Patents by Inventor Johan Priem
Johan Priem has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 12240728Abstract: A winding module and a winding installation including winding modules for winding metal wire. In such a winding installation or take-up bench a driven capstan is used to pull the metal wire through a processing installation before being led onto a take-up spool. The spool is driven by a cantilever supported shaft. In prior art take-up benches, both the capstan and the spool is reachable by an operator from the same side. This means that the capstan direction—the direction from the driven side of the capstan to the operator side—is equal to the shaft direction—the direction from the drive side of the shaft to the open end of the shaft. In the inventive winding module the capstan direction is opposite to the shaft direction, which provides a completely different operation of the winding module and the winding installation and facilitates the introduction of doffing robots.Type: GrantFiled: January 7, 2021Date of Patent: March 4, 2025Assignee: NV BEKAERT SAInventors: Johan Priem, Johan Hugelier, Maarten Meyfroidt
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Publication number: 20230022455Abstract: A winding module and a winding installation including winding modules for winding metal wire. In such a winding installation or take-up bench a driven capstan is used to pull the metal wire through a processing installation before being led onto a take-up spool. The spool is driven by a cantilever supported shaft. In prior art take-up benches, both the capstan and the spool is reachable by an operator from the same side. This means that the capstan direction—the direction from the driven side of the capstan to the operator side—is equal to the shaft direction—the direction from the drive side of the shaft to the open end of the shaft. In the inventive winding module the capstan direction is opposite to the shaft direction, which provides a completely different operation of the winding module and the winding installation and facilitates the introduction of doffing robots.Type: ApplicationFiled: January 7, 2021Publication date: January 26, 2023Applicant: NV Bekaert SAInventors: Johan PRIEM, Johan HUGELIER, Maarten MEYFROIDT
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Patent number: 10315882Abstract: A spool fixation device for use in a wire winding installation, where in this spool fixation device, spools having a magnetically attractable flange are held to a rotatable flange using magnet assemblies. The magnet assemblies can be switched between a ‘hold’ state and a ‘release’ state. In a preferred embodiment the magnet assemblies only consume energy when in the ‘release’ state i.e. when the spool fixation device is not rotating. Alternatively the magnet assemblies can be made to only consume energy when switching states. The magnet assemblies have permanent magnet arrays and are moveable inside a non-magnetic housing. Also a drive pin to transfer torque between rotatable flange and spool is no longer necessary. Therefore the spool fixation devices allows for a smooth changeover of spools.Type: GrantFiled: January 8, 2015Date of Patent: June 11, 2019Assignee: NV BEKAERT SAInventors: Johan Priem, Johan Hugelier
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Patent number: 9868612Abstract: An arrangement of an elongated element wound on a spool is presented. The elongated element has a leading end having a bent part and an unbent part. The bent part further having a beginning part and a trailing end. The leading end is positioned on the core of the spool and the bent part deviates at least for a part from a winding direction. The elongated element further forms subsequent windings in the winding direction on the core. At least one of the subsequent windings is wound over the beginning part of the bent part while an adhesive is provided to fix the trailing end of the bent part on the core simultaneously thereby securing elongated element on the spool.Type: GrantFiled: March 11, 2014Date of Patent: January 16, 2018Assignee: NV BEKAERT SAInventors: Johan Priem, Johan Hugelier
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Patent number: 9708152Abstract: An elongated element (10) is transferred from a second (full) spool (13) to a first (empty) spool (14). A gripper (16) is positioned on the elongated element (10). The gripper (16) catches the elongated element (10) and the elongated element (10) is cut between the gripper (16) and the second spool (13) thereby leaving a leading end (19). Thereafter the gripper (16) is positioned with the leading end (19) at the level of the first empty spool (14). The gripper (16) is rotating around the axis of the first spool (14) to form first windings to fix the elongated element (10) on the first spool (14). The method allows full automation and assures the use of the wound element (10) until its final end.Type: GrantFiled: April 17, 2013Date of Patent: July 18, 2017Assignee: NV BEKAERT SAInventors: Johan Hugelier, Johan Priem
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Publication number: 20160318732Abstract: A spool fixation device for use in a wire winding installation, where in this spool fixation device, spools having a magnetically attractable flange are held to a rotatable flange using magnet assemblies. The magnet assemblies can be switched between a ‘hold’ state and a ‘release’ state. In a preferred embodiment the magnet assemblies only consume energy when in the ‘release’ state i.e. when the spool fixation device is not rotating. Alternatively the magnet assemblies can be made to only consume energy when switching states. The magnet assemblies have permanent magnet arrays and are moveable inside a non-magnetic housing. Also a drive pin to transfer torque between rotatable flange and spool is no longer necessary. Therefore the spool fixation devices allows for a smooth changeover of spools.Type: ApplicationFiled: January 8, 2015Publication date: November 3, 2016Applicant: NV BEKAERT SAInventors: Johan PRIEM, Johan HUGELIER
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Publication number: 20160031672Abstract: An arrangement of an elongated element wound on a spool is presented. The elongated element-has a leading end having a bent part and an unbent part. The bent part further having a beginning part and a trailing end. The leading end is positioned on the core of the spool and the bent part deviates at least for a part from a winding direction. The elongated element further forms subsequent windings in the winding direction on the core. At least one of the subsequent windings is wound over the beginning part of the bent part while an adhesive is provided to fix the trailing end of the bent part on the core simultaneously thereby securing elongated element on the spool.Type: ApplicationFiled: March 11, 2014Publication date: February 4, 2016Applicant: NV BEKAERT SAInventors: Johan PRIEM, Johan HUGELIER
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Publication number: 20150166288Abstract: An elongated element (10) is transferred from a second (full) spool (13) to a first (empty) spool (14). A gripper (16) is positioned on the elongated element (10). The gripper (16) catches the elongated element (10) and the elongated element (10) is cut between the gripper (16) and the second spool (13) thereby leaving a leading end (19). Thereafter the gripper (16) is positioned with the leading end (19) at the level of the first empty spool (14). The gripper (16) is rotating around the axis of the first spool (14) to form first windings to fix the elongated element (10) on the first spool (14). The method allows full automation and assures the use of the wound element (10) until its final end.Type: ApplicationFiled: April 17, 2013Publication date: June 18, 2015Applicant: NV BEKAERT SAInventors: Johan Hugelier, Johan Priem
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Publication number: 20130168071Abstract: 3D porous material comprises at least one machined side. The machined side has a solid percentage Ps being (1?Po), said Po is the porosity of the bulk of said 3D porous material and said Ps is within the 99.5% confidence interval. The present invention provides the method of manufacturing such 3D porous material. Preferably, the 3D porous material is open cell metal foam. The present invention also provides use of such open cell metal foam in a heat exchanger. The present invention further provides a heat exchanger comprising open cell metal foam.Type: ApplicationFiled: April 26, 2011Publication date: July 4, 2013Inventors: Johan Hugelier, Peter De Jaeger, Johan Priem