法国专利FR3040957A1 BRAKING ASSIST SYSTEM

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专利摘要:
A brake assist system comprising an intermediate spring (8) combined with a compression stop (81) limiting the compression to a force greater than the brake pedal response under normal operating conditions. The spring (8) and its stop (81) are interposed between the plunger (2) and the assist piston (5) for the spring (8) to transmit the thrust of the assist piston (5) to the plunger (2) pulling the brake pedal under normal braking conditions. The assist piston (5) pushes the plunger (2) by the compression stop (81) when the reaction of the plunger (2) exceeds the compression threshold. A contact sensor (9) detects the contact between the assist piston and the stop (5).
公开号:FR3040957A1
申请号:FR1558556
申请日:2015-09-14
公开日:2017-03-17
发明作者:Francois Gaffe；Philippe Richard
申请人:Robert Bosch GmbH；
IPC主号:

专利说明:

Field of the invention
The present invention relates to an electromechanical braking assistance system, capable of operating in autonomous mode, managed by a management unit and driven by an electric motor cooperating with a master cylinder and having, along the axis of actuation xx: an assistance piston connected to the drive motor, a plunger whose one end can act on the master cylinder, parallel to the assist piston, its other end being connected to the control rod itself connected to the brake pedal, the plunger being pushed by the assist piston to pull the control rod.
The braking assistance system applies to a master cylinder controlled either by an action on the brake pedal, assisted or direct without assistance, or by an autonomous action requested by the braking system management unit based on detected parameters or events, usually falling under security.
State of the art
According to the state of the art, the assistance piston rests against the plunger during the assistance phase during braking so that the plunger pulls the control rod and the brake pedal. The advance of the plunger triggers the assistance so that it no longer leans against the reaction disk.
In normal conditions this advance is not perceived by the driver since it requires braking by its action on the brake pedal. When its support gives way, the pedal returns to its neutral position. If an obstacle is under the brake pedal, for example a fallen object that happens by chance under the pedal, the driver perceives this resistance and remedies the incident.
In case of autonomous braking, braking by the assistance is triggered by the brake system management unit without the driver pressing on the brake pedal which is pulled by the plunger during the duration of the action . This is a haptic signal for the driver if his foot is on the brake pedal. But if the driver's foot or an obstacle comes under the brake pedal, the foot may be crushed or injured. If the obstacle is resistant, such as continuous braking assistance, it could damage the components of the braking system, for example the electric motor which, while being powered, is locked in rotation.
Purpose of the invention
The present invention aims to improve the safety of electromechanical braking assistance systems driven by an electric motor and capable of operating in autonomous mode. DESCRIPTION AND ADVANTAGES OF THE INVENTION For this purpose, the subject of the present invention is an electromechanical braking assistance system of the type defined above, characterized in that it comprises an intermediate spring combined with a compression abutment, limiting compressing the spring to a predetermined compression force, greater than the brake pedal response under normal operating conditions of the brake assist, the intermediate spring and its compression stop being interposed between the plunger and the piston of assistance, the intermediate spring transmitting the thrust of the assist piston to the plunger pulling the pedal under normal braking conditions, the assist piston pushing the plunger through the compression stop when the reaction of the plunger exceeds the predefined compression force, a contact sensor detecting contact between the piston of support, the stop and the plunger, said detector being connected to the braking system of the management unit.
The assistance system according to the invention has the advantage of being protected in case of operation in autonomous mode and blocking of the brake pedal by an obstacle. The situation is detected by the central unit which deals with the situation to remedy it without continuing, at least temporarily, the thrust exerted on the intermediate piston and the consequent traction of the control rod and the brake pedal. This avoids an incident, including an accident in case of foot that would be under the brake pedal at the time of the autonomous actuation of the braking system or the destruction of one or more components of the assistance system in the event of an accident. incompressible obstacle encountered by the brake pedal and continued traction movement, that is to say compression by the assistance system.
According to a particularly advantageous characteristic, the assistance piston is in the form of an axial sleeve integral with a rotational locking stirrup for its guidance in translation, the sleeve having an outer surface provided with a thread for cooperating with a fixed nut in translation. but free in rotation, internally having a thread complementary to that of the assistance piston which it receives and carrying externally a pinion connected to the drive motor, the front end of the plunger has a drive base to be pushed by the assist piston, the compression stop is carried by the drive base at a distance from the axis to form an annular gap around the plunger body in front of the assist piston, the intermediate spring is shaped Belleville spring housed in the annular gap and protruding axially from the compression stop to receive the piston of assistance and transmit its thrust to the plunger, before the assistance piston comes into contact with the compression stop when the reaction of the plunger exceeds the predefined compression force of the intermediate spring.
