Patents by Inventor Jurgen Moosmann
Jurgen Moosmann 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: 11590538Abstract: Bulk material cleaner (1) comprising a support frame (2) and a screen housing (3), which can be oscillated and/or vibrated by a drive (5). At least one screen (6) is arranged in the screen housing (3). The screen housing has a feed opening (7) and at least two outlet openings (8, 9), the outlet openings (8, 9) being for a first fraction (F1) and a second fraction (F2), respectively. Moreover, the bulk material cleaner (1) comprises an air separator (10), which is only fastened on the screen housing (3).Type: GrantFiled: August 20, 2019Date of Patent: February 28, 2023Assignee: BÜHLER AGInventors: Roman Haag, Jürgen Moosmann
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Publication number: 20210308721Abstract: Bulk material cleaner (1) comprising a support frame (2) and a screen housing (3), which can be oscillated and/or vibrated by a drive (5). At least one screen (6) is arranged in the screen housing (3). The screen housing has a feed opening (7) and at least two outlet openings (8, 9), the outlet openings (8, 9) being for a first fraction (F1) and a second fraction (F2), respectively. Moreover, the bulk material cleaner (1) comprises an air separator (10), which is only fastened on the screen housing (3).Type: ApplicationFiled: August 20, 2019Publication date: October 7, 2021Inventors: Roman HAAG, Jürgen MOOSMANN
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Patent number: 10974249Abstract: A rotor (1) for a grinding machine (2) for the foodstuffs and feedstock industry, having an external diameter of between 0.5 and 0.6 m, comprising a plurality of substantially cylindrical, in particular hollow cylindrical, grinding elements (3). One such grinding element (3) has an outer grinding surface (4) substantially in the form of a circular cylinder jacket, and the grinding elements (3) are arranged coaxially above one another and in such a way that a substantially annular air gap (5) is produced between the grinding surfaces (4) of two adjacent grinding elements (3). A ratio between an enveloping surface (H) of the rotor (1) and a total grinding surface of the rotor (1) is greater than 1.05 and less than 1.25.Type: GrantFiled: December 2, 2016Date of Patent: April 13, 2021Assignee: BÜHLER AGInventors: Benjamin Kinzel, Jürgen Moosmann
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Patent number: 10926296Abstract: A passive food screen device (1) for flour in a delivery flow comprising: a housing (2) with a housing inlet (3) and a housing outlet (4); a closed screen insert (5) arranged substantially within the housing (2) such that a spatial area (6) is formed between the inner wall (7) of the housing (2) and the outer wall (8) of the screen insert (5) and screen elements (9) of the screen insert (5) are arranged substantially parallel to the main conveying direction (F); and a hose coupling (10) on the housing inlet (3) and/or on the housing outlet (4). The food screen device allows a high delivery capacity, and, by virtue of its narrow design, can be carried on a silo vehicle and used as a control screen when delivering flour. The food screen device (1) is designed such that the flour can be moved in an air delivery stream.Type: GrantFiled: April 1, 2015Date of Patent: February 23, 2021Assignee: BÜHLER AGInventor: Jürgen Moosmann
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Publication number: 20190070612Abstract: A rotor (1) for a grinding machine (2) for the foodstuffs and feedstock industry, having an external diameter of between 0.5 and 0.6 m, comprising a plurality of substantially cylindrical, in particular hollow cylindrical, grinding elements (3). One such grinding element (3) has an outer grinding surface (4) substantially in the form of a circular cylinder jacket, and the grinding elements (3) are arranged coaxially above one another and in such a way that a substantially annular air gap (5) is produced between the grinding surfaces (4) of two adjacent grinding elements (3). A ratio between an enveloping surface (H) of the rotor (1) and a total grinding surface of the rotor (1) is greater than 1.05 and less than 1.25.Type: ApplicationFiled: December 2, 2016Publication date: March 7, 2019Inventors: Benjamin KINZEL, Jürgen MOOSMANN
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Patent number: 9873124Abstract: A beating device (1) for inactivating insects in a pourable feedstuff or foodstuff, with a housing (2), which has at least one inlet opening (3) and at least one outlet opening (4) for the material to be treated. A drum (6) is arranged in the housing (2) and rotatably about an axis of rotation (5). A plurality of blade elements (9) of a first type extend approximately parallel to the axis of rotation (5) and have a beating surface (10) arranged between two end parts (7, 8) of the drum (8). The drum is partially (8) circumferentially surrounded by a wall (11) of the housing (2) and the at least one inlet opening (3) and the at least one outlet opening (4) are formed in the wall (11).Type: GrantFiled: August 6, 2014Date of Patent: January 23, 2018Assignee: Bühler AGInventors: Jürgen Moosmann, Andreas Meile
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Publication number: 20170106410Abstract: A passive food screen device (1) for flour in a delivery flow comprising: a housing (2) with a housing inlet (3) and a housing outlet (4); a closed screen insert (5) arranged substantially within the housing (2) such that a spatial area (6) is formed between the inner wall (7) of the housing (2) and the outer wall (8) of the screen insert (5) and screen elements (9) of the screen insert (5) are arranged substantially parallel to the main conveying direction (F); and a hose coupling (10) on the housing inlet (3) and/or on the housing outlet (4). The food screen device allows a high delivery capacity, and, by virtue of its narrow design, can be carried on a silo vehicle and used as a control screen when delivering flour. The food screen device (1) is designed such that the flour can be moved in an air delivery stream.Type: ApplicationFiled: April 1, 2015Publication date: April 20, 2017Inventor: Jürgen MOOSMANN
