www.hpmag.co.uk HYDRAULICS & PNEUMATICS June 2026 23 Cast aluminium hydraulic reservoirs from R+L Hydraulics combine large usable volumes with integrated cooling performance and low weight. The company has introduced cast aluminium hydraulic reservoirs in NG130, offering a usable volume of 123 litres. According to R+L Hydraulics, the calculated thin-walled design provides an integrated cooling capacity of 2.1 kW at a temperature differential of ?t = 40°C. “This is the only aluminium tank of its kind. In many cases, there is no need to use an oil cooler,” says Patrick Laupitz, Sales Manager at R+L Hydraulics Germany. Weighing just 25 kg, the unpainted reservoirs are easy to handle thanks to their low weight, while their stackable design helps save transportation costs and storage space. In addition to the NG130 model, R+L Hydraulics supplies hydraulic reservoirs with usable volumes starting from 3 litres. All containers are available with optional accessories including lids, oil level indicators, cast feet, swivel castors, and filling and ventilation filters. The NG130 is also available with baffle plates. R+L Hydraulics develops, manufactures and distributes a wide range of components for fluid technology and power transmission. Its portfolio includes industrial couplings, hydraulic accessories, bellhousings, damping elements, heat exchangers and coolers. The products are used in a variety of applications, including mechanical engineering, ship and vehicle construction, the steel industry, offshore technology and specialist plant engineering. For further information please visit: www.rl-hydraulics.com New hydraulic reservoirs offer integrated cooling benefits A view inside the NG130 aluminium reservoir from R+L Hydraulics with accessories Put the Spotlight on Your Product/Service, Website, News or Update Send us: Around 100 words Plus contact details inc. website Plus a hi-res full colour image It’s just £225 for insertion in the mag & website Call 01732 340347 email andrew.jell@dfamedia.co.uk
RkJQdWJsaXNoZXIy MjQ0NzM=