"The importance of energy costs has increased at lightning speed in the injection moulding sector in 2022. We have responded to this with a professional action plan," explains Gerard Böhm, Managing Director Sales and Service at Arburg. "The history of our company and our current activities show that we are great at saving energy, both in terms of our products and our in-house production. We allow our customers worldwide to benefit fully from this knowledge. With our in-depth expertise, machine upgrades and digital services, we support injection moulding plants and make them strong and resilient with regard to energy efficiency."
Sharing knowledge: Comprehensive energy advice
Anyone who wants to make significant energy savings in their injection moulding parts production can receive specific and comprehensive advice and training from Arburg as part of its "Action Plan: Energy". Initial contact can be made via the responsible sales staff or by e-mailing email@example.com.
After a kick-off via video conference, the experts go to the customer's premises, where they follow a 5-step plan (Fig. 1). In order to obtain meaningful data, step 1 is to determine the energy requirement in a real production environment. For example, measuring power and compressed air leakages can reveal potential energy guzzlers (Fig. 2). The measurement data is used for subsequent advice on process optimisation directly at the machine (Fig. 3). This is followed by new measurements to evaluate the success of these measures. In step 2, the machine fleet is classified and individual retrofits are considered. Step 3 comprises process and cycle time optimisations with the aim of increasing output and reducing specific energy requirements. In steps 4 and 5, the experts deal with the "dos and don'ts" of moulds and peripheral equipment.
At the end of the action plan, there is a detailed consultation and a final discussion with the customer, who is given an individual list of measures with all the information and specific recommendations on suitable retrofits, digital solutions and, depending on the region, the use of possible subsidies.
Learning something new: Special energy efficiency courses
Arburg offers special courses on energy efficiency at its Training Center in Lossburg as well as directly at the customer's premises. As part of an information seminar, for example, maintenance staff and production managers learn how they can make their work even more energy efficient. The seminar explains, among other things, which criteria can be used to select the most energy-efficient injection moulding machine, determine the specific energy requirement of an Allrounder and exploit savings opportunities in the injection moulding process. In addition, the Arburg experts provide practical training for machine operators on request, directly on their Allrounders on site.
Documenting: Energy data for certification
Arburg can provide documented and traceable consumption measurements for new machines for businesses that require detailed energy data for certification (Fig. 4). This service has three components:
- Basic: Measurement of the energy requirement in the operating phase of the Arburg injection moulding machine and robotic system.
- Extended: In addition to the operating phase, the energy requirement in the start-up and cooling phases is determined, including peripheral devices.
- Complete: Additional measurement of water and compressed air consumption, flow rate and cooling capacity.
Saving energy: Upgrades and retrofits
Existing Allrounder injection moulding machines of all sizes and series can also be retrofitted to optimise their energy use. Depending on the application, it may be worthwhile to fully insulate the cylinder, which ensures that process heat losses are minimised and heating is fast (Fig. 5). With this measure, the energy requirement in relation to heating energy can be reduced by up to 40 per cent, depending on the process.
For machines made in 2011 or earlier (with IE1 and older motors), an upgrade with energy-efficient air- and water-cooled IE3 motors can save up to ten per cent of energy, which means a return on investment (ROI) of only 1.5 to 2 years, depending on the machine.
For newer Allrounders, retrofitting with the Arburg energy saving system AES can also be considered. For example, assuming a cycle time of 50 seconds and 6,000 hours of production per year, a hydraulic Allrounder 270 S can save around 4,800 euros with electricity costs of 40 cents per kilowatt hour. With an Allrounder 820 S and 50 cent electricity costs, this measure even reduces production costs by around 21,000 euros per year. In general, the payback period for an investment of this kind depends on the energy costs, machine and process.
Intelligent support: "EnergyAssist" controller function
The Gestica machine controller actively supports the operator – including when it comes to energy optimisation. The assistance function "aXw Control EnergyAssist" brings together all the essential functions for the heating zones of the plasticising cylinder and the mould hot runner, for example, and ensures that all heating zones are switched on and off in an optimised manner. This can reduce the energy requirement in the heating phase by up to 30 per cent (Fig. 6).
Energy-efficient working: New Allrounder 470 H
Arburg has answered the question of what an energy-optimised machine of the future will look like with its milestone machine: "When designing the hybrid Allrounder 470 H, we made significant advances to our tried-and-tested technology in order to optimise the energy footprint and reduce cycle times," emphasises Guido Frohnhaus, Managing Director Technology & Engineering at Arburg. "There are many technical innovations in the new machine generation that are only available from Arburg". These include the new oil management concept, flow splitting for simultaneous movements of hydraulic secondary axes and the extended use of the Arburg servo hydraulic system. The new machine saves energy, conserves resources, and is efficient in production, user-friendly and reliable at the same time (Fig. 7+8).
