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Patent Searching and Data


Title:
METHOD AND DEVICE FOR BUFFERING PRODUCTS
Document Type and Number:
WIPO Patent Application WO/2005/102877
Kind Code:
A1
Abstract:
In a method for buffering products (P), such as bottles, cans and pots, wherein the products are carried upwards on a moving, inclined first conveying surface (7) at a first flow rate. The products on said conveying surface can accumulate against a guide member (11) at the upper end, after which the products are guided from the guide member onto a second conveying surface (8), on which they are conveyed onwards at a second flow rate. The first conveying surface (7) is disposed at an such angle and is provided with such a surface condition that the dragging force exerted on the products from the first conveying surface is just a little greater than the force of gravity being exerted on the products in the direction along the conveying surface. As a result, products (P) can be buffered in a simple manner, whilst the products exert only little pressure on each other.

Inventors:
BALK WOUTER (NL)
Application Number:
PCT/NL2005/000283
Publication Date:
November 03, 2005
Filing Date:
April 18, 2005
Export Citation:
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Assignee:
AMBAFLEX INTERNAT B V (NL)
BALK WOUTER (NL)
International Classes:
B65G21/18; B65G47/51; (IPC1-7): B65G21/18; B65G47/51
Foreign References:
EP1389595A12004-02-18
US5490589A1996-02-13
Attorney, Agent or Firm:
Metman, Karel Johannes (XK Amsterdam, NL)
Download PDF:
Description:
Method and device for buffering products

The present invention relates to a method of buff¬ ering products, in particular substantially cylindrical containers, such as bottles, cans and pots. The invention also relates to a device for carrying out this method. In many cases it is necessary to buffer products in a treatment line for products. For example, in a bottling plant bottles must be filled, sealed, labelled and packaged. The handling rate may be temporarily higher or lower at dif¬ ferent locations in the line, making it necessary to buffer the bottles between two treatment locations in order to pre¬ vent having to adapt the entire treatment line temporarily. Various methods of buffering products are known. One known method employs a conveyor comprising a forwardly moving conveyor belt and a backwardly moving conveyor belt, as well as a transfer device, whose location on the conveyor depends on the relative speeds of the two conveyor belts . In this way a larger or smaller part of the conveyor is occupied by the products, depending on the required buffering capac¬ ity. Although this method is satisfactory per se, it re¬ quires a complex apparatus to ensure a smooth operation. The object of the invention is to provide a com¬ paratively simple method for buffering products. In order to accomplish that object, the invention provides a method for buffering products, in particular cy¬ lindrical containers, such as bottles, cans and pots, wherein the products are carried upwards on a moving, inclined first conveying surface at a first flow rate and the products on said conveying surface can accumulate against a guide member at the upper end, after which the products are guided from the guide member onto a second conveying surface, on which they are conveyed onwards at a second flow rate, wherein the first conveying surface is disposed at an such angle and is provided with such a surface condition that the dragging force exerted on the products from the first conveying sur¬ face is slightly greater than the force of gravity being exerted on the products in the direction along the conveying surface. In principle, this method can be self-regulating, because the first conveying surface is automatically filled with or cleared of products, depending on rate at which the products are supplied and discharged. A suitable selection of the angle of inclination of the conveying surface and of the surface condition thereof makes it possible to control the method so that the products are just carried upwards on the first conveying surface. The consequence of this is that the pressure on the accumulating products can be kept low because the first conveying surface can easily move under the prod- ucts and newly arriving products are pressed against the accumulated products with only little force. By selecting a specific lubrication, for example, it is possible to adjust such a coefficient of friction between the first conveying surface and the products that the products are carried up- wards with the desired dragging force on the first conveying surface. The invention furthermore relates to a device for carrying out this method. To obtain a large buffering capacity, the width of the first conveying surface will preferably be greater than the width of the second conveying surface, and the conveying surfaces will be laterally bounded by guides. In this way a large number of products can accumu¬ late on the first conveying surface, but the products will leave the buffering device one by one again via the second conveying surface, so that the products will be supplied for a new treatment at an even rate. To form a compact device, it is advantageous if the guide member extends at an angle with respect to the first conveying surface, being arranged for deflecting and preferably reversing the flow of products, wherein said first and second' conveying surfaces are prefera¬ bly formed on endless conveying elements that are driven in opposite directions, which are at least partially led along identical paths, which are preferably helical in shape. In this way the device occupies a minimum amount of floor space, and consequently the buffering area is extended in vertical direction, where usually sufficient space is available. Preferably, the device is provided with a lubricat¬ ing device for lubricating the first conveying surface. Using this lubricating device, the coefficient of