Patents by Inventor Dmitrij Smeljanskij
Dmitrij Smeljanskij 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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Publication number: 20220178418Abstract: A controllable vibration damper with damping force control may include a damper tube housing that is filled with damping medium. The controllable vibration damper may also include a damping valve element that is structurally and fluidically connected to the damper tube housing for damping force control. The damping valve element may be configured as a pilot-controlled pressure-limiting valve having a pilot valve. Further, a two-stage pre-throttle valve assembly placed in front of the pilot valve. The damping valve element may be arranged internally with respect to the damper tube housing in some cases. In other cases, the tamping valve element may be arranged externally with respect to the damper tube housing.Type: ApplicationFiled: December 7, 2021Publication date: June 9, 2022Applicants: thyssenkrupp Bilstein GmbH, thyssenkrupp AGInventors: Dmitrij SMELJANSKIJ, Benjamin MASLOWSKI
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Patent number: 10704642Abstract: A piston/damper tube assembly may include a damper tube with damping fluid, a movable piston rod, a working piston, a controllable 4-way bottom valve with a control member, and a compensation space. Two flow passage ways of the bottom valve connect the working space remote from the piston rod via the control member to the compensation space. Two control ways of the bottom valve load the control member on a first side with a pressure of the piston rod-side working space and on a second side with a pressure of the compensation space. The control member may control the flow passage ways in a manner dependent on the pressure of the piston-rod-side working space that prevails on the control member on the first side via a fluidic connection, and on the pressure of the compensation space that prevails on the control member on the second side via an opening.Type: GrantFiled: January 17, 2019Date of Patent: July 7, 2020Assignees: THYSSENKRUPP BILSTEIN GMBH, THYSSENKRUPP AGInventors: Christoph Schmidt, Dmitrij Smeljanskij
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Patent number: 10655702Abstract: A controllable vibration damper may include a cylinder tube with hydraulic fluid, a piston movable axially within the cylinder tube along an axis and that divides the cylinder tube into two working spaces, a piston rod parallel to the cylinder tube axis and connected at one end to the piston, fluid passages from one working space into another working space, a first valve subassembly on a first fluid passage for damping piston movement in a first direction, and a second valve subassembly on a second fluid passage for damping piston movement in a second direction. Each valve subassembly may include a valve disk seated on a valve seat in a closed position and spaced apart from the valve seat in an open position, as well as a pilot chamber containing an adjustable pressure that pushes the valve disk into the closed position.Type: GrantFiled: December 17, 2014Date of Patent: May 19, 2020Assignee: THYSSENKRUPP BILSTEIN GMBHInventors: Wolfgang Hamers, Ole Götz, Klaus Schmidt, Dmitrij Smeljanskij
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Patent number: 10634209Abstract: A controllable shock absorber may include a cylinder tube with hydraulic fluid, a movable piston that divides the cylinder tube into two working spaces, and a piston rod connected to the piston. Two fluid leadthroughs in the piston may connect the two working spaces. Valve assemblies for damping piston movement in actuating directions may be arranged on the leadthroughs. Each valve assembly may have a pilot control chamber and a valve plate movable between open and closed positions. The valve plate can be prestressed into the closed position by pressure loading the pilot control chamber. Pressures in the pilot control chambers can be set by a pilot control valve having a valve body that is movable between open and closed positions. An outflow cross section between the pilot control chambers and the working spaces is settable.Type: GrantFiled: April 18, 2016Date of Patent: April 28, 2020Assignees: THYSSENKRUPP BILSTEIN GMBH, THYSSENKRUPP AGInventor: Dmitrij Smeljanskij
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Patent number: 10526014Abstract: A regulable vibration damper, which may be utilized in a vehicle chassis, for example, may comprise a cylinder barrel that contains hydraulic fluid in sealed-off fashion, a piston that is axially movable within the cylinder barrel along a cylinder barrel axis and that divides the cylinder barrel into two working chambers, and a piston rod oriented parallel to the cylinder barrel axis and that is connected to the piston. The piston may comprise at least two fluid leadthroughs that connect the working chambers. A first valve assembly for damping piston movement in a first actuation direction may be arranged at a first fluid leadthrough, and a second valve assembly for damping piston movement in a second actuation direction may be arranged at a second fluid leadthrough. In the piston, one or more bypass ducts with throughflow cross sections of different size for the two throughflow directions may form fluidic connections between the two working chambers that bypass the vestibules.Type: GrantFiled: October 22, 2015Date of Patent: January 7, 2020Assignees: THYSSENKRUPP BILSTEIN GMBH, THYSSENKRUPP AGInventors: Wolfgang Hamers, Dmitrij Smeljanskij