This embodiment is particularly advantageous for its simplicity since the compression stop is integrated with the guide elements which themselves constitute a subset of the plunger as constituted by separate elements housed in the orifices of the fingers of the base of the plunger. drive of the plunger.
According to another advantageous characteristic, the contact detector is a differential travel detector detecting the differential stroke of the plunger and the assistance piston.
According to another advantageous characteristic, the assistance piston transmits the thrust of assistance to the master cylinder by an intermediate piston applied against the reaction disc of the thrust rod of the master cylinder, this intermediate piston having a cylindrical, axial skirt, housing the plunger drive base and the plunger guide members housed in the guide bearings of the assistance piston caliper, the intermediate plunger carrying the differential travel detector detecting the stroke between the plunger of the plunger assistance and the plunger.
According to another particularly advantageous characteristic, the compression abutment is constituted by a raised element of each guide element of the drive base.
drawings
The present invention will be described hereinafter in more detail with the aid of an exemplary electromechanical braking assistance system shown in the accompanying drawings, in which: FIG. 1 is an axial sectional view of the main part; of an electromechanical braking assistance system according to the invention, FIG. 2 in its parts 2A, 2B, 2C shows three axial sections similar to those of FIG. 1, but simplified, of three characteristic states: FIG. 2A shows the assistance system at rest, • figure 2B shows the assistance system in normal assistance mode, • figure 2C shows the braking assistance system in stand-alone mode when the brake pedal is locked FIG. 3 in its parts 3A, 3B, 3C shows enlargements of FIGS. 2A, 2B, 2C respectively, in axial half-section of the gap between the caliper of the assistance piston and the base of the plunger. with the intermediate spring in the different positions. Description of an embodiment of the invention
By convention, in the various figures, the parts shown are oriented relative to the axis xx of the assistance system, the front part (AV) being on the left, the rear part (AR) on the right.
The qualifiers "forward" and "backward" used in the description fall within this guidance convention.
According to FIG. 1, the braking assistance device of which only the most important parts for the description of the invention are shown, acts on the master cylinder in a manner controlled by the brake pedal with assistance or directly if the assistance fails or autonomously if the management unit of the braking system requires it for security or other reasons based on data collected by sensors or constraints imposed from the outside.
The assistance system consists of a control rod 1 connected to the brake pedal and a plunger 2 acting on the thrust rod 3 via the reaction disc 31, thus constituting the direct kinematic chain between the brake pedal and the master cylinder.
The assistance system which assists braking or autonomous braking, independently of an action on the brake pedal, acts on the thrust rod 3 by an intermediate piston 4 in addition to or in parallel with the action on the brake pedal but causing the brake pedal in its forward movement by the push rod 3.
The means of the assistance system consist of the plunger 2 whose front end 23 is provided with a drive base 21 formed of cross arms carrying guide elements 22. The plunger 2 is pushed by a piston assistance 5 formed of an axial sleeve 51 freely traversed by the body of the plunger 2 along the axis xx and whose outer surface is provided with a thread 511 to cooperate with a nut 6 locked in translation, screwed on this 511 net and integrally in rotation, a pinion 61 connected to the electric motor providing assistance when activated.
The pinion 61 of the nut 6 is carried by a ball bearing 62 installed in the axial opening 71 of the housing 7 of the system and receiving the bellows sleeve 72. The nut 6, locked in translation (along the axis xx ) advances or reverses by screwing, the assistance piston 5 whose front end is provided with a stirrup 52 for translational guiding and rotational locking by two bearings on two symmetrical guide rods (in front of and behind the plane of Figure 1) parallel to the axis xx.
This stirrup 52 has orifices 521 forming guide bearings each receiving a guide element 22 carried by the base 21 of the plunger. The relative displacement, limited, of the plunger 2 relative to the assistance piston 5 is with the guide elements 22 engaged in the guide bearings 521 of the caliper. The stirrup 52 is resting on the intermediate piston 4 itself bearing on the reaction disk 31. The intermediate piston 4 is in the form of a ring 41 traversed in the axis xx by the front 23 of the plunger 2 which The ring 41 of the intermediate piston 4 is supported on the reaction disk to transmit the assistance force normally. The ring 41 of the intermediate piston 4 carries a cylindrical skirt 42 against the edge of which bears the stirrup 52 to transmit its thrust.
Under normal conditions of assistance, the plunger 2 only touches the reaction disk 31 at the beginning of a braking action and as soon as the assistance is activated, the plunger 2 separates from the reaction disc 31 while following the movement, as known according to the principle of operation of brake assist systems.
