary in such systems, with respect to a transport direction of the articles through the plant or along a treatment section of this plant before and after a treatment aggregate or a group of treatment aggregates, e.g. before and after a main machine each provide a buffer memory, which means not only a design effort and increased costs, but also an increased space requirement for two buffers, although in practical operation disorders that require buffering or buffering of the objects in both buffers, in the Usually not occur at the same time.

The object of the invention is to show a device which allows for optimal space or space utilization storage, especially also a caching or buffering of objects. To solve this problem, a device according to the patent claim 1 is formed. A system and a method for treating objects are designed according to claims 10 and 13, respectively.

With the device according to the invention a considerable reduction of the design effort, the cost and space requirements for the storage, especially caching or buffering of objects in manufacturing and / or treatment facilities can be achieved.

The device according to the invention is preferably designed as a two-sided buffer table, in such a way that in each case a buffer or storage zone is provided at two opposite on the transport direction of the transport areas sides of the transport plane formed by these transport areas, consisting of at least two of parallel and adjacent transport areas with opposite transport direction and at least one of these transport areas associated Überubeinrichtung. This is movable to increase and decrease the respective storage zone and thus to increase and decrease the absorption capacity of this storage zone along the transport areas or movable, namely to increase the absorption capacity in the sense of increasing the distance from the respective end of the transport plane and for a reduction of the absorption capacity in the sense of a reduction of this distance.

Preferably, the at least two transport areas with opposite transport direction are provided jointly for both storage zones, so that then one of these transport area the first transport area of a storage zone and the second transport area of the other storage zone and vice versa the other transport area the first transport area of the other storage zone and the second transport area of the one Storage zone forms. At the relevant end of the transport plane then the inlets and outlets of the storage zones are provided. The transport areas are each of at least one circumferentially driven as a closed loop conveyor belt, e.g. Transport or hinge belt, but preferably of at least two in the transport direction adjoining and / or transversely to the transport direction adjacent conveyor belts, e.g. Transport or hinge tape chains formed.

The device according to the invention is particularly suitable as a buffer in systems for treating objects or containers, for example systems for filling, closing, labeling and packaging of containers, wherein the storage zones are arranged in the treatment section in the relevant system so that the one storage zone related are provided following the transport direction of the objects through the treatment section before a treatment unit or a group of treatment units, for example in front of a main engine and the other storage zone with respect to the transport direction of the objects on the treatment unit or the group of treatment units. The storage zones are each part of the treatment section of the system, and in so far as the container even in trouble-free operation, ie when an intermediate storage or buffering of the items is not required, are passed through the respective storage zone, but then their minimum storage capacity or absorption capacity. In case of faults in the treatment unit or in the group of treatment units, the objects are buffered in the storage zone preceding the treatment unit or the group of treatment units. In the case of a fault in a part of the installation following the other storage zone, the articles in this other storage zone are buffered, in each case increasing the absorption capacity of the relevant storage zone.

Both storage zones use one and the same transport level, so that the required buffering of the relevant system is ensured with reduced design effort, with reduced production and investment costs and with reduced space requirements.

Further developments, advantages and applications of the invention will become apparent from the following description of exemplary embodiments and from the figures. In this case, all described and / or illustrated features alone or in any combination are fundamentally the subject of the invention, regardless of their summary in the claims or their dependency. Also, the content of the claims is made an integral part of the description.

The invention will be explained in more detail below with reference to the figures of exemplary embodiments. 1 is a schematic functional representation of a system for treating articles in the form of containers, together with a buffer line according to the invention;

 2 shows a schematic illustration and in plan view of the buffer line of the system of FIG. 1.

The plant generally designated 1 in the figures is used for treating containers 2, for example in the form of bottles, for example in the form of plastic or PET bottles, and in the illustrated embodiment specifically for filling the container 2 with a liquid product, for example with mineral water or another product or beverage, for closing and then labeling the filled containers 2, for assembling containers 3 from a plurality of containers 2 and for multilayer arrangement or stacking of a plurality of containers 3 on a respective transport pallet for the formation of transport and storage units. 4

The plant 1 has u.a. on:

 A submission 5 for providing the containers 2, this device being, for example, a container cleaning machine or a blow molding machine for blow molding the containers 2 of plastic preforms;

 - A filling machine 6, which are supplied to the container 2 for filling with the liquid product from the device 5;

 a capping machine 7 to which the filled containers 2 are fed for closing by the filling machine 6;

 - an equipment or labeling machine 8 for labeling the filled and sealed containers;

 a packaging machine 9, in which the labeled containers 2 are each assembled into groups of containers and connected to the respective container 3 by an outer envelope enclosing the containers at least partially, for example in the form of a shrunk-on shrink film;

 - A palletizing machine 10, in which the transport and storage units 4 are formed from a plurality of containers 3 by multilayer stacking.