friction between the first conveying surface and the products to be buffered can be adjusted so that the products are correctly conveyed and accumulated by the device. The invention will be explained in more detail hereinafter with reference to the drawings, which very sche- matically show an embodiment of the invention. Fig. 1 is a very schematic side view of an embodi¬ ment of the device for buffering products according to the invention. Fig. 2 is a top plan view of the device of Fig. 1. Fig. 3 is a partial top plan view comparable to Fig. 2 of a device, also showing the guide member. Fig. 4 is a very schematic top plan view of a de¬ vice during operation, which illustrates the buffering method according to the invention. The drawings show a device for buffering products. Said buffering takes place in a processing line in which the products are subjected to various processing or treatment steps at various locations, and in which temporary differ¬ ences in the processing rates at said locations must be set off. The products may consist of containers, for example, in particular substantially cylindrical containers such as bot¬ tles, cans, pots and the like. In most cases the processing line consist of a filling line for filling the containers in question, such as a bottling line for filling the bottles with a beverage. The buffering device may be arranged between a depalletising station and a washing and/or filling station, between the filling station and a labelling station and be¬ tween the labelling station and a packaging station, for examples. Also other fields of application are conceivable, of course. The device as shown comprises a frame, in this em¬ bodiment having a central column 1 with a base 3 and a helical guide chute 3 extending around the column and being attached thereto. Also all kinds of other frame constructions are conceivable, of course. An end roller 4, 5 is disposed at the upper end and the lower end of the guide chute, and a re¬ turn chute 6 of the frame extends between said ends of the helical guide chute 3.• With the device according to the in¬ vention, the guide chute 3 and the return chute 6 support a first conveyor belt 7 and a second conveyor belt 8. The conveying part and the return part of the two conveyor belts 7, 8 move along different paths. It is also conceivable to use an embodiment in which the return part is led back along the bottom side of the guide chute 3 for the conveying part . In the illustrated embodiment the helical chute 3 comprises eight windings, but it is possible to use a larger or a smaller number, depending on the application in ques- tion. By using guide rollers on the conveyor belts 7, 8, for example, the conveyor belts can be driven over a large number of windings without any driving problems . The two conveyor belts 7, 8 each have their own driving motor 9, 10, which mo¬ tors are disposed near the upper end roller 5 in this case and which engage the associated conveyor belt 7, 8. The two conveyor belts 7, 8 can be driven independently of each other, in opposite directions in the present case, i.e. prod¬ ucts are conveyed upwards over the conveying surface of the first conveyor belt 7 as indicated by the arrow P1, and down- wards again over the conveying surface of the second conveyor belt 8 (see arrow P2) . At the location indicated by the arrow Pi,21 the products are transferred from the first conveying surface of the first conveyor belt 7 to the second conveying surface of the second conveyor belt 8, preferably by means of a guide member 11 (see Fig. 3) . As Fig. 3 further schematically shows, guides 12, 13 are arranged on either side of the guide chute 3, whilst the first conveyor belt 7 and the second conveyor belt 8 are separated by an intermediate guide 14. The intermediate guide 14 extends upwards to a position in which it is spaced from the guide member 11 by some distance, which distance is just sufficiently large for allowing a product to pass from the first conveyor belt 7 to the second conveyor belt 8. The in¬ termediate guide 14 and/or the guide member 11 may be adjustable in longitudinal direction so as to be able to buffer different kinds of products. The guides 12-14 may also be adjustable for correctly guiding products having different diameters. The guide member 11 that is provided near at the upper end of the first conveyor belt 7 may be stationary and consequently guide the products only passively from the first conveyor belt 7 to the second conveyor belt 8. On the other hand the guide member 11 may be driveable, i.e. movable so as to guide the products in a more active manner. Such a move¬ ment may be a circulating movement in the direction of the first conveyor belt 7 to the second conveyor belt 8. For ex¬ ample, a belt guided by rollers may be arranged around the guide member 11. On the other hand, said movement may also be an oscillating movement in the plane of the conveyor belt 7 so as to prevent local blockages and thus aid the flow of products. In the illustrated example, the first conveyor belt 7 has a greater width than the second conveyor belt 8, and preferably the width of the second conveyor belt 8 is such that the buffered products can only be transported one behind another over the second conveyor belt 8. In that case the products can be evenly supplied one by one to a treatment lo- cation downstream of the device. In the illustrated case, the width of the first conveyor belt 7 is such that a number of products, e.g. four to ten products, five in the illustrated embodiment, can be present beside each other on the conveying surface of the conveyor belt 7. In this way a large area of the conveying surface of the first conveyor belt 7 and thus a large buffering capacity can be obtained, because the device can accommodate a large number of products. The guides 12-14 may be adjustable so as to make it possible to adapt the de¬ vice to the dimensions of the products . Several embodiments of the first conveyor belt 7 are