This is also made possible above all thanks to the combination of electric clamping unit and hydraulic injection unit. The electric drives reduce the energy requirement and hence the operating costs and carbon footprint. The high-quality hydraulic injection unit lowers the purchase costs and is also very robust.
A comparison of the hybrid Allrounder 470 H milestone machine with similar hydraulic machines produces some impressive figures:
- A 50 per cent smaller energy footprint
- Up to 12,000 kilograms less CO2 per year
- Around 35 per cent less oil – preheated by machine waste heat
- A cooling water capacity that is between 50 and 70 per cent lower
- Dry cycle times reduced by up to 33 per cent, resulting in significantly greater production efficiency
The bottom line is that the Allrounder 470 H significantly reduces acquisition and operating costs as well as the carbon footprint.
Comparing Allrounders: Energy labels in the customer portal
Digital products and features help make production processes more energy efficient and create transparency – at any time and around the clock. The arburgXworld customer portal plays an important role here. New features in the "MachineCenter" app include energy labels: each Allrounder is assigned to one of three energy efficiency classes. In addition, its carbon footprint is displayed from the creation phase to delivery to the customer (Fig. 9).
Depending on the machine, the customer portal also provides tailored suggestions for energy optimisation, e.g. through retrofits. The new equipment comparison option helps users quickly and efficiently find the best Allrounder for their current injection moulding process during production planning. Another tried-and-tested tool for determining the most efficient solution is the Arburg cost effectiveness calculator, which uses important parameters to compare the various options and determine unit costs and the payback period, for example.
Visualising the energy requirement: ARBURG host computer system ALS
The host computer system ALS also makes a significant contribution to increasing the production and energy efficiency of machines and systems. Arburg's proprietary manufacturing execution system (MES) allows users to digitally plan and control their entire plastic parts production process and track all relevant information.
Mobile ALS functions enable resource-saving paperless production. Their energy requirements can be visualised and evaluated via ALS (Fig. 10). In the information and machine terminal, the total energy requirement of the current job, the energy requirement per 15 minutes or the average output per 15 minutes can be displayed.
Energy consulting as part of a professional action plan forms an important new component of Arburg's portfolio of services. Especially in times of scarce resources and high energy costs, customers benefit from this in a very tangible way, with on-site energy measurements and in-depth advice identifying specific areas for action. Subsequent implementation of individual measures in the injection moulding plant, adjustments to the machines, and the use of digital features and supplementary training courses open up enormous potential that can significantly reduce energy requirements and thus also costs. Arburg is thus once again positioning itself as a primary contractor that provides its customers with full support in implementing their production tasks far beyond pure machine technology.
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Energy efficiency was an important theme of the Arburg Anniversary Days 2023. The "Action Plan: Energy" generated a correspondingly high response.
Fig. 1: Arburg's comprehensive energy advice follows a 5-step plan based on energy measurements in a real production environment at the customer's premises.
Fig. 2: Measurements of power and compressed air leakages reveal energy guzzlers.
Fig. 3: As part of the "Action Plan: Energy", Arburg experts determine the energy requirements of injection moulding production at the customer's premises. This measurement data forms the basis for intensive consultation and an individual list of measures.
Fig. 4: If required, Arburg provides documented and traceable consumption measurements and energy data for certification.
Fig. 5: Energy-optimised by retrofit: Full insulation of the cylinder can reduce the energy requirement by up to 40 per cent.
Fig. 6: The "aXw Control EnergyAssist" function in the Gestica controller reduces power consumption and power peaks during heat-up. The result is a reduction in the energy requirement of up to 30 per cent.
Fig. 7: "100 years of the Hehl family company": Guido Frohnhaus (left), Managing Director Technology & Engineering, and Gerhard Böhm, Managing Director Sales and Service, presented the world premiere of the hybrid Allrounder 470 H milestone machine with new machine technology in Lossburg in February 2023.
Fig. 8: The hybrid Allrounder 470 H milestone machine sets the stage for a new type of machine technology that is particularly good at saving energy and conserving resources, and is efficient in production, user-friendly and reliable.
Fig. 9: As part of the Anniversary Days in March 2023, Arburg experts presented new features for the arburgXworld customer portal such as the energy label in the "MachineCenter" app.
Fig. 10: With the mobile ALS functions, users can always keep an eye on production, and its energy requirements can also be visualised and evaluated.
All photos: ARBURG