The present invention relates to an auxiliary braking device of a vehicle. More particularly, the present invention relates to at least one of an exhaust brake of an engine and a retarder for obtaining a braking force by a generator set on a propeller shaft.
Various auxiliary braking devices have been proposed (See Patent Literature 1 and Patent Literature 2, for example).
Patent Literature 1 and Patent Literature 2 are both constructed such that the auxiliary braking device is not operated during an operation of an accelerator pedal (See
Therefore, according to such auxiliary braking device, if the accelerator pedal is pressed while the auxiliary braking device is operating, a vehicle stops braking and changes to an acceleration state instantly from a deceleration state, and a shock occurs in the vehicle.
In the vehicle provided with the auxiliary braking device with such constructions, repetition of acceleration/deceleration increases, a frequency of coasting decreases and a fuel consumption of the vehicle deteriorates on a flat road when an inter-vehicle distance to a preceding vehicle frequently increases/decreases while following the preceding vehicle or on a road in mountains with continuous ups and downs.
Since acceleration/deceleration increase, shifting up and shifting will be repeated in a vehicle provided with an automatic transmission, which might give a sense of discomfort to a driver.
Patent Literature 1: Japanese Patent Application Non-examined Publication Gazette No. H08-282329
Patent Literature 2: Japanese Patent Application Non-examined Publication Gazette No. 2000-35114
The present invention was proposed in view of the above described prior art problems and has an object to provide an auxiliary braking device of a vehicle which can obtain a braking force according to an amount of pressing of an accelerator pedal even during an operation of the auxiliary braking device, so as to prevent frequent repetition of acceleration and deceleration and to realize a fuel saving operation.
An auxiliary braking device (100) of a vehicle of the present invention has a vehicle electronic control unit (vehicle ECU 10) and other electronic control units (ECU: an engine ECU 20, a retarder ECU 30, a transmission ECU and the like, for example), and the vehicle electronic control unit (10) and the other electronic control units (20, 30) are connected by an in-vehicle communication system (so-called “CAN communication” L123, for example), an auxiliary brake switch position detection device (5S) for detecting a switch position of an auxiliary brake switch (5) and an accelerator pedal pressing amount measurement device (accelerator opening sensor 4S) for measuring an amount of pressing of an accelerator pedal (4) (as a voltage of the accelerator pedal) are provided, the vehicle electronic control unit (10) is provided with a storage device (14) storing characteristics of the amount of pressing the accelerator pedal and the auxiliary braking force,
the vehicle electronic control unit has a function for determining the auxiliary braking force corresponding to the amount of pressing the accelerator pedal (4) in correspondence with the characteristics stored in the storage device (14), if the accelerator pedal (4) is pressed when an auxiliary braking device (3) is operated by the auxiliary brake switch (5) and
a function for transmitting the determined auxiliary braking force to the other electronic control units (20, 30) are provided.
In the present invention, the characteristics of the amount of pressing the accelerator pedal (4) and the auxiliary braking force stored in the storage device (14) are preferably different at each switch position of the auxiliary brake switch (5).
In the present invention, the auxiliary braking device (100) of a vehicle is preferably at least one of an exhaust brake of the engine and a retarder (3) for obtaining the braking force by a generator set on a propeller shaft.
According to the present invention provided with the above described constructions, if the accelerator pedal (4) is pressed when the auxiliary braking device (100) is operating, the auxiliary braking force corresponding to the amount of pressing the accelerator pedal (4) is determined and it is transmitted to the electronic control units (20, 30) other than the vehicle electronic control unit (10).
Thus, even if the accelerator pedal (4) is pressed when the auxiliary braking device (100) is operating, the state does not immediately change to an acceleration state as in the prior art, but the auxiliary braking force corresponding to the accelerator pedal (4) works.
Thus, rapid acceleration or occurrence of a shock in the vehicle caused by that as in the prior art can be prevented.
Moreover, if the amount of pressing the accelerator pedal (4) is decreased while the auxiliary braking device is operating, the auxiliary braking force increases in accordance with that. There is no need as in the prior art to return the accelerator pedal until the accelerator pedal opening becomes zero in order to operate the auxiliary braking force.
As a result, it is no longer necessary to repeat pressing of the accelerator pedal (4) and returning it until the opening becomes zero. Thus, as compared with the prior art, acceleration/decoration of the vehicle become gentle and frequencies of acceleration/deceleration decrease and fuel consumption is improved.
Moreover, since acceleration/deceleration become gentle, repetition of shift-up/shift-down in a vehicle having an automatic transmission is prevented.
An embodiment of the present invention will be described below by referring to the attached drawings.
In
It is possible to select an exhaust brake other than the retarder 3 for the auxiliary braking device main body.
The accelerator opening sensor 4S is attached to be engaged with an accelerator pedal 4 and transmits a voltage signal of intensity according to accelerator opening to the control unit (hereinafter referred to as a “control unit”) 10 by a line L4.
