• 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 method for controlling power take-off in a motor vehicle (100; 110), comprising a driveline with a clutch configuration (237), automatic gearbox (240), throttle (270) to control engine (230) speed and a power take-off function (220), comprising the steps of: - confirming whether operation of said power take-off function (220) is requested; - confirming whether said clutch configuration (237) in said driveline is open; and - in the event that the operation of said power take-off function (220) is requested and said clutch configuration (237) in said driveline is open, activating (s440) a power take-off mode, entailing that said clutch configuration (237) is kept in an open position, even if the speed of the engine (230) is changed via said throttle (270).
    公开号:SE1250260A1
    申请号:SE1250260
    申请日:2012-03-19
    公开日:2013-09-20
    发明作者:Per Sundholm
    申请人:Scania Cv Ab;
    IPC主号:
    专利说明:

    In vehicles which do not have a clutch pedal and which are in this case equipped with a two-pedal system and a so-called AMT gearbox, a neutral position of a control system for the vehicle's driveline can be manually engaged by means of an actuator, whereby the vehicle's engine speed can be regulated by means of an accelerator pedal to achieve an improved operation of the PTO function. However, this means an extra maneuver for the driver to perform, which can be perceived as cumbersome. An AMT gearbox is an automatically operated gearbox consisting of one pair of gears per gear, and time-consuming in stressful situations. where the gear ratios between the gear pairs are distributed in appropriate steps.
    In vehicles with AMT gearbox, control means are arranged to control the engine, clutch and gearbox as well. In said vehicles with AMT gearbox, it is not possible to use a clutch pedal and it is therefore problematic to operate a power take-off function for the driver. In a vehicle with automatic clutch, it is not possible to control the engine speed freely with the accelerator pedal when a gear is in, because the clutch closes automatically when the accelerator pedal is depressed.
    JP 2000283189 describes a system including a power take-off.
    US2006 / 0183599 describes a system that enables operation of the vehicle as well as operation of a power take-off at different engine speeds.
    SUMMARY OF THE INVENTION There is a need to be able to handle the operation of power take-offs efficiently, without unnecessary maneuvers and loss of time. Furthermore, there is a need to be able to activate and control the operation of a power take-off function in a motor vehicle in a more user-friendly way than what is offered in vehicles of today. An object of the present invention is to provide a new and advantageous method for controlling power take-off operation in a motor vehicle.
    Another object of the invention is to provide a new and advantageous device and a new and advantageous computer program for controlling power take-off operation in a motor vehicle.
    A further object of the invention is to provide a method, an apparatus and a computer program for providing a user-friendly control of PTO operation in a motor vehicle.
    A further object of the invention is to provide an alternative method, an alternative device and an alternative computer program for controlling power take-off operation in a motor vehicle.
    These objects are achieved with a method for controlling PTO operation of a motor vehicle according to claim 1.
    According to one aspect of the invention, there is provided a method of controlling power take-off operation in a motor vehicle including a driveline having a clutch configuration, automatic transmission, throttle control for controlling engine speed or torque as well as a power take-off function. The method may include the steps of: - determining whether operation of said PTO function is requested; - determining whether said clutch configuration of said driveline is open; and - in case operation of said PTO function is requested and said clutch configuration of said driveline is open, activating a PTO mode means that said clutch configuration is maintained in the open position even if change of engine speed is requested by said throttle. 10 15 20 25 30 This provides a simple, intuitive and reliable way for the driver to activate said PTO mode.
    The method may further comprise the step of: - determining whether said PTO function is active and thereby ready for operation as an additional criterion for activating said PTO mode.
    This avoids disturbing time delays for the driver before he can start the desired activity, such as e.g. tipping of goods by means of a superstructure configuration (power take-off function).
    The method may further comprise the steps of: - determining whether operation of said PTO function is no longer requested; - determining if said throttle control is not activated; and - in the event that operation of said PTO function is no longer requested and said throttle control is not activated, deactivate said PTO mode.
    This provides a simple, intuitive and reliable way for the driver to deactivate the said PTO mode.
    The method may further comprise the step of: - determining whether said PTO function is inactive and thereby not ready for operation as an alternative criterion for deactivating said PTO mode.
