Transmission Patents (Class 73/115.02)
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Publication number: 20110202242Abstract: A sensor arrangement for an electronic transmission control unit of an automatic transmission accommodated in a transmission housing. The sensor arrangement comprises first and second pick-up arrangements for detecting various positions of an actuator system of the automatic transmission. The first pick-up arrangement is provided for monitoring a first position range of the actuator system remote while the second pick-up arrangement is provided for monitoring a second position range of the actuator system different from the first position range. The first and the second pick-up arrangements are connected to a common evaluation unit which, via a single common interface, connects with the electronic transmission control unit for transmitting the position signals of the first and second position range.Type: ApplicationFiled: February 4, 2011Publication date: August 18, 2011Applicant: ZF FRIEDRICHSHAFEN AGInventor: Josef HABENSCHADEN
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Patent number: 7980122Abstract: A rotation detecting device for detecting the rotational speed of a gear in a transmission without increasing the width of the gear in the axial direction, using any expensive sensor and not limiting the location of a shift drum. An internal combustion engine includes a crankcase in which a crankshaft and a transmission are accommodated. The transmission includes a plurality of gears for shifting, an input shaft for inputting a rotational drive force from the crankshaft, and an output shaft wherein the rotational drive force is transmitted from the input shaft through the gears and to the output shaft to a drive wheel. The internal combustion engine includes rotation detecting devices for respectively detecting the rotational speeds of the gears. The rotation detecting devices respectively include detecting portions opposed to the gears rotating with the rotation of the input shaft and positioned in the axial direction of the transmission.Type: GrantFiled: December 18, 2008Date of Patent: July 19, 2011Assignee: Honda Motor Co., Ltd.Inventors: Yasushi Fujimoto, Hiroyuki Kojima, Yoshihisa Kanno
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Patent number: 7908914Abstract: An arrangement for determining the rotational speed of a transmission shaft (3) featuring a transmission shaft (3), a rotational speed transmitter that is connected in a rotationally fixed manner with the transmission shaft (3) and a stationary rotational, speed sensor (34), via a rotational speed that can be detected from the rotational speed transmitter. The rotational speed transmitter is provided on the periphery of a shift collar (20) of a coupling device (19) that is axially displaceable and arranged in a rotationally fixed manner on the transmission shaft. The invention also relates to a transmission with an arrangement of this kind, as well as to a method of determining the rotational speed of the transmission shaft.Type: GrantFiled: April 25, 2007Date of Patent: March 22, 2011Assignee: ZF Friedrichshafen AGInventor: Kim Führer
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Patent number: 7905138Abstract: To determine the backlash in an arrangement in which a motor moves a load via a transmission mechanism, a transducer is used which is present anyway in conventional production machines and which measures an angular position or translatory position of the drive element or a derivative of this quantity. Via the transducer the effect of the backlash on the actual position of the drive element is measured, the actual position being different from the desired position, which is defined by the forces or torques acting on the drive. On the basis of a frequency analysis, quantities can be derived which permit the use of threshold criteria. For example, the drive is driven with a periodic signal which is close to the absorber frequency, i.e. a frequency at which the absorption by the transmission mechanism is greatest.Type: GrantFiled: March 16, 2007Date of Patent: March 15, 2011Assignee: Siemens AktiengesellschaftInventors: Hubert Bellm, Peter Krüger
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Patent number: 7752902Abstract: A torque converter may be inspected and verified using non-destructive testing methods so that the torque converter may be reused in a remanufacturing operation. The methods will permit a torque converter to be verified without needing to cut open the torque converter's housing to perform a close visual inspection. Rather, the methods make non-destructive inspection and verification possible.Type: GrantFiled: May 25, 2007Date of Patent: July 13, 2010Assignee: Caterpillar Inc.Inventors: Jeffrey J. Krieger, Keith D. Grondines, Eric J. Hopkins, Keith B. Kreider, James R. Corn
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Patent number: 7654135Abstract: A test system for a plurality of transmissions is disclosed. Each of the plurality of transmissions may have a transmission input member and a transmission output member. The test system may have a prime mover. The prime mover may have a prime mover output member configured to connect to the transmission input member of each of the plurality of transmissions. Additionally, the test system may have a plurality of inertia devices. Each of the inertia devices may be configured to connect to the transmission output member of one of the plurality of transmissions via a drive shaft. The test system may also have a controller. The controller may be configured to communicate with the prime mover and the plurality of transmissions to control a transfer of power between the plurality of transmissions.Type: GrantFiled: May 16, 2008Date of Patent: February 2, 2010Assignee: Caterpillar Inc.Inventor: Frank Anthony DeMarco
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Publication number: 20090282904Abstract: A test system for a plurality of transmissions is disclosed. Each of the plurality of transmissions may have a transmission input member and a transmission output member. The test system may have a prime mover. The prime mover may have a prime mover output member configured to connect to the transmission input member of each of the plurality of transmissions. Additionally, the test system may have a plurality of inertia devices. Each of the inertia devices may be configured to connect to the transmission output member of one of the plurality of transmissions via a drive shaft. The test system may also have a controller. The controller may be configured to communicate with the prime mover and the plurality of transmissions to control a transfer of power between the plurality of transmissions.Type: ApplicationFiled: May 16, 2008Publication date: November 19, 2009Inventor: Frank Anthony DeMarco
