![]() Particularly ‘sticky’ liquids, such as syrup, may be similar viscosity to a hair gel, yet is likely to ‘cling’ to surfaces more readily than gel. The characteristics of a liquid also play a part in the specification of a filling system and its nozzle design. Although often overlooked, the nozzle design can have a huge impact on the capability of a filling system to cleanly and efficiently fill containers time and again. Nozzles are made to suit each application, container types and fill volume. For example, piston seals which can withstand the rigours of dispensing acids may not be accredited for use within food or drinks production.Īnother item influenced by the liquid type is the nozzles used. Hoses, internal seals and valve assemblies are often specified to suit the type of liquid to be filled, whether it be Whisky or printer ink, paint or car wax the materials used within the filling system need to be specified to suit to avoid contamination or premature seal degradation and failure. ![]() The contact parts within our filling machines are made from food- and pharmaceutical-grade 316 stainless steel. Apart from the items listed above, there are a few other things to consider when choosing the right filling machine for your application. Our liquid filling systems can be specified for use in ATEX environments. Semi- automatic and fully automatic filling equipment will require either a supply of compressed air, electricity or both. Manual filling machines such as our Handifill range can – for the most part – be used almost anywhere provided there is a firm surface to secure the machine to. Additional systems can also be added such as capping and labelling to further increase production output. Production scales can be increased in several ways: conveyor systems to pass containers through the filling process automatically, multi-headed filling systems can fill up to 12 containers simultaneously, rotary infeed and outfeed tables can allow operators to place and remove numerous containers more rapidly. Semi-automatic and manual filling systems tend to be quicker to clean and changeover for a different filling application than fully automatic filling systems. Production scales of a between a few dozen and a few hundred can – in many cases – be achieved using either a manual or semi-automatic filling system, whereas regular production runs upwards of 1,000 are likely to require a greater level of automation through the filling process to achieve a high enough production rate. The number of containers to be filled has a direct correlation with the level of automation the suitable filling system should have. ![]() Many of our volumetric filling machines have the added benefit of a variable, user specified ‘secondary fill volume’ which reduces the filling speed towards the end of each cycle, preventing liquid from splashing out of the top in the final stage of filling. Volumetric filling systems work with a wider range of viscosities and container types. Where a consistent, dependable fill volume is required and the aesthetics of several bottles displayed side-by-side on a shelf is not important, a volumetric filling system will provide a greater level of accuracy (commonly +/-0.5%). This is particularly useful when filling glass bottles as the glass thickness can vary substantially. ![]() In situations where the finished product is visible within the bottle and displayed in a retail environment, a vacuum level filling system may be appropriate because it will fill bottles to the same height, regardless of any differences from one container to another. The level of accuracy required can also influence the choice of liquid filling system. Large containers above 5-litres may require a volumetric system with a mobile ‘Wander Nozzle’ to allow the operator to fill the containers at ground level.įill accuracy. Most rigid plastic or glass bottle can be filled with thinner, free-flowing liquids via a vacuum-level filling machine, whilst jars, flexible bottles or pouches are likely to require a volumetric filling system. The size, shape, and material a container is made from will influence the type of machine used to fill it. Does the liquid in question flow freely, or is it a higher viscosity? In general terms, the higher a liquid’s viscosity, the fewer filling options there are available.įree-flowing, low viscosity liquids can often be filled by either a volumetric system which uses a pneumatically powered piston to displace a predetermined amount of liquid, or by a vacuum filling system which uses a special filling nozzle arrangement to draw liquid into the bottle by suction.
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