    In this case, a safety function can be achieved, whereby a return to a normal mode is performed in the event that the PTO function is deactivated, for example due to leakage of hydraulic fluid in the PTO function.
    The step of determining whether operation of said PTO function is requested may involve supplying information about said request to a control unit of the vehicle by means of a signal from a PTO control. This enables a time-efficient comparison process with regard to the desired activity of the vehicle.
    In this case, it can be determined in a robust manner whether a driver wishes to drive away with the vehicle, or whether said PTO mode is to be activated for efficient operation of the PTO function under manual influence of the engine speed and open clutch configuration.
    According to one aspect of the invention, a method is provided where control of said PTO operation can take place via control of the engine speed in said activated PTO mode. In this case, the advantage is achieved that a driver, without manually placing the vehicle's transmission in a neutral position, can in an automatic and user-friendly manner influence a power take-off from the vehicle's engine for operating the PTO function.
    The procedure is easy to implement in existing motor vehicles. Software for controlling power take-off operation in a motor vehicle according to the invention can be installed in a control unit of the vehicle in the manufacture of the same. A buyer of the vehicle can thus be given the opportunity to choose the function of the procedure as an option. Alternatively, software including program code for performing the innovative method of controlling PTO operation of a motor vehicle may be installed in a control unit of the vehicle when upgrading at a service station.
    In this case, the software can be loaded into a memory in the control unit. Implementation of the innovative method is therefore cost-effective, especially since no additional components need to be installed in the vehicle according to an aspect of the invention. Required hardware is already present in the vehicle today. The invention thus provides a cost-effective solution to the above problems.
    Software that includes program code for controlling PTO operation of a motor vehicle can be easily updated or replaced. Furthermore, different parts of the software that include program code for controlling PTO operation of a motor vehicle can be replaced independently of each other. This modular configuration is advantageous from a maintenance perspective. According to one aspect of the invention, there is provided a device for controlling power take-off operation in a motor vehicle including a driveline with a clutch configuration, automatic transmission, throttle control for controlling the engine speed or torque as well as a power take-off function. The device comprises: - means for determining whether operation of said PTO function is requested; means for determining whether said clutch configuration of said driveline is open; and - means for, in case operation of said PTO function is requested and said clutch configuration of said driveline is open, activating a PTO mode meaning that said clutch configuration is maintained in the open position even if change of engine speed is requested by said throttle control.
    The device may further comprise: - means for determining whether said PTO function is active and thereby ready for operation as an additional criterion for activating said PTO mode.
    The device may further comprise: - means for determining whether operation of said PTO function is no longer requested; means for determining whether said throttle control is not activated; and - means for, in the event that operation of said PTO function is no longer requested and said throttle control is not activated, deactivating said PTO mode.
    The device may further comprise: - means for determining whether said PTO function is inactive and thereby not ready for operation as an alternative criterion for deactivating said PTO mode. The device may further comprise: - a PTO control, which is signal connected to a control unit of the vehicle, provide including information on said request regarding operation of said PTO control which is arranged to information PTO function.
    The device may further comprise means for controlling said PTO operation on the basis of the engine speed in said activated PTO mode.
    The above objects are also achieved with a motor vehicle which includes the distinctive device for controlling power take-off operation of a motor vehicle.
    The motor vehicle can be a truck or bus.
    According to one aspect of the invention, there is provided a computer program for controlling power take-off operation in a motor vehicle, said computer program comprising program code stored on a computer readable medium for causing an electronic control unit or another computer connected to the electronic control unit to perform the steps of any of claims 1-6.
    According to one aspect of the invention, there is provided a computer program for controlling power take-off operation of a motor vehicle, said computer program comprising program code for causing an electronic control unit or another computer connected to the electronic control unit to perform the steps according to any one of claims 1-6.
