Patent ID: 6901720
Filing Date: 2005-06-07
Classification: B65B

Abstract:
1. A method of operating a beverage bottling plant for filling beverage bottles with a liquid beverage filling material, said beverage bottling plant comprising: a cleaning station being configured and disposed to clean bottles; a first conveyer arrangement being configured and disposed to convey bottles to said cleaning station; an inspection station being configured and disposed to inspect cleaned bottles; said inspection station comprising at least a first inspection structure and a second inspection structure separate from said first inspection structure; a second conveyer arrangement being configured and disposed to convey cleaned bottles from said cleaning station to said inspection station; a beverage filling machine being configured and disposed to fill cleaned and inspected bottles with liquid beverage filling material; said beverage filling machine comprising a plurality of beverage filling devices for filling bottles with liquid beverage filling material to a substantially predetermined level; a third conveyer arrangement being configured and disposed to move inspected bottles from said inspection machine to said beverage filling machine; a closing station being configured and disposed to close filled bottles; a fourth conveyer arrangement being configured and disposed to transfer filled bottles from said beverage filling machine to said closing station; a packaging station being configured to package a plurality of bottles into individual carrying containers; a fifth conveyor arrangement being configured and disposed to transfer closed, filled bottles from said closing station to said packaging station; a handle-attaching station being configured and disposed to attach carrying handles to corresponding carrying containers; a sixth conveyor arrangement being configured and disposed to transfer said carrying containers from said packaging station to said handle-attaching station and through said handle-attaching station; said sixth conveyor arrangement being configured and disposed to space apart said carrying containers from one another upon said carrying containers entering said handle-attaching station; said handle-attaching station comprising an attaching mechanism to attach said carrying handles to said carrying containers; said attaching mechanism comprising an applicator head configured and disposed to dispense and attach strips of material to said carrying containers to form said carrying handles; said attaching mechanism comprising an X-Y-positioning unit being configured to move said applicator head horizontally and vertically; said applicator head being connected to and disposed at an end of said X-Y-positioning unit to permit said applicator head to contact said carrying containers to attach said carrying handles; said X-Y-positioning unit being configured and disposed to move said applicator head about each of said carrying containers to permit said applicator head to attach a first end of each of said carrying handles to a first surface of each corresponding one of said carrying containers and to attach a second end of each of said carrying handles to a second surface of each corresponding one of said carrying containers; and a computer control device being configured and disposed to control the movement of said X-Y-positioning unit according to a movement program; said method comprising the steps of: A) conveying with said first conveyer arrangement bottles to said cleaning station; B) cleaning with said cleaning station bottles; C) conveying with said second conveyer arrangement cleaned bottles from said cleaning station to said inspection station; D) inspecting with said inspection station cleaned bottles; E) conveying with said third conveyer arrangement inspected bottles from said inspection station to said filling machine; F) filling with said filling machine cleaned and inspected bottles with liquid beverage filling material to a substantially predetermined level of liquid beverage filling material; G) conveying with said fourth conveyer arrangement filled bottles from said filling machine to said closing station; H) closing with said closing station filled bottles; I) conveying with said fifth conveyor arrangement closed bottles from said closing station to said packaging station; J) packaging with said packaging station closed bottles into a first set of carrying containers; K) conveying with said sixth conveyor arrangement said first set of carrying containers from said packaging station to said handle attaching station and through said handle-attaching station; L) spacing apart with said sixth conveyor arrangement successive carrying containers of said first set of carrying containers upon said first set of carrying containers entering said handle attaching station; M) dispensing and attaching with said applicator head strips of material to each of said first set of carrying containers to form carrying handles, said step of dispensing and attaching comprising: N) moving said applicator head in front of a first carrying container of said first set of carrying containers; O) contacting with said applicator head said first surface of said first carrying container and attaching a first end of the carrying handle to the first surface of said first carrying container; P) moving said applicator head a predetermined distance above the upper side of said first carrying container to form a carrying handle; Q) determining the length of said carrying handle by the distance that said applicator head is away from an upper side of said first carrying container; R) moving said applicator head into the space between said first carrying container and a subsequent, second carrying container of said first set of carrying containers; S) contacting with said applicator head said second surface of said first carrying container and attaching said second end of said carrying handle to said second surface of said first carrying container; T) controlling with said computer control device the movement and actions of said X-Y-positioning unit according to a first movement program to control the movement of said applicator head; and U) repeating steps N) to T) for said subsequent, second carrying container and each subsequent carrying container of said first set of carrying containers; said method further comprising: programming said computer control device with a plurality of movement programs for carrying containers having different size configurations and for carrying handles having different size configurations; packaging a second set of carrying containers wherein each carrying container has a size configuration different from said carrying containers of said first set of carrying containers; choosing an additional different movement program on said computer control device different from said first movement program, which different movement program is configured to attach carrying handles formed from a different length of strips of material to said second set of carrying containers; repeating steps K) to U) with the different movement program on said second set of carrying containers and additional sets of carrying containers.