• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    The invention relates to a system for monitoring the oil level in a damping unit included in a link (1) of an articulated vehicle, wherein the link connects a front part of the articulated vehicle to a rear part, the system comprising a single angle sensor adapted to sense the current articulation angle the vehicle and generating a hinge angle signal dependent on sensed hinge angle oi; a first pressure sensor adapted to sense current pressure P in an attenuation unit (2,3) and generate a current pressure signal depending on sensed current pressure P; and a calculation unit comprising a model of an ideal attenuation unit, and adapted to calculate what pressure P 'an ideal attenuation unit has in a given situation by using said model, to which the hinge angle signal is used as an input signal; and comparing the current pressure P with the calculated pressure P 'and determining a pressure difference AP = P' - P and generating an indication signal about AP> Pm, where Ptm is a predetermined and adjustable threshold level. The invention also relates to a method for monitoring the oil level in the damping unit (2, 3). (Figure s)
    公开号:SE1050191A1
    申请号:SE1050191
    申请日:2010-03-01
    公开日:2011-09-02
    发明作者:Oscar Robertsson;Johan Tholen
    申请人:Scania Cv Ab;
    IPC主号:
    专利说明:

    2respective hydraulic cylinder, the articulation angle of the vehicle, at which speed the articulation bendssig mm. These values then form the basis for how much each hydrauliccylinder should dampen the joint movement. A warning is given to the driver if an error occurson the damping system.
    Another example is shown in patent US 4583756, where a control system for preventionoverride of articulated vehicles is described. The driver is warned when the pressure limit values are exceededslip or underrun.In the systems above, it is assumed that the oil level of the cylinders is correct. In order tothe damping system must function optimally, however, the respective oil level inthe hydraulic cylinders really be correct. This is especially important e.g. atviolent evasive maneuvers, which is an occasion when the control of the dampersit's a big deal. If the cylinders have an incorrect oil level, this means that the vehicledoes not react as intended in e.g. rapid processes, which can give rise to dangeroussituations.
    The object of the invention is thus to monitor the oil level in the hydraulic cylinders forto be able to take measures if deviations in the oil level are detected, and in particularset correct control of the damping system.
    Summary of the inventionThe purpose described above is achieved by a system for monitoring the oil level in adamping unit included in a joint of an articulated vehicle, where the joint connects onefront part of the articulated vehicle with a rear part. The system includes an angle sensorwhich is adapted to sense the current joint angle or of the vehicle and generate onehinge angle signal dsig depending on sensed hinge angle or; and a first pressure sensorwhich is adapted to sense the current pressure P in an attenuation unit and generatea current pressure signal depending on sensed current pressure P; and a calculationunit which includes a model of an ideal damping unit, and which isadapted to calculate what pressure P 'an ideal damping unit has at a givensituation by using said model, to which the joint angle signal dsig3used as input signal; and comparing the current pressure P with the calculated pressure P 'anddetermine a pressure difference AP = P '- P and to generate an indication signal ifAP> Pm, where Pm is a predetermined and adjustable threshold level.
    The purpose is achieved according to another aspect by a method for monitoring the oil level la damping unit which is part of a joint of an Ied vehicle, where the joint connects onefront part of the articulated vehicle with a rear part. The method includes: sensingcurrent hinge angle or of the vehicle and generate a hinge angle signal depending onsensed joint angle of; send the hinge angle signal unseen to a calculation unit whichcomprises a model of an ideal damping unit; calculate which pressure P 'an idealdamping unit has in a given situation by using said model, towhich the articulation angle signal is used as an input signal; sense current pressure P idamping unit and generate a current pressure signal depending on the current pressureP; sending the current pressure signal to said calculation unit; and comparecurrent pressure P with calculated pressure P 'and determine a pressure difference AP = P' -P, and if AP> Pm, where Pm is a predetermined and adjustable threshold level,then an indication signal is generated.