possible, as long as a preferably more or less closed surface having a sufficiently low friction is obtained. Exam¬ ples of such conveyor belts are lamella belts, link belts, stainless steel lamella chains, textile belts, PVC belts, stainless steel belts and the like, which latter belt types are generally only suitable for use in a straight, i.e. non- curved conveying path. The invention also extends to devices comprising straight conveying paths, however. The construction of the second conveyor belt 8 may vary, depending on the kind of products and the requirements made of the discharge and the further transportation of the products (see the arrow D) . In principle a "wedge conveyor" or a "side grip conveyor" might be used, whilst also the path of the second conveyor belt 8 may be completely different from the illustrated path. Furthermore, the second conveyor belt need not extend downwards. In practice, the angle at which the conveying surface of the first conveyor belt 7 is disposed is generally 2-10°, in particular 3-6°, preferably 4-4.5°. This angle of inclina¬ tion must be geared to the expected coefficient of friction between the conveying surface of the first conveyor belt 7 and the products being transported. After all, according to the invention the dragging force being exerted on the prod¬ ucts from the conveying surface of the first conveyor belt 7 is intended to be greater than the force of gravity being ex¬ erted on the products in the direction along the conveying surface of the first conveyor belt 7. In the case of a fixed angle of inclination, this can be achieved by a suitable se¬ lection of the conveyor belt or by influencing the coefficient of friction, which is done by lubricating the conveying surface of the first conveyor belt 7. The coeffi- cient of friction between the conveying surface and the product to be buffered may be 0.14-0.16, for example. By ar¬ ranging that products to be buffered are only just carried upwards on the conveying surface, products are prevented from exerting too much pressure on each other as soon as said products accumulate at the end of the first conveying surface of the conveyor belt 7. Consequently there is only a small chance of the products being damaged as a result of said pressure, whilst in addition said pressure will not lead to the products getting wedged upon being transferred to the second conveyor belt 8. Especially in the case of cylindrical products this risk will be very small . Fig. 4 shows an embodiment of the method according to the invention. Arrow S indicates a supply conveyor 15, at which products P are supplied from a processing location and the guided onto the conveyor belt 7. The conveying surface of the first conveyor belt 17 moves in the direction indicated by the arrow A, at a rate that ensures a correct transfer of the products P from the supply conveyor 15 and a sufficient flow of products. The products P that are being supplied are carried along at a random location on the conveying surface of the first conveyor belt 7 towards the upper end thereof . Depending on the rate at which the second conveyor belt 8 takes over products, a number of products will accumulate, i.e. come to a virtual standstill, near the upper end of the first conveyor belt 7. Due to the low amount of friction and the low dragging force being exerted on the bottom of the products P by the conveying surface, the pushing force that is exerted on the accumulated products will only be low. A guide member 11 is provided near the upper end of the first conveyor belt 7, by means of which guide member prod¬ ucts P are transferred one by one from the first conveyor belt 7 to the second conveyor belt 8. Said transfer takes place as a result of the pressure being exerted on the prod¬ ucts P and the preceding product P being discharged by the second conveyor belt 8. The guide member 11 may be driven so as to assist in the transfer of the products P. Depending on the difference between the amount of products being supplied at S and the amount of products being discharged at D, a lar¬ ger or smaller amount of products P will accumulate on the conveying surface of the first conveyor belt 7, so that a larger or a smaller part of the conveying surface will be oc¬ cupied by the products . It will be apparent from the foregoing that the inven¬ tion provides a simple method and device for accumulating products. The invention is not limited to the embodiments as de¬ scribed above and illustrated in the drawing, which can be varied in several ways within the scope of the invention. Thus, the guide member need not be disposed near the upper end of the first conveyor belt. Furthermore it is possible for the guides present on either side of the first conveyor belt to move along with said conveyor belt . No intermediate guide must be present at the transfer location between the first and the second conveyor belt, however, or the interme- diate guide must be present below the surface of the conveyor belts. The second conveyor belt may extend along a path com¬ pletely different from that of the first conveyor belt. Thus the second belt may extend in the same direction as the first belt, with a guide member preferably guiding the products laterally from the first conveyor belt to the second conveyor belt. Furthermore, the first and/or the second conveyor belt may be built up of several narrow belts arranged side by side. Said belts may be driven at slightly different speeds, but preferably in the same direction and synchronously in re- lation to each other. Such a driving technique makes it possible to prevent or, on the contrary, stimulate a lateral flow of products on the conveyor belts, depending on the ap¬ plication in question. Both the first and the second conveyor belt may be suitable for conveying one or more products be- side each other. The two conveyors may be driven in different ways. Independent drive units but also electronically or me¬ chanically coupled drive units may be used.