The auxiliary brake switch position detection device (hereinafter referred to as an “auxiliary brake position sensor”) 5S is constructed to be engaged with an auxiliary brake lever 5 whose intensity of an auxiliary braking force (degree of effect) can be switched in four stages so as to detect a position of the four stages.
The auxiliary brake position sensor 5S transmits information of the current position to the control unit 10 by a line L5.
The control unit 10, the engine controller 20, and the retarder controller 30 are connected to each other by an in-vehicle communication system (so-called “CAN communication”, for example) L123.
The engine controller 20 is connected to a fuel injection device, not shown, by a line L20 and is constructed to control a fuel injection amount of the fuel injection device in accordance with a control signal transmitted by the control unit 10.
The retarder controller 30 is connected to the retarder 3 by a line L30 and is constructed to adjust a braking force (power generation amount) of the retarder 3 in accordance with the control signal transmitted by the control unit 10.
In
The auxiliary braking force determination block 12 and the database 14 are connected by a line L124 and a line L142. It is constructed such that a position of the auxiliary brake is sent from the auxiliary braking force determination block 12 to the database 14 by the line L124, while characteristics relating to the auxiliary braking force corresponding to the position are sent back from the database 14 to the auxiliary braking force determination block 12 by the line L142.
The auxiliary braking force determination block 12 determines the auxiliary braking force from the accelerator opening information from the accelerator opening sensor 4S obtained by the line L4, auxiliary braking force information from the auxiliary brake position sensor 5S obtained by the line L5, and characteristic diagrams (See
Then, the auxiliary braking force determination block 12 sends a control signal for generating the auxiliary braking force determined in the auxiliary braking force determination block 12 to the retarder controller 30. Alternatively, the control signal is sent to the engine controller 20 in order to keep the driving force in a proper value at that time.
Here,
As shown in
Moreover, the braking force at the four switch positions (0 to 4) are substantially constant in each of the line diagrams regardless of the engine speed as shown in a line diagram (P0, P1 to P3) in
On the other hand, in the auxiliary braking device 100 in this embodiment, the braking force of the auxiliary braking is determined by the characteristic diagram in
In
If the position of the auxiliary braking lever is 0 (during normal running), as shown in a line diagram C0, the auxiliary braking is non-operating. Therefore, the driving force (acceleration side) increases in proportion to the amount of pressing the accelerator pedal (accelerator pedal voltage).
Thus, according to the embodiment shown in the drawings, it is possible to set the braking force with respect to the engine speed so that it is located in an intermediate region of the line diagrams P0 and P1 to P3 in
The example in
In
Moreover, if the position 1 (the line diagram C) is selected, the vehicle changes from deceleration to acceleration with a not-so-large accelerator pedal pressing amount (V1 in voltage value conversion of the accelerator pedal).
In
Subsequently, a method of determining the auxiliary braking force will be described on the basis of a flowchart in
At Step S1 in
If the auxiliary brake starts to operate (YES at Step S1), the routine proceeds to Step S2, and the control unit 10 selects a characteristic corresponding to an auxiliary brake position (position of the auxiliary brake lever 5) from the characteristic diagram in
At the subsequent Step S3, the control unit 10 obtains an accelerator pedal opening signal on the basis of the information from the accelerator opening sensor 4S. Then, the appropriate auxiliary braking force is determined at Step S4 by referring to the data in the database 14, that is, from the characteristic diagram in
According to the embodiment shown in the drawings, if the accelerator pedal 4 is pressed while the retarder 3 is operating, the auxiliary braking force corresponding to the amount of pressing the accelerator pedal 4 is determined and sent to the retarder controller 30 and the engine controller.
Thus, even if the accelerator pedal 4 is pressed while the retarder 3 is operating, the state does not immediately change to an acceleration state as in the prior art, but the auxiliary braking force corresponding to the accelerator pedal 4 works.
Thus, rapid acceleration or occurrence of a shock in the vehicle caused by that as in the prior art can be prevented.
Moreover, if the amount of pressing the accelerator pedal 4 is decreased while the retarder 3 is operating, the auxiliary braking force increases in correspondence with that. It is not necessary to return the accelerator pedal until the accelerator pedal opening becomes zero in order to operate the auxiliary braking force as in the prior art.
As a result, it is no longer necessary to repeat pressing of the accelerator pedal 4 and returning it until the opening becomes zero. Thus, as compared with the prior art, acceleration/deceleration of the vehicle become gentle and frequencies of acceleration/deceleration decrease and fuel consumption can be improved.
Moreover, since acceleration/deceleration become gentle, repetition of shift-up/shift-down in a vehicle having an automatic transmission is prevented.
The embodiment shown in the drawings is only exemplification and the description is not intended to limit the technical scope of the present invention.
In the embodiment shown by the drawings, in the characteristic diagram in
The line diagram C3 may have a linear characteristic as in the line diagrams C1 and C2. On the contrary, all the line diagrams C1 to C3 may have non-linear characteristics.
Number | Date | Country | Kind |
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2010 263124 | Nov 2010 | JP | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/JP2011/074400 | 10/24/2011 | WO | 00 | 5/16/2013 |