The device 5, the filling machine 6, the closing machine 7, the labeling machine 8, the packaging machine 9 and the palletizing machine 10 may have any suitable and / or constructive design known to those skilled in the art. In particular, it is also possible for several of these machines to be combined to form one machine block, for example the filling machine 6 and the closing machine 7. Furthermore, the labeling machine 8 can also be another equipment machine, for example a printing machine for directly printing the container 2 on its container outer surface.

At least during normal, trouble-free operation of the system 1, the container 2 and the container 3 are moved in the direction indicated by the arrows A transport direction through this system 1.

Of course, further deviations in the design of the system 1 are possible. So it is possible, for example, that instead of the packaging machine 9 for forming the container 3, a machine or device is provided with which the filled, sealed and labeled containers are used in transport aids, for example in transport or crates or the like transport container.

For example, to allow at least temporary disturbances buffering of the container flow, the system 1 has a buffer memory 11, which has two memory areas or memory zones 1 1.1 and 1.2, namely the memory zone 1.1, which in the illustrated embodiment with respect to the transport direction A the container 2 precedes the entrance of the labeling machine 8, and the storage zone 11.2, which follows the container 2 relative to the transport direction A of the labeling machine 8.

As described in more detail below, the buffer memory 1 1 and the memory zones 1 1.1 and 11.2 are designed so that the container in the normal, trouble-free operation, i. in the operation of Appendix 1, in which a buffering is not required to move through the storage zones 11.1 and 1.2, the absorption capacity of these storage zones 1 1.1 and 11.2 and thus at the time in the storage zone 1 1.1 and 1.2 1.2 located number of containers 2 but can be dynamically adapted to the respective Pufferungsbedarf in case of failure.

As shown in particular in FIG. 2, the buffer memory 11 comprises i.a. two mutually parallel and adjacent conveyors or transport areas 12 and 13, which form a common, preferably horizontal or substantially horizontal transport plane 14 for the container 2 and which are drivable for transporting the container 2 in opposite transport directions, namely the transport area 12 for a transport of the container 2 in the direction indicated by the arrow B transport direction and the transport area 13 for transport of the container 2 in the direction indicated by the arrow C transport direction.

The transport areas 12 and 13 are each formed by the upper loop length of at least one, a closed loop forming and circumferentially drivable conveyor belt, for example in the form of a transport or hinge belt. Preferably, each transport region 12 and 13, a plurality of such conveyor belts, which with their upper loop lengths in Transport direction B and C adjacent to each other and / or perpendicular to the transport direction B and C adjacent to each other forming the common transport plane 14, on which the container 2 standing upright, that are arranged with its container bottom resting and oriented with the container axis in the vertical direction. The transport areas 12 and 13 are further designed so that they connect to the formation of the transport plane 14 transitionless or substantially seamlessly perpendicular to the transport directions B and C to einender. Furthermore, 14 container guides 15 (eg guide rails) are provided on the two longitudinal sides of the common transport plane.

As further shown in Figure 2, the buffer memory 11 with a first container inlet 16 and with a first container outlet 17 associated therewith on one side of the transport plane 14 and with a second container inlet 18 and with a second container outlet 19 associated therewith on the other side formed the transport plane 14. The container inlets 16 and 18 and container outlets 17 and 19 are formed in the illustrated embodiment, each like a gully for a single-lane container flow in a transport direction B '/ C or C'VB ", the transport directions B' / C or C'VB" respectively include an angle with the transport directions C and B, and in the illustrated embodiment also such that the transport directions B 'and C "or C and B" of the associated container inlets and container outlets 16/17 and 18/19 diverge. The transport direction B 'of the container inlet 16 and the transport direction B "of the container outlet 19 correspond to the transport direction B. The transport direction C of the container inlet 18 and the transport direction C" of the container outlet 17 correspond to the transport direction C.

The container inlets 16, 18 and the container outlets 17, 19 are in turn of conveyor belts, for example, of transport or hinge belt chains as well as outer and inner, the respective alley laterally bounding container guides 20 and 21 formed.

22 and 23 are two Überleit- or Überubeinrichtungen designated, of which the Überubeinrichtung 22 extends from the transport region 12 adjacent container guide 15 transversely to the transport direction B on the transport area 12 into the transport area 13 and at its the associated container inlet 16 and the associated container outlet 17 side facing a concavely curved Behälteranlage- or Behälterüberleit- Forms surface such that the conveyed from the container inlet 16 on the transport area 12 to the overfeed 22 containers 2 are passed with this override on the transport area 13 and conveyed with this to the container outlet 17.