    According to one aspect of the invention, there is provided a computer program product comprising a program code stored on a computer readable medium for performing the method steps according to any one of claims 1-6, when said computer program is run on an electronic control unit or another computer connected to the electronic control unit. . Additional objects, advantages and novel features of the present invention will become apparent to those skilled in the art from the following details, as well as through the practice of the invention. While the invention is described below, it should be understood that the invention is not limited to the specific details described. Those skilled in the art having access to the teachings herein will recognize and incorporate into other additional applications, modifications areas, which are within the scope of the invention. SUMMARY DESCRIPTION OF THE DRAWINGS For a more complete understanding of the present invention and further objects and advantages thereof, reference is now made to the following detailed description which is to be read in conjunction with the accompanying drawings where like reference numerals refer to like parts in the various figures, and in which: 1 schematically illustrates a vehicle, according to an embodiment of the invention; Figure 2 schematically illustrates a subsystem of the vehicle shown in Figure 1, according to an embodiment of the invention; Figure 3a schematically illustrates a state function according to an embodiment of the invention; Figure 3b schematically illustrates a state function according to an embodiment of the invention; Figure 4a schematically illustrates a flow chart of a method, according to an embodiment of the invention; Figure 4b schematically illustrates in further detail a flow chart of a method, according to an embodiment of the invention; and Figure 5 schematically illustrates a computer, according to an embodiment of the invention.
    DETAILED DESCRIPTION OF FIGURES 10 Referring to Figure 1, a side view of a vehicle 100 is shown. The exemplary vehicle 100 consists of a tractor 110 and a trailer 112.
    The vehicle can be a heavy vehicle, such as a truck or a bus.
    Here, the term "link" refers to a communication link which may be a physical line, such as an optoelectronic communication line, or a non-physical line, such as a wireless connection, for example a radio or microwave link k.
    Referring to Figure 2, a subsystem 299 of the vehicle 100 is shown.
    The subsystem 299 is arranged in the tractor 110.
    The subsystem 299 includes a first controller 200. The first controller 200 may include a device described in further detail with reference to Figure 5.
    The subsystem 299 includes an engine 230. The engine 230 may be an internal combustion engine. The engine 230 may be a diesel engine with an appropriate number of cylinders.
    The motor 230 is arranged to transmit a generated torque to a stored 235.
    The clutch configuration 237 is arranged to transmit the clutch configuration 237 in a controlled manner via a rotatable shaft torque to an automatic gearbox 240 via a rotatably mounted shaft 239.
    The coupling configuration 237 can according to one embodiment be a lamella coupling.
    The gearbox 240 is arranged to transmit a torque via an output shaft 250 to the drive wheels 260a and 260b of the vehicle 100.
    The first control unit 200 is arranged for communication with the motor 230 via a link L230. The first control unit 200 is arranged to control operation of the motor 230 according to control routines stored in a memory of the control unit 200. The first control unit 200 is arranged for communication with the clutch configuration 237 via a link L237. The first control unit 200 is arranged to control operation of the clutch configuration 237 according to control routines stored in a memory of the control unit 200.
    The first control unit 200 is arranged for communication with the gearbox 240 via a link L240. The first control unit 200 is arranged to control operation of the gearbox 240 according to control routines stored in a memory of the control unit 200.
    Actuators 250 for operating a PTO function 220 are provided for communication with the first control unit 200 via a link L250. A driver can, by means of the actuators 250, activate and control the operation of said PTO function 220. The actuators 250 may include a control lever, control or pushbutton, which enables a user-friendly control of said PTO function 220.
    A power take-off function 220 is signal-connected to the first control unit 200 by means of a link L220. The first control unit 200 can, on the basis of signals received from the actuators 250, control the operation of the PTO function 220. The PTO function 220 can be any suitable PTO function 220. According to one embodiment, the PTO function 220 includes a hook exchanger. According to another embodiment, the PTO function 220 includes a tipping platform.
    Said actuator 250 is also signal connected to a valve means 260 by means of a link L260. Said valve means 260 may be a hydraulic valve for regulating a hydraulic fluid of the PTO function 220.
    The PTO function 220 can be in an active state and thereby ready for operation. This condition may involve a working pressure of hydraulic fluid of the PTO function 220 prevailing. A driver can put the PTO function 10 220 in an active state by actuating the valve device 260 by means of the actuators 250.
    The PTO function 220 may alternatively be in an inactive state and not ready for operation. This condition may mean that a working pressure of hydraulic fluid of the PTO function 220 does not prevail. A driver can put the PTO function 220 in a valve device 260 by means of the actuators 250. Inactive state by influencing The PTO function 220 can alternatively be automatically set to the inactive state and thereby not be ready for operation. This deactivation can occur when it is determined that a working pressure of hydraulic fluid at the PTO function 220 no longer prevails, for example in the event of a leakage of hydraulic fluid at the PTO function 220.
