FHS-FEB24-PG30_Layout 1 20/02/2024 12:18 Page 30


WAREHOUSING, HANDLING & STORAGE


exacerbated by low availability of good quality warehouse space, and what is available is becoming more costly. In addition to overcoming these issues, having more stock on a smaller footprint means SKU lines can be stored closer together to reduce order picking times to provide faster fulfilment. In factories and assembly plants, space is generally prioritised for manufacturing processes, but sufficient stock will generally be needed in close proximity to production lines to ensure they keep flowing. These are just some of the reasons why companies may want high density storage, but what are the ways to achieve it? Determining how dense your storage needs to be will depend on several factors. These include stock profile, investment costs of the racking installation; handling/transport costs per item, which includes the cost of internal transportation and labour; handling capacity measured in picks, ie, the quantity of items retrieved per unit of time; optimum utilisation of the available headroom and footprint of a warehouse or storage area. If you do not need to retrieve goods in a specific sequence then drive-in racking is an option for efficiently and safely storing and retrieving huge stock volumes. This is particularly relevant for large volumes of the same line item, pressure-sensitive goods and unstable pallet loads, where Last In, First Out (LIFO) will do. An alternative option for optimising space is to


C


install mobile pallet racking or mobile cantilever racking, where the rack moves to open up a single aisle at the required location. It can improve storage capacity by up to 200 per cent on the same footprint or reduce floor space occupation by 50 per cent, however pickers must wait for the racks to move and the aisle to open up. This makes it more relevant for items that are not picked frequently. In warehouses where picking is more regular activity, then Pallet and Carton Live Systems create concentrated storage and pick faces within a given footprint, allowing easier installation into an existing building. Live systems will give ample storage and pick face density without the need for exact floor tolerances, which may be the case for an automated storage and retrieval system. Adding pick-to-light and pick-to-voice technology to live storage can further improve accuracy and pick rates. With live storage, each product line can be


presented in a separate flow lane and is directly accessible at the pick face. Cartons or pallets are fed into the flow lane from an aisle at the rear. Each item gently moves on rollers to its pick position at the front. Sufficient replenishment quantities guarantee constant product availability. In addition to providing compact storage on a small footprint, live systems work on the FIFO (First In


ompanies are often challenged to hold greater volumes of stock on diminishing footprints. In the case of retailers this may be to support multiple channels. This need is


HOW TO ACHIEVE HIGH DENSITY STORAGE


Edward Hutchison, managing director of BITO Storage Systems, looks at how companies can create high density storage to meet the challenges of warehouse space and labour availability.


First Out) principle, which allows easy control of production batches and sell-by dates. Separate loading and picking aisles increase operator performance and can improve safety as separating replenishment stock carried by lift trucks and pedestrian order picking in different aisles. For many applications, this kind of ‘mechanical’ solution strikes the right balance between investment, density and speed for fast moving goods picked on a FIFO basis. Adding simple automation technologies such as pick-to-light and voice picking will further improve accuracy and throughput speed. A high-rise narrow aisle


structure will make good use of vertical capacity and efficient use of floor space. As a rule, narrow aisle facilities are serviced with man-operated stacker cranes or order picking trucks. This allows picking of smaller unit loads from all racking levels. Guide rails and inductive steering ensure that service vehicles always keep the ideal distance to the installation. Using VNA (Very Narrow Aisle) trucks, will allow aisle widths typically between 1.6m and 2m, and the trucks generally operate up to approximately 15m high. Going higher means broader trucks and therefore wider aisles. High bay automated warehouses served by stacker cranes can theoretically attain heights in excess of 40m, though just over 30m is more common. These generally create the highest density solutions. A combination of factors has made it harder


for the logistics sector to rely on manual labour, which it has traditionally leaned heavily on. This has changed the cost balance for automated storage. Constantly improving in terms of modularity, sophisticated control systems, and performance developments, automation is increasingly becoming a more


practical and flexible solution for a greater variety of ‘goods to picker’ installations. No matter what the application, to gain the


greatest advantage from automated storage and retrieval systems, requires paying attention to the design of the racking. This requires sourcing racking from a supplier, such as BITO, which can provide uprights in a range of widths to allow optimum adaptation to different load requirements and building constraints to achieve the density of storage required. Indeed, such a supplier will be able to advice and design the appropriate high density storage solution to meet any challenge.


BITO Storage Systems www.bito.com/en-gb/


30 FEBRUARY 2024 | FACTORY&HANDLINGSOLUTIONS


Page 1  |  Page 2  |  Page 3  |  Page 4  |  Page 5  |  Page 6  |  Page 7  |  Page 8  |  Page 9  |  Page 10  |  Page 11  |  Page 12  |  Page 13  |  Page 14  |  Page 15  |  Page 16  |  Page 17  |  Page 18  |  Page 19  |  Page 20  |  Page 21  |  Page 22  |  Page 23  |  Page 24  |  Page 25  |  Page 26  |  Page 27  |  Page 28  |  Page 29  |  Page 30  |  Page 31  |  Page 32  |  Page 33  |  Page 34  |  Page 35  |  Page 36  |  Page 37  |  Page 38  |  Page 39  |  Page 40  |  Page 41  |  Page 42  |  Page 43  |  Page 44  |  Page 45  |  Page 46  |  Page 47  |  Page 48  |  Page 49  |  Page 50  |  Page 51  |  Page 52  |  Page 53  |  Page 54