In an analogous manner, the overthrust device 23 extends from the container guide 15 adjacent to the transport region 13 and the transport region 12 transversely to the transport direction C over the transport region 13 into the transport region 12 and forms a side facing the associated container inlet 18 and the associated container outlet 19 Concave curved Behälteranlage- or Behälterüberleit surface such that the transported from the container inlet 18 on the transport area 13 to the overthrust 23 containers 2 are passed with this override on the transport area 12 and conveyed to the container outlet 19.

The subregion of the common transport plane 14 between the container inlet 16 and the container outlet 17, on the one hand and the overthrust device 22, on the other hand forms the storage zone 1 1.1 of the buffer memory 11. To set or change the absorption capacity of the storage zone 1 1.1 (maximum possible number of containers in the storage zone ) is the override device 22 in the longitudinal direction of the common transport plane 14 adjustable or movable, as indicated by the double arrow D in Figure 2. In an analogous manner, the subregion of the common transport plane 14 between the container inlet 18 and the container outlet 19, on the one hand and the overthrust device 23, on the other hand, the storage zone 11.2 of the buffer memory 1 1. To adjust or change the absorption capacity of the storage zone 1 1.2, the overthrusting device 23 in the longitudinal direction the common transport plane 14 adjustable or movable, as indicated by the double arrow E in Figure 2.

The memory zones 1 1.1 and 1.2, which ideally act as FIFO memories or buffers (first-in-first-out memory), have their minimum recording capacity whenever the override device 22 of the memory zone 1 .1 or the Submersible 23 of the storage zone 1 1. 2 in the immediate vicinity of the associated container inlet / container outlet 16/17 or 18/19 are in a starting position, ie the smaller distance from the associated container inlet / container outlet 16/17 and 18/19. Your maximum Receiving capacity, the storage zones 11.1 and 11.2 always have when the associated override 22 of the storage zone 1 1.1 or 23 of the storage zone 1 1.2, the maximum distance from the associated container inlet / container outlet 16/17 and 18/19.

The movement of the overthrusting means 22 and 23 for changing the receiving capacity of the storage zones 11.1 and 11.2 is carried out by suitable motor or linear actuators 24, for example by adjusting or linear drives with motor-driven pulling and / or pushing elements, e.g. in the form of belts on which the overrunning device 22 and 23 are provided. The actuator or linear drives 24 are e.g. in the region between the two transport areas 12 and 13, and preferably slightly below the transport plane 14. A peculiarity of the buffer memory 11 is thus that the two storage capacity variable or adjustable in their storage capacity 1 1.1 and 1.2 formed on the common transport plane 14, In each case a storage zone 1 1.1 or 1.2 in the region of each end of this transport plane 14. This makes it possible with a single buffer memory 1 1, which can also be referred to as a double-sided buffer table, two sections of a container treatment line or -anläge, eg Appendix 1 to buffer independently, u.a. with the advantage of a significant reduction of the design effort and the manufacturing and investment costs for the container treatment line or -läläge and the space required for the buffering in such a treatment line or -anläge. For buffering in the storage zone 1 1.1 and 11.2 is theoretically almost the entire transport plane 14 available. This can be achieved because it is extremely unlikely that disturbances in both of the buffer memory 11 to be buffered portions of a container treatment line or -anläge occur simultaneously and therefore only one of the storage zone 11.1 and 11.2 is required in case of failure.

In general, the buffer memory 11 is installed, for example, in such a way that a first portion of a container treatment line or installations to be buffered is located between the container outlet 17 and the container inlet 18 and a second portion of the container treatment line or installations to be buffered is in the transport direction of the container 2 the container outlet 19 follows. Accordingly, in the plant 1 shown in Figure 1, the labeling machine 8 relative to the transport direction A of the container 2 between the container outlet 17 and the container inlet 18, while the packaging machine 9 relative to the transport direction A to the container outlet 19 follows and the container inlet 16th the filled and sealed containers 2 are supplied. The operation of the buffer memory 11 in Appendix 1 can thus be described as follows:

Trouble-free operation

During normal, trouble-free operation, in which buffering of the containers 2 is not or substantially unnecessary, the storage zones 11.1 and 1.2 have their minimum take-up capacity due to their transfer devices 22 and 23 in the initial position, so that the containers 2 indeed an actual storage of containers 2 in the storage zones 11.1 and 11.2 but not done, since the container flow (number of conveyed container 2 per unit time) at the respective container inlet 16 and 18 equal to the container flow at the associated container outlet 17 and 19 is. Fault in the labeling machine 8