    By using a model of an ideal damping unit, one can comparethe pressure in a damping unit in the vehicle with what it should be at the currentsituation, if the damping unit had had a correct oil level. Differencesbetween the nominal pressure and the actual pressure in the damping unitthus detected. In this way, a pressure deviation in the damping unit can be detectedwhich shows that the oil level in the hydraulic cylinders is incorrect. The system can then takemeasures, e.g. warn the driver or put the vehicle in a safe position that may involvethat the vehicle's travel is limited by, for example, limiting the vehicle'sspeed or engine torque.
    The invention makes it possible to detect the oil level in real time during varying and inpreviously unknown movements.204Incorrect control of one or more damping units due to incorrectcalculation data can also be avoided.
    Preferred embodiments are described in the dependent claims and in the detailed onethe description.
    Brief description of the attached figuresIn the following, the invention will be described with reference to the accompanyingthe figures, of which:Figure 1 shows an example of a joint in an articulated vehicle.
    Figure 2 schematically shows the hydraulic system of a damping unit.
    Figure 3 schematically shows the system according to an embodiment of the invention.
    Figure 4 shows a flow chart for an embodiment of the invention.
    Detailed description of preferred embodiments of the inventionFigure 1 shows an example of a joint that can be used in an articulated bus. In the figure isthe triangular base facing backwards in the bus. In the joint unit 1 there are two dampingunits 2,3 in the form of hydraulic cylinders intended to act as dampers attwisting of the joint. A damping unit 2,3 constitutes its own insulated hydraulicsystems and damping units are only mechanically interconnected. Whenthe articulated vehicle pivots, the turning angle can be sensed in the form of an articulated angle as inFigure 1 is shown as g. This section is to be seen as an example only, and itThe present invention can also be used in connection with joints aloneone or more than two dam units.
    An overview of the damping unit's 2.3 hydraulic system is shown in Figure 2.
    The damping unit 2, 3 has been divided into two chambers, chamber 1 and chamber 2through a piston, and the figure also shows what is a positive piston movement. l eachchamber there is an outlet to a changeover valve and an inlet from a reservoir via asuction valve. At a pressure difference between chamber and liquid reservoir, when chambermaren has a lower pressure than the reservoir, the suction valve opens and allows liquid to be suckedinto the chamber to avoid large negative pressures and to top up with oil. Between5the gear valve and the proportional valve are fitted with a pressure sensor. Proportional valveis an example of a pressure relief valve that can be controlled. The gear valve is oneflow valve which in the hydraulic system releases liquid from the chamber whichhas the highest pressure pass.
    What largely characterizes a hydraulic system is the fluid that is part of itthe system. The liquid can be basically anything, but in practice is usedany type of mineral oil or synthetic liquid based on oil.
    To prevent leakage in the damping unit 2, 3 seals are used. In order toto prevent internal leakage between the two chambers, dynamic type seals are used,whose deformation does not change in connection with movement. External leakage that involvesthat liquid disappears from the system is mostly caused by incorrect installation,defects in construction or maintenance as well as wear on seals and valves.
    Figure 3 shows a system according to the invention for monitoring the oil level in adamping unit 2, 3 as described above. The system includes an angle sensorwhich is adapted to sense the current joint angle oi of the vehicle and generate onehinge angle signal dsig depending on sensed hinge angle d, and a first pressure sensorwhich is adapted to sense the current pressure P in an damping unit 2, 3 andgenerate a current pressure signal depending on sensed current pressure P. The systemfurther comprises a calculation unit comprising a model of an idealdamping unit, and which is adapted to calculate which pressure P 'is idealdamping unit has in a given situation by using said model, towhich hinge angle signal dsig is used as the input signal; and to compare current pressureP with calculated pressure P 'and determine a pressure difference AP = P' - P and thatgenerate an indication signal if AP> Pm, where Pm is a predetermined oneand adjustable threshold level.
    In this way, an incorrect pressure that indicates an incorrect liquid level in aattenuation unit is detected.6A situation may include b | .a. joint angle, joint angle speed, vehicle speed,start angle and / or end angle.