    The device 299 includes a pedal system 270. The pedal system 270 may be a two-pedal system, including a brake pedal and an accelerator pedal.
    The pedal system 270 is signal connected to the first control unit 200 by means of a link L270. A driver can change the prevailing engine speed of the engine 230 by means of the accelerator pedal. The accelerator pedal can also be referred to as a throttle control. According to an alternative embodiment, a driver can request acceleration or brake with alternative suitable devices.
    The first control unit 200 is arranged for controlling power take-off operation in a motor vehicle including a driveline with a clutch configuration, automatic transmission, throttle control for controlling the engine speed and a power take-off function, according to the innovative method. The first control unit 200 is arranged to determine whether operation of said PTO function is requested. The first control unit 200 is arranged to determine whether said clutch configuration of said driveline is open. The first control unit 200 is arranged that, in case operation of said PTO function is requested and said clutch configuration of said driveline is open, activating a PTO mode means that said clutch configuration is maintained in the open position even if change of engine speed is requested by means of said throttle control. The first control unit 200 is arranged to determine whether said PTO function is active and thereby ready for operation as a further criterion for activating said PTO mode. The first control unit 200 is arranged to determine whether operation of said PTO function is no longer requested; - determining if said throttle control is not activated; and - in the event that operation of said PTO function is no longer requested and said throttle control is not activated, deactivate said PTO mode.
    The first control unit 200 is arranged to determine whether said PTO function is inactive and thereby not ready for operation as an alternative criterion for deactivating said PTO mode. The first control unit 200 is arranged to control said PTO operation on the basis of controlling the engine speed in said activated PTO mode.
    A second control unit 210 is arranged for communication with the first control unit 200 via a link L210. The second control unit 210 may be releasably connected to the first control unit 200. The second control unit 210 may be a control unit external to the vehicle 100. The second control unit 210 may be arranged to perform the innovative method steps according to the invention. The second control unit 210 can be used to upload software to the first control unit 200, in particular software for performing the innovative method. The second control unit 210 may alternatively be arranged for communication with the first control unit 200 via an internal network in the vehicle. The second control unit 210 may be arranged to perform substantially similar functions as the first control unit 200, such as e.g. that on the basis of the received signals including information on operation of a PTO function of the vehicle is requested and information on a clutch configuration of a driveline of the vehicle is open, and, in case operation of said PTO function is requested and 10 15 20 25 30 13 clutch configuration of said driveline is open, activating a PTO mode means that said clutch configuration is maintained in the open position even if change of engine speed is requested by said throttle control. schematically illustrates a state function F1 Figure 3a according to an embodiment of the invention.
    The state function F1 is based on a normal mode. In said normal mode, motor 230, clutch configuration 237 and gearbox 240 are controlled according to known stored routines. In this case, the clutch configuration 237 will be completely or partially (slip state) closed when the driver depresses the accelerator pedal of the vehicle.
    According to one aspect of the invention, a continuous check is made here as to whether the driver acts on the actuators 250 first, or whether the driver depresses the accelerator pedal first.
    In case the driver acts on the actuators 250 before the driver depresses the accelerator pedal, it can be determined that the driver's intention is to use the PTO function 220, and not to propel the vehicle.
    If the clutch configuration 237 is fully open, i.e. the driver holds the driver first affects the actuators and the accelerator pedal released, a PTO mode will be activated.
    In the PTO mode, said clutch configuration will be maintained in the open position even if change of engine speed is requested by said throttle control. The driver can manually control the torque and speed request by means of the accelerator pedal, the clutch configuration being completely open.
    Thus, the power take-off function 220 can be controlled in a user-friendly and efficient manner. 10 15 20 25 30 14 In order to return to said normal mode, the driver must stop influencing the actuators and release the accelerator pedal. In this case, the PTO mode can be deactivated and the normal mode can be activated.
    Figure 3b schematically illustrates a state function F2 according to an embodiment of the invention.
    The state function F2 is based on a normal mode. In said normal mode, the motor 230, the clutch configuration 237 and the gearbox 240 are controlled according to known stored routines. In this case, the clutch configuration 237 will be completely or partially (slip state) closed when the driver depresses the accelerator pedal of the vehicle.