According to the invention, an intermediate spring 8 combined with a compression abutment 81 is interposed between the assist piston 5 and the plunger 2.
The intermediate spring 8 transmits the thrust of the assist piston 5 to the plunger 2, in parallel with the transmission of the thrust assistance to the master cylinder by the intermediate piston 4, the reaction disc 31 and the thrust rod 3 The plunger 2 can also push on the reaction disc 31 in parallel or alone, if the assistance system fails.
The intermediate spring 8 and its compression abutment 81 define a threshold of a compressive force greater than the reaction that the brake pedal normally opposes to the advancement of the plunger 2. When this reaction generated by an obstacle encountered by the pedal when it is depressed by the pulling of the plunger 2, exceeds this threshold, the assistance piston 5 bears against the plunger 2 via the compression abutment 81.
If the obstacle is incompressible, the assistance system continues to fire on the plunger 2 and the pedal with increasing strength. But this situation is detected by a contact detector 9. The detector 9 comprises a chip 91, for example a Hall sensor chip, installed on the assistance piston 5 and detecting the displacement of a magnet 92 aligned in the direction of the sensor. the axis xx and carried by the drive base 21 of the plunger 2. The sensor 9 operating as a differential stroke detector detects the contact, for example one, between the assist piston 5 and the plunger 2 to initiate a safety procedure.
According to an advantageous embodiment, the magnet 92 is a plastic material with inclusion of magnetite, overmolded at the base 21.
According to the embodiment shown, the compression abutment 81 is integrated with the guide elements 22 which are provided with a wedge forming the abutment 81 limiting the approaching of the drive base 21 against the stirrup 52, at a distance of determined axial length and thus the compression of the spring 8 to the compression force of the threshold.
The intermediate spring 8 in the form of Belleville spring having determined spring characteristics, is housed in the annular volume between the stop 81 formed by the wedges and the plunger 2. This spring 8 has an axial length greater than the axial dimension of the volume annular of the compression abutment 81 so as to protrude from the stop 81 of the side facing the stirrup 52.
In this embodiment the intermediate spring is attached to the plunger 2 against a peripheral shoulder 232 formed by a diameter reduction 231 of the front end 23 of the plunger. The spring 8 is clamped by the drive base 21 itself crimped 233 on the front end 23 of reduced section of the plunger 2.
In principle, the compression abutment 81 could be made differently or be carried by the stirrup 52 since its function is to define a compression limit of the intermediate spring 8 beyond which the assistance piston 5 presses directly on the piston diver 2 and pulls it as well.
In summary, according to these embodiments of the invention described above, the transmission of the thrust of the assist piston 5 to the plunger 2 is via the yoke 52 and the training base. 21 which are, by definition, respectively parts of the assist piston 5 and the plunger 2.
Figure 1 shows the assistance system at rest. In this position, the stirrup 52 is in abutment against the flange 63 of the nut 6, the guide elements 22 are also in abutment against this flange 63 so that the spacing between the stirrup 52 and the base drive 21 is maximum. The intermediate spring 8 is not supported.
This rest position is also shown in Figure 2A and in its enlargement of Figure 3A as being one of the reference positions for the description of the implementation of the safety device constituted by the intermediate spring. FIG. 3A shows, in particular, the axial length ARO of the intermediate spring 8 at rest and the axial length ΔΒ of the compression stop showing the difference of the lengths ARO> AB.
FIGS. 2B, 3B show the state of the intermediate spring 8, pistons 2 and 5 in normal assistance mode, the stirrup 52 touching the intermediate spring 8 to push the plunger 2 by its base 21 and pull the pedal of brake. In this phase of operation, the stirrup does not touch the stop 81.
FIGS. 2C, 3C show the critical state of the assistance system in autonomous mode, an obstacle blocking the brake pedal and thus the advance of the plunger 2 so that the assistance piston 5 continues to advance or push and compress the intermediate spring 8 beyond the compression threshold; it bears against the stop 81 thus transmitting the assist thrust to compress the obstacle under the brake pedal. This effort is not transmitted to the master cylinder. The contact detector 9 detects this state and transmits the information to the central unit of the braking system to stop the thrust exerted on the plunger 2 and process the incident. The invention thus avoids any overload applied to the drive train between the assistance piston and the brake pedal and thus any accident that would be related to the continued compression with traction on the control rod and forced depression of the pedal of brake.
NOMENCLATURE OF MAIN ELEMENTS 1 Control rod 2 Plunger 21 Drive base 22 Guide element 23 Front end 231 Diameter reduction 232 Peripheral shoulder 3 Thrust rod 31 Reaction rod 4 Intermediate piston 41 Crown 42 Skirt 5 Assist piston 51 Axial sleeve 511 Thread 52 Stirrup 521 Orifice forming a guide bearing 6 Nut 61 Pinion 62 Ball bearing 63 Collar 7 Housing 71 Axial opening 72 Sleeve - Bellows 8 Intermediate spring 81 Stop 9 Detector 91 Hall sensor 92 Magnet