    The calculation unit can be part of another control unit in the vehicle, or beits own control unit, and contains necessary hardware and software such asprocessor, memory and program code to perform operations described herein.
    The calculation unit preferably communicates via CAN, Controller AreaNetwork, which denotes a serial bus system, specially developed for use invehicle. The CAN data bus provides the opportunity for digital data exchange between sensors,control components, actuators, controls, etc. and ensures that several controls canaccess the signals from a specific sensor, to use these for control ofits connected components. According to one embodiment, the angle sensor is directconnected to the computing unit, but may instead be distributed to otherssystem in the vehicle and is communicated via, for example, CAN.
    The system is preferably continuously receiving signals from angle sensor andpressure sensor alt. pressure sensors. According to a preferred embodiment, the calculationthe unit adapted to sum a n number of APs determined over a period of timet, and form Z AP, and if Z AP> Pm, where Pm; is a predetermined andadjustable threshold level, the calculation unit is adapted to generate oneindicator signal. By taking into account several deviations over a period of time soFor example, the diagnosis of an incorrect oil level in a damping unit can be made highersecurity. Other ways of calculating pressure deviations may also be conceivable, such asfor example, averaging over several time periods, also called testsequences. The calculation unit can also be adapted to count how manytimes an indication signal is generated during a time period tg, and if it appearsthat many time periods t, generate indication signals so the system is adaptedto sound an alarm that tells what is wrong and which damping unit 2, 3which has a deviating pressure. According to one embodiment, the time period t is a periodwhen the vehicle turns and the piston moves in a positive direction (see figure 2). That candifferences between the nominal pressure and the actual pressure in the dampingthe unit 2, 3 are detected during the construction phase of an extraction movement, which7is preferred because the pressure in the damping unit 2, 3 then builds upsame p.g.a. the smaller piston area. By monitoring the size of the lead angleand speed, the system can determine when a turn begins and ends, and to whichkeep the vehicle turning.
    According to one embodiment, the calculation unit is adapted to evaluate thethe dignity of data collected and calculated during a time period t1 from the outsidecriteria such as joint angle range and / or average joint angle velocity and / ornumber of detected APs that have exceeded Pm, and to generate an approvalsignal if the criteria are met. This ensures that the collected data is correct.
    For example. the calculation unit can evaluate the credibility by comparingthe angle at the beginning of the time period tj with the joint angle at the end of the time period. Thusyou can know how much movement was performed during the time period. A criterion forthis movement may be that the movement must be greater than, for example, 159. Otherscriteria can be, for example, what the movement looks like, i.e. at what angle it beginsand ends. If the criteria are not met, the collected data will not be approvedduring the time period, and this data is deleted.
    The information that the pressure in a damping unit 2, 3 is incorrect can be useddifferently. The indicator signal can be signaled to the driver via an indicatorunit adapted to signal said indication signal, for example aslight signals in the form of flashing warning lights or as short-range sound signalssequences. The indication signal can also be logged in a memory in a control unitthe vehicle, or sent to a central unit for further analysis and action. The signalis then transmitted according to an embodiment via wireless communication. Also data such asemerged during the time period in which the error was detected can then be saved and sentto the same central unit for further analysis and diagnosis.
    According to one embodiment, the system is adapted to send a control signal to a control unitin the vehicle to restrict the vehicle, e.g. by restricting the vehicle's permissiblespeed and / or motor torque if an indication signal has been generated asindicates that the current oil level in the damping unit is too low. That way8the driving of the vehicle is limited so as not to expose the vehicle and the vehiclepassengers for unnecessary risks. This is called by another expression to continuethe vehicle in "limp-home mode". According to another embodiment, one must alsoapproval signal have been generated during the current time period indicatingthat the collected data is approved, before the passability of the vehicle is restricted.
    The model of an ideal damping unit is according to one embodimentpf: K .ia (1)l- xn-1where K is a constant, xn is the piston position of the damping unit at the time n, xm isthe piston position at time n-1 and teaches the damping unit 2, 3 maximumexpansion length. The model assumes that the movement of the piston is positive, ie in the arrowdirection in Figure 2.