    According to one aspect of the invention, a continuous check is made here as to whether the driver acts on the actuators 250 first, or whether the driver depresses the accelerator pedal first.
    In case the driver acts on the actuators 250 before the driver depresses the accelerator pedal, it can be determined that the driver's intention is to use the PTO function 220, and not to propel the vehicle.
    If the clutch configuration 237 is fully open, i.e. the driver holds the driver first, the actuators and the accelerator pedal are released, and the PTO function is in an active state, a PTO mode will be activated. By an active permit is meant here that operation. According to a ready for operation when a working pressure of a PTO function is ready for example, the PTO function can be hydraulic fluid achieved.
    In the PTO mode, said clutch configuration will be maintained in the open position even if change of engine speed is requested by the accelerator pedal. The driver can manually control the torque and speed request by means of the accelerator pedal, the clutch configuration being completely open.
    Thus, the power take-off function 220 can be controlled in a user-friendly and efficient manner.
    To return to said normal mode, the driver must stop actuating the actuators 250 and release the accelerator pedal. According to an alternative, the PTO function must be in an inactive state in order to return to normal mode. In this case, the PTO mode can be deactivated and the normal mode can be activated.
    Figure 4a schematically illustrates a flow chart of a method of controlling power take-off operation in a motor vehicle including a driveline with a clutch configuration, automatic transmission, throttle control for controlling the engine speed and a power take-off function, according to an embodiment of the invention. The method comprises a first method step s401. Step s401 includes the steps of: - determining whether operation of said PTO function is requested; - determining whether said clutch configuration of said driveline is open; and - in case operation of said PTO function is requested and said clutch configuration of said driveline is open, activating a PTO mode means that said clutch configuration is maintained in the open position even if change of engine speed is requested by said throttle. After step s401, the process is terminated.
    Figure 4b schematically illustrates a flow chart of a method of controlling power take-off operation in a motor vehicle including a driveline with a clutch configuration, automatic transmission, throttle control for controlling the engine speed and a power take-off function, according to an embodiment of the invention. The method comprises a first method step s410. The method step s410 includes the step of determining (s410) whether operation of said PTO function is requested. This can be accomplished by manually actuating the actuators 250. After the method step s410, a subsequent method step s420 is performed.
    Method step s420 includes the step of determining whether said clutch configuration of said driveline is open. After the process step s420, a subsequent process step s430 is performed.
    The method step s430 includes the step of determining whether said PTO function is active and thereby ready for operation as an additional criterion for activating said PTO mode. After the process step s430, a subsequent process step s440 is performed.
    The method step s440 includes the step that in case operation of said PTO function is requested and said clutch configuration of said driveline is open, activating a PTO mode means that said clutch configuration is maintained in the open position even if change of engine speed is requested by said throttle.
    According to an alternative embodiment, the step includes that in case operation of said PTO function is requested, said clutch configuration of said driveline is open and the PTO function 220 is in an active state, activating a PTO mode means that said clutch configuration is maintained in the open position even if the engine speed is changed requested by means of said throttle control.
    After the process step s440, a subsequent process step s450 is performed.
    The step step s450 includes the step of operating the PTO function. This can be done by the driver manually requesting a higher speed of the engine 230 and the s450 is performed by the actuator the pedal system 270 actuates 250. After the subsequent procedure step s460. (eg the accelerator pedal) the procedure step The procedure step s460 includes the steps of: -determining whether operation of said PTO function is no longer requested; - determining if said throttle control is not activated; and - in the event that operation of said PTO function is no longer requested and said throttle control is not activated, deactivate said PTO mode.
    Alternatively, the method step s430 may include the step of: - determining whether said PTO function is inactive and thereby not ready for operation as an alternative criterion for deactivating said PTO mode.
    After the procedure step s460, the procedure is terminated.
    Referring to Figure 5, there is shown a diagram of an embodiment of a device 500. The controllers 200 and 210 described with reference to Figure 2 may in one embodiment include the device 500. The device 500 includes a non-volatile memory 520, a data processing unit 510, and a read / write memory 550. The non-volatile memory 520 has a first memory portion 530 in which a computer program, such as an operating system, is stored to control the operation of the device 500. Further, the device 500 includes a bus controller, a serial communication port , I / O means, an A / D converter, a time and date input and transfer unit, an event counter and an interrupt controller (not shown). The non-volatile memory 520 also has a second memory portion 540.
