TRAILER"

DESCRIPTION

Field of the invention [0001]The present invention pertains to the field of farm tractors, and in particular to the field of apparatuses for the braking process of vehicles consisting of a tractor and one or more trailers.

Background art [0002]The need is strongly felt in such a field to provide braking apparatuses provided with specific control systems which take into consideration the presence of the trailers, which obviously have a considerable impact on the braking performance of the entire vehicle. There are several apparatuses for the braking process of vehicles with a trailer.

[0003]For example, some solutions are disclosed in documents WO-A1-2018/077470, WO-A1-2016/192855, WO-A1-

2015/104168, EP2123528, WO-A1-2008/141740 and EP1800982. Object of the invention

[0004]It is the object of the present invention to provide a further apparatus for the braking process of vehicles with a trailer, the control system of which is particularly effective. [0005]Such an object is achieved by an apparatus for the braking process of a vehicle with a trailer according to claim 1. The dependent claims describe further advantageous embodiments of the invention.

Brief description of the drawings [0006]The features and advantages of the braking apparatus according to the present invention will become apparent from the following description, given by way of non limiting example, according to the accompanying drawings, in which: - Figure 1 diagrammatically shows a vehicle with tractor and trailer, according to an embodiment of the present invention;

- Figure 2 shows the configuration of an accelerator and a brake and the pressure trend under a coasting condition and under a successive braking condition of the apparatus according to the present invention.

Description of an embodiment

[0007]With reference to accompanying Figure 1, a vehicle 1 consists of a tractor 2 and at least one trailer 4, which is operatively connected to tractor 2 to be dragged by the latter.

[0008]Tractor 2 comprises an internal combustion engine 6 and a gearbox assembly 8 connected to engine 6 and to the rear wheel axle 10 of tractor 2 to actuate it in rotation. [0009]Tractor 2 further comprises electronic management means 100 for managing the braking process of the tractor and the trailer. Said management means 100 comprise vehicle control means 20, trailer braking control means 22, gearbox control means 24 and engine control means 26, all operatively connected to the vehicle control means 20. The vehicle control means 20 operate as masters with respect to the other control means 22, 24, 26, which operate as slaves. [0010]A braking apparatus according to the present invention comprises a tractor brake system and a trailer brake system.

[0011]Tractor 2 comprises the tractor brake system, comprising a brake 12 applied to each wheel 10, for example to the hub thereof, which is adapted to apply a braking action to said wheel 10. The tractor brake system further comprises a brake assembly 40, comprising at least one brake pedal which may be actuated by a driver sitting in the driving cabin, a brake pump which may be actuated by the brake pedal and is operatively connected to each brake 12, and a brake sensor adapted to detect the actuation of the brake pedal, as well as a braking pressure sensor 42 for detecting and signaling the braking pressure applied by the brake pump. [0012]According to one embodiment variant, the brake assembly 40 comprises a right brake pedal and a left brake pedal for the braking process of the right wheels alone and of the left wheels alone, respectively.

[0013]The brake sensor is operatively connected to the management means 100, and in particular to the vehicle control means 20, in order to signal the actuation of the brake pedal. Moreover, the braking pressure sensor 42 is operatively connected to the management means 100, and in particular to the vehicle control means 20, in order to signal the amount of the pressure generated by the actuation of the pump.

[0014]Tractor 2 further comprises a trailer brake device comprising a hydraulic or pneumatic trailer pump 60 for the braking process of the trailer, preferably a main trailer tank 62 for storing pressurized oil or air, fed by the trailer pump 60, and a trailer brake master valve 70 supplied by means of the main trailer pump 60 and/or the main trailer tank 62, which is controlled by the brake assembly 12 and is operatively connected to the management means 100, and in particular to the trailer braking control means 22.

[0015]The trailer brake device further comprises a trailer interface 78 for the hydraulic or pneumatic connection with trailer 4. In particular, the trailer interface 78 comprises a power socket 80 connected to the trailer brake master valve 70 for supplying pressurized oil or air to actuate the trailer brakes, and a signal socket 82 connected to the trailer brake master valve 70 for sending a hydraulic or pneumatic control signal for the braking process.

[0016]Moreover, tractor 2 preferably comprises a clinometer 50 for detecting the tilt of the tractor due to the slope of the road surface on which the tractor is traveling. The clinometer 50 is operatively connected to the management means 100, and in particular to the vehicle control means 20.

[0017]Moreover, tractor 2 preferably comprises a display 30 for providing the driver with information, which is preferably located in the driving cabin of the tractor. Display 30 is operatively connected to the management means 100, and in particular to the vehicle control means 20.