    Current joint angle signal dsig is, as is well known, an input signal to the model, and bymake use of trigonometric relationships between joint angles and piston position, if possiblethe piston position is obtained at a given joint angle d. Next, an example of how tocan bring out the piston position. Other joints may be differently designed, and then mayother connections apply.
    When a joint angle is to be converted to a piston position, there are three dimensions that arerelevant. The song b is, with reference to Figure 1, the transverse componentof the distance between the attachment point of the damping unit 2, 3 in the rear part of the vehicle andcenter on the trail. Similarly, c is the longitudinal component of distance.
    The distance between the center and the damper's second attachment point is called rsom in radius.
    The length L of the damping unit 2, 3 at a certain joint angle o is then obtained throughthe following equation:Lrøna / (c-r-srnaf fl b-r-cosaf (2)9Since the length of the damping unit 2, 3 is not as interesting as a position sothe length is converted using a reference value, and here the reference value is selectedto be the length L, of the damping unit 2, 3 when it is fully compressed. Thegives the following equation:x (a) = L (a) - L, (3)In this way, the pressure in formula (1) can be calculated by using values ofjoint angle. The above equations apply to the right attenuation unit 3 in Figure 1,but is calculated in a similar way for the left damping unit 2.
    A linear approximation of the formulas described above to calculate the pistonposition at the current joint angle o can look like the following:x (a) = k-a + m, (4)where k is the absolute amount of the slope in a piston position-joint angle diagram, andthe constant m is chosen so that the error at 09 is 0 because a turn is often started closeangle 09 (provided that 09 is straight ahead in the direction of travel of the vehicle).
    The system can also be adapted to monitor the oil level in several damping units.called. The system then comprises several pressure sensors that are adapted to sensecurrent pressure P in the damping units, the calculation unit being adapted tocalculate if any of the current pressures in the damping units is too low, and inif so, generate an indication signal indicating which of the attenuation units2, 3 which have too low a pressure. Figure 3 illustrates that the system can comprise n piecespressure sensors adapted to measure the pressure in n damping units. Throughto measure the pressure in several damping units 2, 3 in the joint 1, the system can send controlsignals to one or more control units that regulate the pressure in the damping unitswhen the current pressure P in a damping unit is too low, so that the control unit ordevices can compensate for this low pressure by changing the pressure in anotherlOattenuation unit 2, 3. For example, a standard attenuation can be applied to itfaulty damping unit 2, 3, or you can stop controlling the faulty damping unitattenuation unit 2, 3 and apply double attenuation to the other attenuation unit.device 2, 3 which is not faulty.
    The model described (1) assumes a positive piston impact at the exemplarythe joint, see figure 2. At a left turn, the movement of the piston becomes positive inthe right damping unit of the joint with reference 3 in figure 1. Thus evaluatedpreferably the right damping unit 3 at left turn, and the likereasoning, the left damping unit of the joint is preferably evaluated withreference 2 in figure 1 at right turn. As mentioned before, the system is adaptedto determine when a turn begins and ends, and eat which hob the vehicle turns,by monitoring the size and speed of the joint angle. At other joints, others canconditions prevail, and what is described herein with reference to the joint in Figure 1should only be taken as an example.
    The threshold values Pm, and Pm are values that vary depending on the type of joint andcylinder, and is thus set according to the hardware used.
    The invention also relates to a method for monitoring the oil level in adamping unit included in a joint of an articulated vehicle where the joint connects onefront part of the articulated vehicle with a rear part. A flow chart for the method is displayed infigure 4. The method comprises: A) sensing the current joint angle d of the vehicle andgenerate a hinge angle signal unseen depending on sensed hinge angle or; B) sendthe articulation angle signal to a calculation unit that includes a model of an idealdamping unit; C) calculate what pressure P 'an ideal damping unit has at agiven situation by using said model, to which the articulation angle signal is indistinctused as input signal; D) sense the current pressure P in the damping unit andgenerate a current pressure signal depending on the current pressure P; E) send itcurrent pressure signal to said calculation unit; and F) compare current pressure Pwith calculated pressure P 'and determine a pressure difference AP = P' - P, and if AP>Pihl, where Pihl is a predetermined and adjustable threshold level, allindicator signal. In this way you can determine if the sensed pressure is oneincorrect pressure, thus detecting an incorrect oil level.