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Patent number: 10465764Abstract: A regulable vibration damper may comprise a cylinder barrel that contains hydraulic fluid in a sealed manner, a piston that can be moved axially within the cylinder barrel along a cylinder barrel axis and that subdivides the cylinder barrel into two working chambers, a piston rod that is oriented parallel to the cylinder barrel axis and is connected to the piston, a valve assembly arranged at a fluid feed through to damp piston movement in an actuating direction, and a bypass duct between the two working chambers. The bypass duct may comprise a first throughflow cross section for a first throughflow direction, wherein the first throughflow cross section differs from a second throughflow cross section for a second throughflow direction. Further, the bypass duct may be formed, at least in part, by an outflow passage that is arranged on an exit side of a pilot valve for adjusting pilot pressure.Type: GrantFiled: February 18, 2016Date of Patent: November 5, 2019Assignees: THYSSENKRUPP BILSTEIN GMBH, THYSSENKRUPP AGInventor: Dmitrij Smeljanskij
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Publication number: 20190226545Abstract: A piston/damper tube assembly may include a damper tube with damping fluid, a movable piston rod, a working piston, a controllable 4-way bottom valve with a control member, and a compensation space. Two flow passage ways of the bottom valve connect the working space remote from the piston rod via the control member to the compensation space. Two control ways of the bottom valve load the control member on a first side with a pressure of the piston rod-side working space and on a second side with a pressure of the compensation space. The control member may control the flow passage ways in a manner dependent on the pressure of the piston-rod-side working space that prevails on the control member on the first side via a fluidic connection, and on the pressure of the compensation space that prevails on the control member on the second side via an opening.Type: ApplicationFiled: January 17, 2019Publication date: July 25, 2019Applicants: ThyssenKrupp Bilstein GmbH, thyssenkrupp AGInventors: Christoph Schmidt, Dmitrij Smeljanskij
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Publication number: 20180156299Abstract: A controllable shock absorber may include a cylinder tube with hydraulic fluid, a movable piston that divides the cylinder tube into two working spaces, and a piston rod connected to the piston. Two fluid leadthroughs in the piston may connect the two working spaces. Valve assemblies for damping piston movement in actuating directions may be arranged on the leadthroughs. Each valve assembly may have a pilot control chamber and a valve plate movable between open and closed positions. The valve plate can be prestressed into the closed position by pressure loading the pilot control chamber. Pressures in the pilot control chambers can be set by a pilot control valve having a valve body that is movable between open and closed positions. An outflow cross section between the pilot control chambers and the working spaces is settable.Type: ApplicationFiled: April 18, 2016Publication date: June 7, 2018Applicants: THYSSENKRUPP BILSTEIN GMBH, thyssenkrupp AGInventor: Dmitrij SMELJANSKIJ
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Patent number: 9920810Abstract: The present invention relates to a damping valve for a shock absorber, comprising a base body with a first support body and with a second support body and comprising one or more valve spring discs which separate a first damping fluid space from a second damping fluid space, wherein the valve spring discs are supported against the first support body via an inner edge support, and against the second support body via an outer edge support, and which control a passage of damping fluid in both directions by virtue of the fact that the valve spring discs lift-off either from the inner edge support or from the outer edge support, by elastic deflection. According to the invention, a stroke movable control body is provided which is prestressed against the valve spring discs, so that the control behaviour of the valve spring discs can be adjusted via the edge supports by the prestress of the control body.Type: GrantFiled: October 4, 2013Date of Patent: March 20, 2018Assignee: THYSSENKRUPP BILSTEIN GMBHInventors: Dmitrij Smeljanskij, Klaus Schmidt, Ole Götz, Wolfgang Hamers, Freddy Woenarta
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Publication number: 20180038441Abstract: A regulable vibration damper may comprise a cylinder barrel that contains hydraulic fluid in a sealed manner, a piston that can be moved axially within the cylinder barrel along a cylinder barrel axis and that subdivides the cylinder barrel into two working chambers, a piston rod that is oriented parallel to the cylinder barrel axis and is connected to the piston, a valve assembly arranged at a fluid feed through to damp piston movement in an actuating direction, and a bypass duct between the two working chambers. The bypass duct may comprise a first throughflow cross section for a first throughflow direction, wherein the first throughflow cross section differs from a second throughflow cross section for a second throughflow direction. Further, the bypass duct may be formed, at least in part, by an outflow passage that is arranged on an exit side of a pilot valve for adjusting pilot pressure.Type: ApplicationFiled: February 18, 2016Publication date: February 8, 2018Applicants: THYSSENKRUPP BILSTEIN GMBH, thyssenkrupp AGInventor: Dmitrij SMELJANSKIJ