 In the event of a fault in the labeling machine 8, the filled and sealed containers 2 are buffered in the storage zone 11.1. For this purpose, the receiving capacity of the storage zone 11.1 is increased by an appropriate method of the associated Überubeinrichtung 22 toward the located in the initial position Überubeinrichtung 23 increasing and corresponding to the container flow on the container inlet 16 or according to the difference of the container flows on the container inlet 16 and container outlet 17. After completion of the disturbance takes place by appropriate sliding of the associated Überubeinrichtung 22 in the opposite direction again an increasing reduction of the absorption capacity of the storage zone 1 1.1 corresponding to the container flow at the container outlet 17 or according to the difference of the container flows at the container outlet 17 and container inlet 16th

Fault in a subsequent part of Appendix 1

In the event of a malfunction in the part of the installation 1 following the buffer storage 1 1 with respect to the transport direction A, for example in the event of a malfunction of the packaging machine 9 or the palletizing device 10, this is followed Buffering of the labeled containers 2 in the storage zone 11.2. For this purpose, the receiving capacity of the storage zone 11.2 is increased by an appropriate method of the associated Überubeinrichtung 23 toward the located in its initial position Überubeinrichtung 22 increasing and corresponding to the container flow at the container inlet 18 or according to the difference of the container flows on the container inlet 18 and container outlet 19.

After completion of the disturbance takes place by appropriate sliding of the associated Überubeinrichtung 23 in the opposite direction again an increasing reduction of the absorption capacity of the storage zone 11.2 corresponding to the container flow at the container outlet 19 or according to the difference of the container streams at the container outlet 19 and container inlet 18th

In principle, however, modes of operation are also possible for the buffer memory 11 in which buffering takes place in both memory zones 11.1 and 1.2, in which case the memory zones 11.1 and 11.2 must share the area of the transport plane 14 available for the increase in their capacity , For the dynamic, i. The transport speeds of the transport areas 12 and 13 and / or the speed of movement of the transfer devices 22 and 23 (double arrows D) are adapted to the container flow at the container inlet 16, 18 or at the container outlet 17 or 19, and the absorption capacity of the storage zones 11.1 and 11.2 is reduced and E) to the respective storage zone 1 1.1 and 11.2 inflowing or adapted to the outflowing from this storage zone 11.1 and 11.2 container stream.

Due to the individual buffering of two sections of a container treatment plant, there is also the possibility that in the event of a fault in the following on the buffer memory 1 section 1 a container treatment plant units that are in the preceding with respect to the transport direction A section of the container treatment plant, continue to work. This is of particular advantage especially in such aggregates, eg labeling machines, in which a work interruption can lead to additional disturbances or impairments. The invention has been described above by means of exemplary embodiments. It is understood that numerous changes and modifications are possible without thereby departing from the inventive concept underlying the invention.

LIST OF REFERENCE NUMBERS

1 plant

 2 containers

 3 containers

 4 Transport and storage unit

 5 Device for providing the containers 2

 6 filling machine

 7 Shuttering machine

 8 labeling machine

 9 packaging machine

 10 palletizer

 11 buffer or buffer table

 11.1, 11.2 storage zone

 12, 13 transport area

 14 transport level

 15 container guide, e.g. guide railings

 16 container inlet

 17 container outlet

 18 container inlet

 19 container outlet

 20, 21 container guide

 22, 23 transfer device

 24 linear drive

Transport direction of the container 2 or container 3

 Transport direction of the transport area 12 and 13

 Transport direction on the container inlet 16 or container outlet 18 Transport direction on the container inlet 18 or container outlet 17 adjustment of the overthrust 22/23

Claims

claims

An apparatus for buffering or storing objects, in particular containers (2), with a transport plane (14) for the containers, which is formed by at least two adjacent, parallel transport areas (12, 13), which for a transport of the container (2) in the opposite transport direction (B, C) are drivable, as well as with one of at least one along the transport areas (12, 13) adjustable or movable Überübeinrichtung (22, 23) for transferring the transport area (12, 13) in the direction the transfer device (22, 23) conveyed container (2) to at least one adjacent, the container (2) in the direction of the overrun device (22, 23) conveying away conveying region (13, 12), wherein the at least one override device (22, 23 ) together with its associated transport areas (12, 13) a buffer or storage zone (11.1, 11.2) with an inlet (16, 18) and with an outlet (17, 19) for the G egenstände (2), characterized in that at the transport plane (14) at least two storage zones (11.1, 11.2) each having at least one Überubeinrichtung (22, 23) and at least two each Überubeinrichtung (22, 23) associated transport areas (12, 13) are formed with opposite transport direction (BC, B'-C ", B" -C).