[0018]Finally, tractor 2 further comprises an accelerator 90 for the acceleration of the vehicle. Accelerator 90 is also operatively connected to the management means 100, and in particular to the vehicle control means 20.

[0019]According to one embodiment variant, accelerator 90 comprises an accelerator pedal which may be foot-operated by the driver and/or an accelerator knob which may be hand-operated by the driver. [0020]Trailer 4 comprises a trailer brake system which may be connected to the trailer interface 78, comprising a secondary trailer brake valve 110 operatively connected to the power socket 80 by means of a trailer brake circuit 120 and to the signal socket 82, a trailer brake 112 applied to each wheel 114 of trailer 4, for example to the hub thereof, adapted to apply a braking action to said wheel 114, operatively connected to the secondary trailer brake valve 110, and preferably a secondary trailer tank 118 for storing pressurized oil or air for the trailer brake circuit. For example, the secondary trailer tank 118 is connected to the trailer brake circuit 120.

[0021]According to the invention, the management means 100 detect a condition of driving inertia of the vehicle, called "coasting". Such a condition of inertia occurs when the following conditions simultaneously exist:

- if the speed of the tractor is greater than a limit speed Vt; and - the brake assembly 40 does not actuate the tractor brake 12, i.e., no braking process of tractor 2 is in progress; and

- the pedal and/or manual accelerator 90 is not actuated and preset speed conditions are not operative. [0022]A coasting condition is also detected if: if the speed of the tractor is greater than a limit speed Vt; and the brake assembly 40 does not actuate the tractor brake 12, i.e., no braking process of tractor 2 is in progress; and the tractor is idle, i.e., the gearbox is set to neutral in a tractor with automatic gearbox, or if the clutch pedal is pressed in a tractor with manual gearbox. [0023]In other words, under coasting conditions, the speed of tractor 2 is greater than a limit speed Vt and the brake assembly 40 does not actuate the tractor brake 12, and engine 6 does not supply power to the tractor wheels 10, the latter condition occurring in the absence of the actuation of an accelerator, of a preset speed or under idle conditions.

[0024]Under such conditions, the trailer braking control means 22 control the trailer brake master valve 70 so as to increase the pressure of the oil or of the air in the trailer brake circuit 120 from a preexisting base pressure P0 to a coasting pressure Pc, in any case keeping such a pressure below an actuation pressure Pb which induces the actuation of the trailer brake 112.

[0025]When the driver controls the braking process, for example at instant t _b , the brake assembly 40 signals the lowering of the brake pedal to the management means 100 and the tractor brake 12 is actuated, and simultaneously the trailer brake 112 is actuated by means of the main trailer braking valve 70 and the trailer braking system. [0026]This results in a further increase of the pressure in the trailer brake circuit, up to exceeding the actuation pressure Pb, thus inducing the actuation of the trailer brake 112. Since the pressure in the trailer brake circuit 120 was already greater than the base pressure P0 by virtue of the increase in pressure under the coasting conditions, the pressure in the trailer brake circuit 120 exceeds the actuation pressure Pb more quickly so that the response of the trailer braking system is immediate.

[0027]In an embodiment of the invention, if the coasting conditions continue, for example for a coasting time Tc, the trailer braking control means 22 control the main trailer braking valve 70 so as to maintain the coasting pressure Pc for a predefined maintenance time Ti, which is less than the coasting time Tc; after such a maintaining time, the pressure returns to the base value P0, for example for a base time TO, to then increase again up to the coasting pressure Pc, under the control of said means 70.

[0028]In other words, in such an embodiment, the pressure in the trailer brake circuit during the coasting time Tc fluctuates with a square wave trend, between the coasting pressure Pc and the base pressure P0.

[0029]In a further embodiment of the invention, if the coasting conditions continue, for example for a coasting time Tc, the trailer braking control means 22 control the main trailer braking valve 70 so as to maintain the coasting pressure Pc for the entire coasting time Tc.

[0030]Moreover, according to the invention, if the coasting conditions no longer occur and there is no braking by the driver, the management means 100 re establish the base conditions, i.e., the pressure in the trailer brake circuit returns to the base value P0.

[0031]Preferably, the management means 100 re-establish the basic conditions, i.e., the pressure in the trailer brake circuit returns to the base value P0 if the coasting conditions no longer occurred for a waiting time Tz so as to avoid sudden and repeated increases and decreases of the pressure in the trailer brake circuit. [0032]Innovatively, the braking apparatus according to the present invention meets the industry needs, and in particular allows to brake the trailer without delay with respect to the control given by the driver.

[0033]It is apparent that, in order to meet contingent needs, those skilled in the art may make changes to the braking apparatus described above, all contained within the scope of protection as defined by the following claims.