权利要求:
Claims (7)
[1" id="c-fr-0001]
CLAIMS 1 °) Electromechanical braking assistance system, capable of operating in autonomous mode, managed by a management unit and driven by an electric motor cooperating with a master cylinder and having, along the axis of actuation xx: a assistance piston connected to the drive motor, a plunger whose one end can act on the master cylinder, parallel to the assistance piston, its other end being connected to the control rod itself connected to the pedal brake, the plunger being pushed by the assist piston to pull the control rod, assistance system characterized in that it comprises: A) an intermediate spring (8) combined with a compression stop (81) , limiting compression of the spring (8) to a predetermined compressive force, greater than the brake pedal response under normal operating conditions of the brake assist the intermediate spring (8) and its compression stop (81) being interposed between the plunger (2) and the assist piston (5), the intermediate spring (8) transmitting the thrust of the assist piston ( 5) to the plunger (2) pulling the pedal under normal braking conditions, the assist piston (5) pushing the plunger (2) by the compression stop (81) when the reaction of the plunger (2) exceeds the predefined compression force, B) a contact sensor (9) detecting contact between the assist piston (5), the stop (81) and the plunger (2), this sensor being connected to the unit braking system management.
[0002]
2 °) electromechanical braking assistance system according to claim 1, characterized in that - the assistance piston (5) is in the form of an axial sleeve (51) integral with a stirrup (52) for locking in rotation for its guide in translation, the sleeve (51) having an outer surface provided with a thread (511) to cooperate with a fixed nut in translation but free in rotation, internally having a thread complementary to that of the assistance piston that it externally receiving and carrying a pinion connected to the drive motor, - the front end (23) of the plunger (2) has a drive base (21) to be pushed by the assist piston, - the stop of compression is stepped by the drive base at a distance from the axis (xx) to form an annular gap around the body of the plunger (2) in front of the assist piston (5), - the intermediate spring (8). ) is Belleville spring shaped accommodated in the annular gap and protruding axially from the compression abutment (81) to receive the assist piston (5) and transmit its thrust to the plunger (2), before the assist piston (5) comes into contact with the compression stop (81) when the reaction of the plunger (2) exceeds the predefined compression force of the intermediate spring (8).
[0003]
Electro-mechanical braking assistance system according to Claim 1, characterized in that the contact sensor (9) is a differential travel detector detecting the differential stroke of the plunger (2) and the assist piston (5). ).
[0004]
4 °) electromechanical braking assistance system according to claim 3, characterized in that the contact sensor (9) is formed of a Hall sensor (91) carried by the assistance piston (5) and cooperating with a magnet (92) oriented in the direction of the axis (xx) and carried by the base (21) of the plunger (2).
[0005]
5 °) electromechanical braking assistance system according to claim 4, characterized in that the magnet (92) is a plastic material with inclusion of magnetite, overmolded at the base (21).
[0006]
Electro-mechanical braking assistance system according to Claim 2, characterized in that the assist piston (5) transmits the assist thrust to the master cylinder via an intermediate piston (4) applied against the reaction disc. (31) of the push rod (3) of the master cylinder, the intermediate piston (4) having a cylindrical skirt (42), axial, housing the drive base (21) of the plunger (2) and the elements guide (22) of the plunger (2) housed in the guide bearings (521) of the yoke (52) of the assist piston (5), the intermediate piston (4) carrying the differential travel detector (9). ) detecting the stroke between the assist piston (5) and the plunger (2).
[0007]
Electro-mechanical braking assistance system according to Claim 6, characterized in that the compression stop (81) consists of a raised element of each guide element (22) of the drive base (21). .