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Publication number: 20160198696Abstract: A beating device (1) for inactivating insects in a pourable feedstuff or foodstuff, with a housing (2), which has at least one inlet opening (3) and at least one outlet opening (4) for the material to be treated. A drum (6) is arranged in the housing (2) and rotatably about an axis of rotation (5). A plurality of blade elements (9) of a first type extend approximately parallel to the axis of rotation (5) and have a beating surface (10) arranged between two end parts (7, 8) of the drum (8). The drum is partially (8) circumferentially surrounded by a wall (11) of the housing (2) and the at least one inlet opening (3) and the at least one outlet opening (4) are formed in the wall (11).Type: ApplicationFiled: August 6, 2014Publication date: July 14, 2016Inventors: Jürgen MOOSMANN, Andreas MEILE
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Patent number: 9138780Abstract: A fractionating device comprises at least one inlet for feedstock, at least one light material outlet for a light material fraction and at least one heavy material outlet for a heavy material fraction. A flow generator for generating gas flow in the fractionating device for separating the light and heavy fractions. A curved centrifugal separating device separates the light material fraction from the gas flow. A conveyor downstream of the inlet carries the feedstock into the centrifugal separating device. At least 50% of the gas can be conducted in the fractionating device as a circulatory flow which is conducted around the conveying device.Type: GrantFiled: May 2, 2012Date of Patent: September 22, 2015Assignee: Bühler AGInventors: Jürgen Moosmann, Bruno Fässler
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Patent number: 9108222Abstract: The method for fractionating bulk material comprises the step of feeding the bulk material to at least one screen in a device (1) comprising at least one housing (10) with an inner space for receiving the screen. The housing (10) has at least one inlet (13) for feeding the bulk material and at least one outlet for discharging at least one fraction of the bulk material. The housing (10) has a roof (15) and a floor (16), with at least a gyrating mass (17) respectively arranged on the roof and the floor. The device (1) also has at least one mechanical coupling means, wherein the gyrating masses are coupled to one another by the mechanical coupling means (21) arranged outside the inner space and can be driven. The device (1) has a drive means for driving the mechanical coupling means. The method also comprises the step of setting the housing (10) in an oscillating motion by means of driving the gyrating masses. In a further method step, the fractionating of the bulk material is performed by means of the screen.Type: GrantFiled: May 2, 2012Date of Patent: August 18, 2015Assignee: Bühler AGInventors: Jurgen Moosmann, Bruno Fassler
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Publication number: 20140353220Abstract: A fractionating device comprises at least one inlet for feedstock, at least one light material outlet for a light material fraction and at least one heavy material outlet for a heavy material fraction. A flow generator for generating gas flow in the fractionating device for separating the light and heavy fractions. A curved centrifugal separating device separates the light material fraction from the gas flow. A conveyor downstream of the inlet carries the feedstock into the centrifugal separating device. At least 50% of the gas can be conducted in the fractionating device as a circulatory flow which is conducted around the conveying device.Type: ApplicationFiled: May 2, 2012Publication date: December 4, 2014Inventors: Jürgen Moosmann, Bruno Fässler
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Publication number: 20140299519Abstract: The method for fractionating bulk material comprises the step of feeding the bulk material to at least one screen in a device (1) comprising at least one housing (10) with an inner space for receiving the screen. The housing (10) has at least one inlet (13) for feeding the bulk material and at least one outlet for discharging at least one fraction of the bulk material. The housing (10) has a roof (15) and a floor (16), with at least a gyrating mass (17) respectively arranged on the roof and the floor. The device (1) also has at least one mechanical coupling means, wherein the gyrating masses are coupled to one another by the mechanical coupling means (21) arranged outside the inner space and can be driven. The device (1) has a drive means for driving the mechanical coupling means. The method also comprises the step of setting the housing (10) in an oscillating motion by means of driving the gyrating masses. In a further method step, the fractionating of the bulk material is performed by means of the screen.Type: ApplicationFiled: May 2, 2012Publication date: October 9, 2014Applicant: Bühler AGInventors: Jurgen Moosmann, Bruno Fassler
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Patent number: 8146749Abstract: A plan sifter for sifting or sieving, flour-like or granular products, includes at least one compartment. Each sifting compartment has a dedicated drive, so that the base surface available can be better utilized, and the sifting capacity can be better adjusted to actual needs.Type: GrantFiled: November 22, 2007Date of Patent: April 3, 2012Assignee: Bühler AGInventor: Jürgen Moosmann
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Publication number: 20100006480Abstract: The invention relates to a plan sifter for sifting, or sieving, flour-like or granular products, comprising at least one compartment. The characterizing part is that each sifting compartment has a dedicated drive. In this manner, the base surface available can be better utilized, and the sifting capacity can be better adjusted to the actual need.Type: ApplicationFiled: November 22, 2007Publication date: January 14, 2010Applicant: Buhler AGInventor: Jurgen Moosmann
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Patent number: D735257Type: GrantFiled: October 25, 2011Date of Patent: July 28, 2015Assignee: Bühler AGInventors: Paolo Fancelli, Bruno Fässler, Jürgen Moosmann
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Patent number: D843737Type: GrantFiled: October 8, 2014Date of Patent: March 26, 2019Assignee: Bühler AGInventors: Jürgen Moosmann, Marcel Linder, Daniel Dörig
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Patent number: D895686Type: GrantFiled: June 12, 2018Date of Patent: September 8, 2020Assignee: BÜHLER AGInventors: Andreas Meile, Jürgen Moosmann, Paolo Fancelli
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Patent number: D925611Type: GrantFiled: December 16, 2019Date of Patent: July 20, 2021Assignee: BÜHLER AGInventors: Andreas Meile, Jürgen Moosmann, Paolo Fancelli
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Patent number: D1013730Type: GrantFiled: December 15, 2021Date of Patent: February 6, 2024Assignee: Bühler AGInventors: Kevin Hausammann, Jürgen Moosmann