    Preferably, the method comprises summing a n number of APs determinedduring a time period t1 and form Z AP, and if Z AP> Pm, where Pm; is one onpredetermined and adjustable threshold level, an indication signal is generated.
    Because here more measured values are used to investigate whether the pressure inthe damping unit 2, 3 is incorrect, so the diagnosis becomes more certain.
    According to one embodiment, the method comprises evaluating the credibility of datacollected and calculated during the time period ti on the basis of criteria such asjoint angle range and / or average joint angle velocity and / or numberdetected AP that exceeded Pm, and to generate an approval signal ifthe criteria are met. Approval signals can then be used to selectwhich time periods have approved data. According to one embodiment,the method of limiting the vehicle by e.g. restrict the permissibility of the vehiclespeed and / or motor torque if an indication signal has been generated asindicates that the current oil level in the damping unit is too low and oneapproval signal has been generated for the current time period. In order tothe indication signal here must be valid, ie the underlying data forthe calculations have been approved. Alternatively, a control signal is sent to a control unit inthe vehicle to limit the permissible speed and / or engine torque of the vehicle thenonly indication signal has been generated. Then the calculation unit assumes thatsensed data are correct.
    According to another embodiment, the method comprises monitoring the oil level in severaldamping units, the method comprising sensing current pressures P isaid damping units, and calculate if any of the current pressures inthe damping units are too low, which indicates a too low oil level, and in that casegenerate an indication signal indicating which of the attenuation units ishas too low oil level.1512According to a further embodiment, the method comprises sending control signals to oneor several control units that regulate the pressure in the damping units when the current pressureP in a damping unit is too low, so that said control unit or control units cancompensate for this low pressure by changing the pressure in another damping unit.
    The invention also relates to a computer software product, comprising computerprogram instructions for causing a computer system in a vehicle to perform the stepsthe described method, when the computer program instructions are run on saidcomputer system. The invention also includes a computer program product, thereinthe computer program instructions are stored on a computer system readable medium.
    The present invention is not limited to the embodiments described above.the forms. Various alternatives, modifications and equivalents can be used. Thereforethe above-mentioned embodiments do not limit the scope of the invention, whichdefined by the appended claims.
    权利要求:
    Claims (20)
    [1]
    A system for monitoring the oil level in a damping unit included in a hinge (1) of an articulated vehicle, the hinge connecting a front part of the articulated vehicle to a rear part, the system comprising: - an angle sensor adapted to sense the current articulation angle oi at the vehicle and generating a hinge angle signal dsig depending on sensed hinge angle d; a first pressure sensor adapted to sense current pressure P in an attenuation unit (2, 3) and generate a current pressure signal depending on sensed current pressure P; characterized in that the system comprises: - a calculation unit which comprises a model of an ideal damping unit, and which is adapted to calculate what pressure P 'an ideal damping unit has in a given situation by using said model, to which the joint angle signal dsig is used as input signal; and comparing the current pressure P with the calculated pressure P 'and determining a pressure difference AP = P' - P and generating an indication signal if AP> Pm, where Pm is a predetermined and adjustable threshold level.
    [2]
    A system according to claim 1, wherein the calculation unit is adapted to sum a n number of APs determined during a time period t1 and form Z AP, and if Z AP> Pm, where Pm is a predetermined and adjustable threshold level, then the calculation unit is adapted to generate an indication signal.
    [3]
    A system according to claim 2, wherein the calculation unit is adapted to evaluate the credibility of data collected and calculated during the time period t1 based on criteria such as joint angle interval and / or average joint angle velocity and / or number of detected APs exceeding Pm, and to generate an approval signal if criteria fulfilled.