    A computer program P is provided which may include PTO drive routines for a motor vehicle including a powertrain with a clutch configuration, automatic transmission, throttle control for the engine speed and a PTO function, according to the innovative procedure.
    The program P may include routines for determining whether operation of the PTO function is requested. The program P may include routines for determining whether said clutch configuration of said driveline is open.
    The program P may comprise routines for, in case operation of said PTO function is requested and said clutch configuration of said driveline is open, activating a PTO mode meaning that said clutch configuration is maintained in the open position even if change of engine speed is requested by said throttle. The program P may comprise routines for determining whether said PTO function is active and thereby ready for operation as an additional criterion for activating said PTO mode. The program P may include routines for determining whether operation of said PTO function is no longer requested; - determining if said throttle control is not activated; and - in the event that operation of said PTO function is no longer requested and said throttle control is not activated, deactivate said PTO mode.
    The program P may include routines for determining whether said PTO function is inactive and thereby not ready for operation as an alternative criterion for deactivating said PTO mode. The program P may include routines for controlling said PTO operation on the basis of controlling the engine speed in said activated PTO mode.
    The program P can be stored in an executable manner or in a compressed manner in a memory 560 and / or in a read / write memory 550.
    When it is described that the data processing unit 510 performs a certain function, it is to be understood that the data processing unit 510 performs a certain part of the program which is stored in the memory 560, or a certain part of the program which is stored in the read / write memory 550.
    The data processing device 510 may communicate with a data port 599 via a data bus 515. The non-volatile memory 520 is intended for communication with the data processing unit 510 via a data bus 512. The separate memory 10 15 is intended to communicate with the data processing unit 510 via a data bus 511. the data processing unit 510 via a data bus 514. To the data port 599, e.g. the links L210, L220, L230, L237, L240, L250 and L270 are connected (see Figure 2).
    The read / write memory 550 is arranged to communicate with When data is received on the data port 599, it is temporarily stored in the second memory part 540. When the received input data has been temporarily stored, the data processing unit 510 is ready to execute code in a manner described above. According to one embodiment, signals received at the data port 599 include information about operation of said power take-off function is requested. According to one embodiment, signals received at the data port 599 include information about a position of a throttle control of the pedal system 270. The received signals at the data port 599 may be used by the device 500 to activate and deactivate a power take-off mode meaning that a clutch configuration of the vehicle is maintained in the open position. even if a change in the engine speed is requested by means of said throttle control.
    Parts of the methods described herein may be performed by the device 500 by means of the data processing unit 510 running the program stored in the memory 560 or the read / write memory 550. When the device 500 runs the program, the methods described herein are executed.
    The foregoing description of the preferred embodiments of the present invention has been provided for the purpose of illustrating and describing the invention. It is not intended to be exhaustive or to limit the invention to the variations described. Obviously, many modifications and variations will occur to those skilled in the art. The embodiments were selected and described to best explain the principles of the invention and its practical applications, thereby enabling those skilled in the art to understand the invention for various embodiments and with the various modifications appropriate to the intended use.
    权利要求:
    Claims (16)
    [1]
    Method for controlling PTO operation of a motor vehicle, including a driveline with a clutch configuration (237), automatic transmission (240), throttle control (270) for PTO function (220), characterized by the steps of: controlling the engine (230) speed and a - determining (s410) whether operation of said PTO function (220) is requested; - determining (s420) whether said clutch configuration (237) of said driveline is open; and - in case operation of said PTO function (220) is requested and said clutch configuration (237) of said driveline is open, activating (s440) a PTO mode means that said clutch configuration (237) is maintained in the open position even if changing the engine (230 ) speed is requested by means of said throttle control (270).
    [2]
    The method of claim 1, further comprising the step of: - determining (s430) whether said PTO function (220) is active and thereby ready for operation as an additional criterion for activating said PTO mode.
    [3]
    The method of claim 1 or 2, further comprising the steps of: - determining whether operation of said PTO function (220) is no longer requested; - determining if said throttle control (270) is not activated; and in the event that operation of said PTO function (220) is no longer requested and (270) no (s460) said throttle is activated, deactivate PTO mode.