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Patent number: 7603893Abstract: The input rotational speed of a belt-driven conical-pulley transmission is determined by measuring a wheel rotational speed and the transmission ratio and by calculating the input rotational speed therefrom. In order to ascertain the slipping of a CVT transmission, the rate of change in the transmission ratio is drawn upon, or an acoustic parameter of the transmission is used. In the fluid control system, a valve is used whose opening cross-section is controlled according to the one differential pressure. In order to oil the conical discs, injection holes of an injection tube are used that passes through a slot provided in a slide rail resting against a strand of a flexible torque transmitting member of a conical disc flexible drive.Type: GrantFiled: April 10, 2003Date of Patent: October 20, 2009Assignee: LuK Lamellen und Kupplungsbau Beteiligungs KGInventors: Franz Bitzer, Martin Vornehm, Christian Lauinger, Michael Reuschel, Christian Späth, Christoph Angele, Thomas Pfund, André Linnenbrügger
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Publication number: 20090235727Abstract: A sensor for a transmission-shift control of a motor vehicle is described. The sensor is connectable to a supply voltage (Vs) and to ground (GND). The sensor generates a signal voltage (Vout). The signal voltage (Vout) may assume two signals (high, low), both signals (high, low) being different from the supply voltage (Vs) and from ground (GND).Type: ApplicationFiled: April 8, 2005Publication date: September 24, 2009Inventors: Peter Weiberle, Peter Sprafke, Martin Gerhaeusser
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Publication number: 20090165545Abstract: A rotation detecting device for detecting the rotational speed of a gear in a transmission without increasing the width of the gear in the axial direction, using any expensive sensor and not limiting the location of a shift drum. An internal combustion engine includes a crankcase in which a crankshaft and a transmission are accommodated. The transmission includes a plurality of gears for shifting, an input shaft for inputting a rotational drive force from the crankshaft, and an output shaft wherein the rotational drive force is transmitted from the input shaft through the gears and to the output shaft to a drive wheel. The internal combustion engine includes rotation detecting devices for respectively detecting the rotational speeds of the gears. The rotation detecting devices respectively include detecting portions opposed to the gears rotating with the rotation of the input shaft and positioned in the axial direction of the transmission.Type: ApplicationFiled: December 18, 2008Publication date: July 2, 2009Inventors: Yasushi FUJIMOTO, Hiroyuki KOJIMA, Yoshihisa KANNO
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Publication number: 20090139320Abstract: Disclosed is a method for real time determination of a base torque value, representative of maximum available torque of an engine at a specified engine rpm, as a function of engine torque during predetermined engine conditions. The base torque value is used to determine shift points for an automatic transmission of an self propelled work machine.Type: ApplicationFiled: November 29, 2007Publication date: June 4, 2009Inventor: Garth H. Bulgrien
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Publication number: 20080296117Abstract: An electrically actuated torque transfer device for use in a motor vehicle including an input shaft coupled to one or more output shafts. A modulating clutch assembly selectively couples the input shaft to the output shaft and includes an electrical clutch operator. The clutch assembly transfers torque from the input shaft to the at least one output shaft in proportion to an electrical current applied to the electrical clutch operator. A machine readable calibration tag is attached to the torque transfer device to store a unique torque profile for each torque transfer device. The torque profile includes a range of measured torque values transferred from the input shaft to the output shaft for each of a range of applied electrical currents.Type: ApplicationFiled: May 8, 2008Publication date: December 4, 2008Inventors: Brian E. Leising, Robert Scott Biggers
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Patent number: 7426854Abstract: An abnormality determination device and an abnormality determination method of a vehicle that includes a stepped type automatic transmission capable of forming a plurality of speed change steps are provided. The presence/absence of an abnormality of an element related to formation of a predetermined speed change step is determined in a state of the vehicle where the predetermined speed change step is formed. Information about the abnormality determined to be present is then stored. If the information about the abnormality is stored when the vehicle is to newly start to run, the predetermined speed change step where the abnormality stored occurred is established, and the presence/absence of the abnormality of the element related to the formation of the predetermined speed change step is re-determined.Type: GrantFiled: January 16, 2007Date of Patent: September 23, 2008Assignee: Toyota Jidhosa Kabushiki KaishaInventors: Hiroatsu Endo, Kazuo Kawaguchi
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Publication number: 20080168831Abstract: A control device for a belt type continuously variable transmission of a vehicle such as a motorcycle includes a first storage section for storing in advance reference correlation between a position of a movable flange and a detection value of a flange position detection sensor. A first processing section moves the movable flange to a position where its movement is restricted by a restriction section. A detection value of the flange position detection sensor is stored in a second storage section. A second processing section derives correlation between the position of the movable flange and the detection value of the Range position detection sensor based on the detection value of the flange position detection sensor stored in the second storage section and the reference correlation between the position of the movable flange and the detection value of the flange position detection sensor stored in the first storage section. A detection value of the flange position detection sensor is thereby calibrated.Type: ApplicationFiled: January 14, 2008Publication date: July 17, 2008Applicant: YAMAHA HATSUDOKI KABUSHIKI KAISHAInventor: Masaya SAKAUE
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Publication number: 20080115571Abstract: The invention relates to an arrangement for reading off the position of the gear lever in a gear selector in a vehicle, comprising a sensor arrangement (100) wfth a first sensor component (110) and a plurality of second sensor components (120-190) that can interact with the first sensor component (110) to detect the position of the first sensor component. The first sensor component is arranged to move with the gear lever when this is moved, and the arrangement comprises reading off means for reading off the position of the first sensor component (110) in relation to the said plurality of second sensor components (120-190). The second sensor components are arranged a maximum distance d apart in a first direction in which the first sensor component moves when the gear lever is moved, and the first sensor component has a particular length/in the said direction.Type: ApplicationFiled: March 3, 2006Publication date: May 22, 2008Applicant: KONGSBERG AUTOMOTIVE ABInventor: Frank Dankbaar