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Publication number: 20170313355Abstract: A regulable vibration damper, which may be utilized in a vehicle chassis, for example, may comprise a cylinder barrel that contains hydraulic fluid in sealed-off fashion, a piston that is axially movable within the cylinder barrel along a cylinder barrel axis and that divides the cylinder barrel into two working chambers, and a piston rod oriented parallel to the cylinder barrel axis and that is connected to the piston. The piston may comprise at least two fluid leadthroughs that connect the working chambers. A first valve assembly for damping piston movement in a first actuation direction may be arranged at a first fluid leadthrough, and a second valve assembly for damping piston movement in a second actuation direction may be arranged at a second fluid leadthrough. In the piston, one or more bypass ducts with throughflow cross sections of different size for the two throughflow directions may form fluidic connections between the two working chambers that bypass the vestibules.Type: ApplicationFiled: October 22, 2015Publication date: November 2, 2017Applicants: ThyssenKrupp Bilstein GmbH, ThyssenKrupp AGInventors: Wolfgang Hamers, Dmitrij Smeljanskij
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Publication number: 20160312851Abstract: A controllable vibration damper may include a cylinder tube with hydraulic fluid, a piston movable axially within the cylinder tube along an axis and that divides the cylinder tube into two working spaces, a piston rod parallel to the cylinder tube axis and connected at one end to the piston, fluid passages from one working space into another working space, a first valve subassembly on a first fluid passage for damping piston movement in a first direction, and a second valve subassembly on a second fluid passage for damping piston movement in a second direction. Each valve subassembly may include a valve disk seated on a valve seat in a closed position and spaced apart from the valve seat in an open position, as well as a pilot chamber containing an adjustable pressure that pushes the valve disk into the closed position.Type: ApplicationFiled: December 17, 2014Publication date: October 27, 2016Applicant: ThyssenKrupp Bilstein GmbHInventors: Wolfgang Hamers, Ole Götz, Klaus Schmidt, Dmitrij Smeljanskij
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Publication number: 20150316118Abstract: The present invention relates to a damping valve for a shock absorber, comprising a base body with a first support body and with a second support body and comprising one or more valve spring discs which separate a first damping fluid space from a second damping fluid space, wherein the valve spring discs are supported against the first support body via an inner edge support, and against the second support body via an outer edge support, and which control a passage of damping fluid in both directions by virtue of the fact that the valve spring discs lift-off either from the inner edge support or from the outer edge support, by elastic deflection. According to the invention, a stroke movable control body is provided which is prestressed against the valve spring discs, so that the control behaviour of the valve spring discs can be adjusted via the edge supports by the prestress of the control body.Type: ApplicationFiled: October 4, 2013Publication date: November 5, 2015Applicant: THYSSENKRUPP BILSTEIN GMBHInventors: Dmitrij SMELJANSKIJ, Klaus SCHMIDT, Ole GÖTZ, Wolfgang HAMERS, Freddy WOENARTA
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Patent number: 8997952Abstract: A motor-vehicle shock absorber has a tube at least partially filled with damping liquid and extending, a piston rod axially shiftable inside the damper tube, and a piston connected to the piston rod and subdividing the damper tube into a piston rod-side working chamber and an opposite working chamber. An on-off control valve is axially movable inside the piston between a closed and an open position. A first soft-characteristic damping valve inside the piston through which the damping liquid may flow in both flow directions is connectable to a flow path of the damping liquid from one into the other working chamber through the control valve. A second hard-characteristic damping valve through which the damping liquid may flow in both flow directions is also provided in the piston.Type: GrantFiled: August 23, 2010Date of Patent: April 7, 2015Assignee: ThyssenKrupp Bilstein GmbHInventors: Ole Göetz, Wolfgang Hamers, Klaus Schmidt, Dmitrij Smeljanskij, Freddy Woenarta
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Publication number: 20120145496Abstract: The invention relates to a shock absorber for a wheel suspension of a motor vehicle, comprising a) a damper tube (1) at least partially filled with a damping liquid, b) a piston rod (2) arranged so as to reciprocate in the damper tube (1), c) an element guided in the damper tube (1), which element divides the interior of the damper tube (1) into a piston rod-side working chamber (3) and a working chamber (4) remote from the piston rod, d) a housing (5) connected to the piston rod (2), e) a control valve (6) arranged in the housing (5) and movable back and forth between a closed and an open position. The piston rod-side working chamber (3) and the working chamber (4) remote from the piston rod are hydraulically interconnected via the housing (5) and a first damping valve (7) with soft damping characteristics through which the damping fluid can flow in both flow directions is provided in the housing (5).Type: ApplicationFiled: August 23, 2010Publication date: June 14, 2012Applicant: Thyssenkrupp Bilstein Suspension GmbHInventors: Ole Göetz, Wolfgang Hamers, Klaus Schmidt, Dmitrij Smeljanskij, Freddy Woenarta