    [4]
    The method of claim 3, further comprising the step of: - determining whether said PTO function (220) is inactive and thereby not ready for operation as an alternative criterion for deactivating said PTO mode. 10 15 20 25 30 21
    [5]
    A method according to any preceding claim, wherein the step of determining whether operation of said PTO function (220) is requested involves supplying information about said request to a control unit of the vehicle by means of a signal from a PTO control (250).
    [6]
    A method according to any one of the preceding claims, wherein control of said PTO operation takes place via control of the engine speed in said activated PTO mode.
    [7]
    An apparatus for controlling the power take-off operation of a motor vehicle (100; 110), including a driveline with a clutch configuration (237), automatic transmission (240), throttle control (270) for controlling the engine (230) speed and a power take-off function (220), characterized by: (200; 210; 500) that the PTO function (220) is requested; means determining whether to operate said means (200; 210; 500) for determining whether said clutch configuration (237) of said driveline is open; and - means (200; 210; 500) for, in case operation of said power take-off function (220) is requested and said clutch configuration (237) of said driveline is open, activating a power take-off mode meaning that said clutch configuration (237) is kept open position even if a change of the engine (230) speed is requested by means of said throttle control (230).
    [8]
    The apparatus of claim 7, further comprising: - means (200; 210; 500) for determining whether said PTO function (220) is active and thereby ready for operation as an additional criterion for activating said PTO mode.
    [9]
    The apparatus of claim 7 or 8, further comprising: means (200; 210; 500) for determining whether operation of said PTO function (220) is no longer requested; means (200; 210; 500) for determining whether said throttle control (270) is not activated; and - means (200; 210; 500) for, in case operation of said PTO function is no longer requested and said throttle control (270) is not activated, deactivating said PTO mode.
    [10]
    The apparatus of claim 9, further comprising: - means (200; 210; 500) for determining whether said PTO function (220) is inactive and thereby not ready for operation as an alternative criterion for deactivating said PTO mode.
    [11]
    The device of any of claims 7-10, further comprising: - a PTO control (250), which is signal connected to a control unit (200) of the vehicle (100; 110), which PTO control (250) is arranged to provide information including information on said request regarding operation of said PTO function (220).
    [12]
    The apparatus of any of claims 7-11, further comprising means for controlling said PTO operation based on the engine speed in said activated PTO mode.
    [13]
    Motor vehicle (100; 110) comprising a device according to any one of claims 7-12.
    [14]
    A motor vehicle (100; 110) according to claim 13, wherein the motor vehicle is a truck or a bus.
    [15]
    A computer program (P) for controlling the power take-off operation of a motor vehicle, including a driveline with a clutch configuration (237), automatic transmission (240), throttle control (270) for controlling the engine (230) speed and a power take-off function (220), wherein said computer program (P) comprises program code for causing an electronic control unit (200; 500) or another computer (210; 500) connected to the electronic control unit (200; 500) to perform the steps according to any one of claims 1-6.
    [16]
    A computer program product comprising a program code stored on a computer readable medium for performing the method steps according to any one of claims' | -6, when said computer program is run on an electronic control unit (200; 500) or another computer (210; 500). ) connected to the electronic control unit (200; 500).
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    同族专利:
    公开号 | 公开日
    US20150057901A1|2015-02-26|
    SE536444C2|2013-11-05|
    WO2013141783A1|2013-09-26|
    EP2828134A4|2017-04-26|
    EP2828134A1|2015-01-28|
    CN104203703A|2014-12-10|
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    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    SE1250260A|SE536444C2|2012-03-19|2012-03-19|Device and method for controlling power take-off operation in a motor vehicle|SE1250260A| SE536444C2|2012-03-19|2012-03-19|Device and method for controlling power take-off operation in a motor vehicle|
    CN201380014949.0A| CN104203703A|2012-03-19|2013-03-14|Device and method for controlling power take-off operation of a motor vehicle|
    US14/384,369| US20150057901A1|2012-03-19|2013-03-14|Device and method for controlling power take-off operation of a motor vehicle|
    EP13764110.6A| EP2828134A4|2012-03-19|2013-03-14|Device and method for controlling power take-off operation of a motor vehicle|
    PCT/SE2013/050246| WO2013141783A1|2012-03-19|2013-03-14|Device and method for controlling power take-off operation of a motor vehicle|
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