    [4]
    A system according to claim 3, which is adapted to send a control signal to a control unit in the vehicle to limit the vehicle e.g. by limiting the permissible speed and / or engine torque of the vehicle if an indication signal has been generated 14 indicating that the current oil level in the damping unit is too low and an approval signal has been generated.
    [5]
    A system according to claim 1 or 2, which is adapted to send a control signal to a control unit in the vehicle to limit the vehicle, e.g. by limiting the permissible speed and / or engine torque of the vehicle if an indication signal has been generated indicating that the current oil level in the damping unit is too low.
    [6]
    A system according to any one of the preceding claims, wherein the system comprises an indicating unit which is adapted to signal said indicating signal to the driver of the vehicle.
    [7]
    A system according to any one of the preceding claims, wherein the model of an ideal damping unit is: Pf: K 'xn _ xn-l l - x ,, _, where K is a constant, xn is the piston stroke of the damping unit at time n, xn-, is in the piston stroke at the time you and I are the length of the damping unit.
    [8]
    A system according to any one of the preceding claims, which is adapted to monitor the oil level in several damping units, the system comprising several pressure sensors adapted to sense current pressure P in said damping units, the calculation unit being adapted to calculate if any of the current pressures in the damping units is too low which indicates a too low oil level, and in that case generate an indication signal which indicates which of the damping units has too low an oil level.
    [9]
    A system according to claim 8, which is adapted to send control signals to one or more control units which regulate the pressure in the damping units when the current pressure P in a damping unit is too low, so that said control unit or control units can compensate for this low pressure by changing the pressure in another damping unit. 15
    [10]
    Method for monitoring the oil level in a damping unit included in a link of an articulated vehicle, the link connecting a front part of the articulated vehicle with a rear part, characterized in that the method comprises: - sensing the current articulation angles of the vehicle and generating a hinge angle signal dsig depending on sensed hinge angle d; sending the hinge angle signal unattended to a calculation unit comprising a model of an ideal attenuation unit; - calculating what pressure P 'an ideal damping unit has in a given situation by using said model, for which the hinge angle signal is used indiscriminately - sensing the current pressure P in the damping unit and generating a current pressure signal depending on the current pressure P; - sending the current pressure signal to said calculation unit; -compare current pressure P with calculated pressure P 'and determine a pressure difference AP = P' - P, and if AP> Ptm, where Pm is a predetermined and adjustable threshold level, then an indication signal is generated.
    [11]
    A method according to claim 10, which comprises summing an n number of APs determined during a time period t1 and forming Z AP, and if Z AP> Pm, where Pm is a predetermined and adjustable threshold level, then an indication signal is generated.
    [12]
    Method according to claim 11, which comprises evaluating the credibility of data collected and calculated during the time period ti based on criteria such as joint angle interval and / or average joint angle velocity and / or number of detected APs exceeding Pthg, and generating an approval signal if the criteria are met.
    [13]
    A method according to claim 10 or 11, which comprises limiting the permissible speed and / or engine torque of the vehicle if an indication signal has been generated which indicates that the current oil level in the damping unit is too low and an approval signal has been generated. 16
    [14]
    A method according to claim 10 or 11, which comprises sending a control signal to a control unit in the vehicle to restrict the vehicle, e.g. by limiting the permissible speed and / or engine torque of the vehicle if an indication signal has been generated which indicates that the current oil level in the damping unit is too low.
    [15]
    A method according to any one of claims 10 to 14, wherein the model of an ideal damping unit is: _ x "_ xn-t l _ xn-i where K is a constant, xn is the piston stroke of the damping unit at time n, xn.1 is P '= KI piston stroke at time n-1 and I is the length of the damping unit.
    [16]
    A method according to any one of claims 10 to 15, which comprises monitoring the oil level in several damping units, the method comprising sensing the current pressure P in said damping units, and calculating if any of the current pressures in the damping units is too low which indicates a too low oil level, and if so, generate an indication signal indicating which of the attenuation units has too low an oil level.