2. Device according to claim 1, characterized in that both storage zones (11.1, 11.2) have at least one independently movable or movable Überubelement (22, 23).

3. Apparatus according to claim 1 or 2, characterized in that at two in the transport direction (B, C) of the transport regions (12, 13) spaced from each other ends of the transport plane (14) each have a storage zone (11.1, 11.2) is provided, namely each with at least one independent Überubeinrichtung (22, 23), with at least two of these Überubeinrichtung (22, 23) associated transport areas (12, 13) with opposite transport direction (B, C) and with at least one independent inlet (16, 18) and a independent outlet (17, 19) for the objects (2).

4. Device according to one of the preceding claims, characterized in that the at least two transport areas (12, 13) provided with opposite transport direction (B, C) of the storage zones (11.1, 11.2) for these storage zones together and / or from the same transport areas (12 , 13) of the transport plane (14) are formed.

5. Device according to one of the preceding claims, characterized in that each transport region (12, 13) of at least one conveyor belt, preferably of at least two in the transport direction (B, C) adjoining each other and / or transversely to the transport direction (B, C) each other adjacent conveyor belts is formed, wherein at least one conveyor belt is preferably a transport or hinge belt.

6. Device according to one of the preceding claims, characterized in that the respective inlet (16, 18) and / or the respective outlet (17, 9) for the objects (2) is formed by a conveyor section whose transport direction (Β ', C; B "; C") preferably forms an angle with the transport direction (B, C) of the transport areas of the respective storage zone (11.1, 11.2), and / or that the transport directions of the inlet (16, 18) and the outlet (17, 19) at least one storage zone (11.1, 11.2) enclose an angle smaller than 90 ° with each other.

7. Device according to one of the preceding claims, characterized in that at least one transport region (12, 13), which follows with one end to the inlet (16, 18) of a storage zone (11.1, 11.2), with its other end at outlet ( 17, 19) of the other storage zone (1 .2, 11.1) connects.

8. Device according to one of the preceding claims, characterized in that the transport or conveying speed of the at least two, the respective storage zone (11.1, 11.2) forming transport areas (12, 13) and / or the movement of the respective override device (22, 23) along the transport areas (12, 13) in dependence on the flow of objects at the inlet (16, 18) and / or at the outlet (17, 19) of the storage zones (11.1, 11.2) are controllable.

9. Device according to one of the preceding claims, characterized in that the transport plane (14) and on this transport plane (14) formed storage zones (11.1, 11.2) of only two transport areas (12, 13) with opposite transport direction (B, C) are formed, and / or that the transport areas (12, 13) are rectilinear or substantially rectilinear.

10. Plant for treating objects, in particular of containers (2) with at least one buffer memory (1 1) in a treatment section of the system

(I), characterized in that the buffer memory (1) is formed by a device according to one of the preceding claims.

11. Plant according to claim 10, characterized in that the buffer memory

(II) serving device is arranged in the treatment section such that, relative to the transport direction (A) of the objects (2) along the treatment section, a first storage zone (11.1) in front of a treatment unit or a group of treatment units, for example, in front of an equipment machine (8) and a second storage zone (1 1.2) relative to the transport direction (A) of the articles (2) along the treatment zone after the treatment unit or the group of treatment units is provided.

12. Plant according to claim 10 or 11, characterized in that the storage zones (1 1.1, 1 1.2) are included in the treatment section such that each storage zone (11.1, 11.2) forms part of this treatment section through which the objects (2) are also conducted in a trouble-free operation of the system, and that in case of disturbances in the treatment unit or in the group of treatment units for buffering or buffering of the objects (2) in the first storage zone (11.1) their capacity by appropriate method of the associated at least one Überubeinrichtung ( 22) and, in the event of faults in a section (2) following the transport direction (A) of the articles (2), to the second storage zone (1), for temporarily storing or buffering the articles (2) in the second storage zone (11.2). their absorption capacity by appropriate method of local there at least one Überübeinrichtung ( 23) is increased.

13. A method for treating objects (2), in particular for treating containers, on a treatment line, the at least one treatment machine (8) and at least one buffer memory (11) aufeist, characterized in that the objects (2) before and after treatment machine (8) via on a single transport area (14) formed storage zones (11.1, 11.2) with movable Überubeinrichtungen (22, 23) of the buffer memory (11) are passed.

14. The method according to claim 13, characterized in that a device according to one of claims 1 - 9 is used as a buffer memory (11).