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同族专利:

公开号 | 公开日

FR3040957B1|2017-10-06|

US20190023249A1|2019-01-24|

WO2017045956A1|2017-03-23|

CN107949507B|2020-05-12|

JP6498357B2|2019-04-10|

KR20180053688A|2018-05-23|

US10493969B2|2019-12-03|

DE112016004141T5|2018-05-24|

MX2018003079A|2018-06-19|

JP2018526281A|2018-09-13|

CN107949507A|2018-04-20|

引用文献:

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

US20140197680A1|2011-05-10|2014-07-17|Lucas Automotive Gmbh|Hydraulic Vehicle Braking System with Electromechanical Actuator, and Method for Operating Such a Hydraulic Vehicle Braking System|

EP2733032A1|2012-11-19|2014-05-21|Robert Bosch Gmbh|Electric brake booster for controlling the master cylinder of a brake circuit|

WO2014177698A1|2013-05-03|2014-11-06|Robert Bosch Gmbh|Electrohydraulic servo brake|WO2020200915A1|2019-04-01|2020-10-08|Robert Bosch Gmbh|Actuation device for a brake system|JPH0911887A|1995-06-29|1997-01-14|Aisin Seiki Co Ltd|Negative pressure type booster|

DE102008001522A1|2008-04-30|2009-11-05|Robert Bosch Gmbh|Electromechanical brake booster|

JP2012512780A|2008-12-18|2012-06-07|ローベルトボツシユゲゼルシヤフトミツトベシユレンクテルハフツング|Brake power booster|

FR2949739B1|2009-09-07|2011-10-14|Bosch Gmbh Robert|PISTON OF ACTUATOR AND BOOSTER BRAKE EQUIPPED WITH SUCH A PISTON.|FR3040955B1|2015-09-14|2017-10-06|Bosch Gmbh Robert|ELECTROMECHANICAL BRAKE ASSIST SYSTEM|

ES2664369A1|2017-06-16|2018-04-19|Robert Bosch Gmbh|BRAKE MECHANISM OF A VEHICLE WITH DETECTION CAPACITY OF PEDAL JAM |

法律状态:
2016-09-22| PLFP| Fee payment|Year of fee payment: 2 |

2017-03-17| PLSC| Search report ready|Effective date: 20170317 |

2017-09-25| PLFP| Fee payment|Year of fee payment: 3 |

2018-09-21| PLFP| Fee payment|Year of fee payment: 4 |

2019-09-23| PLFP| Fee payment|Year of fee payment: 5 |

2020-09-22| PLFP| Fee payment|Year of fee payment: 6 |

2021-09-27| PLFP| Fee payment|Year of fee payment: 7 |

优先权:

申请号 | 申请日 | 专利标题

FR1558556A|FR3040957B1|2015-09-14|2015-09-14|BRAKING ASSIST SYSTEM|FR1558556A| FR3040957B1|2015-09-14|2015-09-14|BRAKING ASSIST SYSTEM|

PCT/EP2016/070848| WO2017045956A1|2015-09-14|2016-09-05|Brake assist device|

DE112016004141.1T| DE112016004141T5|2015-09-14|2016-09-05|Brake assist system|

CN201680053106.5A| CN107949507B|2015-09-14|2016-09-05|Brake assist system|

MX2018003079A| MX2018003079A|2015-09-14|2016-09-05|Brake assist device.|

JP2018512613A| JP6498357B2|2015-09-14|2016-09-05|Brake assist system|

KR1020187010086A| KR20180053688A|2015-09-14|2016-09-05|Brake Assist Device|

US15/757,491| US10493969B2|2015-09-14|2016-09-05|Brake assist system|

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