    [17]
    A method according to claim 16, which comprises sending control signals to one or more control units which regulate the pressure in the damping units when the current pressure P in a damping unit is too low, so that said control unit or control units can compensate this low pressure by changing the pressure in a other damping unit.
    [18]
    A method according to any one of claims 10 to 17, which comprises signaling said indication signal to the driver of the vehicle.
    [19]
    A computer program product, comprising computer program instructions for causing a computer system in a vehicle to perform the steps of the method of any of claims 10 to 18, when the computer program instructions are run on said computer system. 17
    [20]
    The computer program product of claim 19, wherein the computer program instructions are stored on a medium readable by a computer system.
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    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    DE3305758C2|1983-02-19|1987-01-08|Daimler-Benz Ag, 7000 Stuttgart, De|
    DE3405871C2|1983-02-19|1987-10-15|Daimler-Benz Ag, 7000 Stuttgart, De|
    DE3615071C2|1986-05-03|1988-04-28|Daimler-Benz Ag, 7000 Stuttgart, De|
    DE20317243U1|2003-11-06|2005-03-17|Hemscheidt Fahrwerktech Gmbh|Valve system for hydraulic dampers used in swivel joints for articulated buses has proportional valve mounted in main current path, back-up valve in subsidiary current path being activated if power supply to first valve fails|
    SE530628C3|2006-12-12|2008-08-19|Scania Cv Ab|articulation control|EP2692555A1|2012-08-03|2014-02-05|Ego International B.V.|Joint for joining a first car and a second car of a multi-car vehicle and multi-car vehicle|
    EP2738071B1|2012-11-30|2015-08-12|Hübner GmbH & Co. KG|Articulated vehicle with a joint between the vehicle sections|
    WO2015109611A1|2014-01-23|2015-07-30|伊卡路斯车辆系统有限公司|Hydraulic damping control system in articulated bus and corresponding bus articulation system|
    EP3379222B1|2017-03-22|2020-12-30|Methode Electronics Malta Ltd.|Magnetoelastic based sensor assembly|
    SE541685C2|2017-03-28|2019-11-26|Scania Cv Ab|A safety method and an articulation system for an articulated vehicle|
    US11135882B2|2018-02-27|2021-10-05|Methode Electronics, Inc.|Towing systems and methods using magnetic field sensing|
    US11084342B2|2018-02-27|2021-08-10|Methode Electronics, Inc.|Towing systems and methods using magnetic field sensing|
    WO2019168565A1|2018-02-27|2019-09-06|Methode Electronics,Inc.|Towing systems and methods using magnetic field sensing|
    US11221262B2|2018-02-27|2022-01-11|Methode Electronics, Inc.|Towing systems and methods using magnetic field sensing|
    CN109255855B|2018-09-28|2022-01-14|上汽通用五菱汽车股份有限公司|Vehicle maintenance method, terminal and computer readable storage medium|
    US11149408B2|2019-01-31|2021-10-19|Caterpillar Inc.|Detection of unintended directional movement of an articulated implement of a machine|
    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    SE1050191A|SE534666C2|2010-03-01|2010-03-01|System and method for monitoring oil level in a damping unit in a vehicle|SE1050191A| SE534666C2|2010-03-01|2010-03-01|System and method for monitoring oil level in a damping unit in a vehicle|
    ARP110100515A| AR080227A1|2010-03-01|2011-02-18|SYSTEM AND METHOD FOR MONITORING THE OIL LEVEL IN AN AMORTIGUATION UNIT OF A VEHICLE|
    EP11750989.3A| EP2542463B1|2010-03-01|2011-02-24|System and method for monitoring of oil level in a damping unit in a vehicle|
    BR112012019735-5A| BR112012019735B1|2010-03-01|2011-02-24|SYSTEM AND METHOD FOR MONITORING THE OIL LEVEL IN A DAMPING UNIT IN A VEHICLE AND A COMPUTER-READABLE MEDIUM|
    PCT/SE2011/050210| WO2011108976A1|2010-03-01|2011-02-24|System and method for monitoring of oil level in a damping unit in a vehicle|
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