Details
| Original language | English |
|---|---|
| Pages (from-to) | 707-712 |
| Number of pages | 6 |
| Journal | Procedia CIRP |
| Volume | 50 |
| Publication status | Published - 9 Aug 2016 |
| Event | 26th CIRP Design Conference, 2016 - Stockholm, Sweden Duration: 15 Jun 2016 → 17 Jun 2016 |
Abstract
Nowadays, efficient drive solutions for the production industry are more important than ever. In view of this, new energy-efficient drive concepts for forming presses and sheet metal feeding systems are developed at the IFUM. The novel press drive is based on a power-split design, which allows a variable ram-kinematics with reduced total costs of ownership in comparison to conventional servo presses. The new feeding concept will be able to realize the contactless feed of electrically conductive sheet metals by means of electromagnetic forces. Since only the sheet metal has to be accelerated, the energy efficiency and feeding rate can be increased significantly.
Keywords
- energy efficiency, metal forming, servo press, sheet metal feeder
ASJC Scopus subject areas
- Engineering(all)
- Control and Systems Engineering
- Engineering(all)
- Industrial and Manufacturing Engineering
Sustainable Development Goals
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In: Procedia CIRP, Vol. 50, 09.08.2016, p. 707-712.
Research output: Contribution to journal › Conference article › Research › peer review
}
TY - JOUR
T1 - Energy-Efficient Drive Concepts in Metal-Forming Production
AU - Behrens, Bernd Arno
AU - Bouguecha, Anas
AU - Krimm, Richard
AU - Teichrib, Sergej
AU - Nitschke, Thomas
N1 - Funding Information: The IGF-project ‘Kontaktfreier Vorschub für hohe Bandgeschwindigkeiten’ (16749N/1) of the German Machine Tools' Association (VDW) was supported by the German Federation of Industrial Research Associations (AiF) within the framework of the Industrial Collective Research (IGF) program by the Federal Ministry of Economics and Technology on the basis of a decision by the German Bundestag. Funding Information: Pressenantrieb mit Leistungsverzweigung und mechanisch gekoppeltem Schwungrad’ was promoted under BE1691/119-1 by the German Research Foundation (DFG). The authors would like to thank the German Research Foundation (DFG) for their support. Publisher Copyright: © 2016 The Authors. Copyright: Copyright 2017 Elsevier B.V., All rights reserved.
PY - 2016/8/9
Y1 - 2016/8/9
N2 - Nowadays, efficient drive solutions for the production industry are more important than ever. In view of this, new energy-efficient drive concepts for forming presses and sheet metal feeding systems are developed at the IFUM. The novel press drive is based on a power-split design, which allows a variable ram-kinematics with reduced total costs of ownership in comparison to conventional servo presses. The new feeding concept will be able to realize the contactless feed of electrically conductive sheet metals by means of electromagnetic forces. Since only the sheet metal has to be accelerated, the energy efficiency and feeding rate can be increased significantly.
AB - Nowadays, efficient drive solutions for the production industry are more important than ever. In view of this, new energy-efficient drive concepts for forming presses and sheet metal feeding systems are developed at the IFUM. The novel press drive is based on a power-split design, which allows a variable ram-kinematics with reduced total costs of ownership in comparison to conventional servo presses. The new feeding concept will be able to realize the contactless feed of electrically conductive sheet metals by means of electromagnetic forces. Since only the sheet metal has to be accelerated, the energy efficiency and feeding rate can be increased significantly.
KW - energy efficiency
KW - metal forming
KW - servo press
KW - sheet metal feeder
UR - http://www.scopus.com/inward/record.url?scp=84986601879&partnerID=8YFLogxK
U2 - 10.1016/j.procir.2016.05.039
DO - 10.1016/j.procir.2016.05.039
M3 - Conference article
AN - SCOPUS:84986601879
VL - 50
SP - 707
EP - 712
JO - Procedia CIRP
JF - Procedia CIRP
SN - 2212-8271
T2 - 26th CIRP Design Conference, 2016
Y2 - 15 June 2016 through 17 June 2016
ER -