Classifications

• • B—PERFORMING OPERATIONS; TRANSPORTING
  • B60—VEHICLES IN GENERAL
  • B60H—ARRANGEMENTS OF HEATING, COOLING, VENTILATING OR OTHER AIR-TREATING DEVICES SPECIALLY ADAPTED FOR PASSENGER OR GOODS SPACES OF VEHICLES
  • B60H1/00—Heating, cooling or ventilating [HVAC] devices
  • B60H1/22—Heating, cooling or ventilating [HVAC] devices the heat being derived otherwise than from the propulsion plant
  • B60H1/2215—Heating, cooling or ventilating [HVAC] devices the heat being derived otherwise than from the propulsion plant the heat being derived from electric heaters
  • B60H1/2218—Heating, cooling or ventilating [HVAC] devices the heat being derived otherwise than from the propulsion plant the heat being derived from electric heaters controlling the operation of electric heaters
• • B—PERFORMING OPERATIONS; TRANSPORTING
  • B60—VEHICLES IN GENERAL
  • B60K—ARRANGEMENT OR MOUNTING OF PROPULSION UNITS OR OF TRANSMISSIONS IN VEHICLES; ARRANGEMENT OR MOUNTING OF PLURAL DIVERSE PRIME-MOVERS IN VEHICLES; AUXILIARY DRIVES FOR VEHICLES; INSTRUMENTATION OR DASHBOARDS FOR VEHICLES; ARRANGEMENTS IN CONNECTION WITH COOLING, AIR INTAKE, GAS EXHAUST OR FUEL SUPPLY OF PROPULSION UNITS IN VEHICLES
  • B60K11/00—Arrangement in connection with cooling of propulsion units
  • B60K11/08—Air inlets for cooling; Shutters or blinds therefor
  • B60K11/085—Air inlets for cooling; Shutters or blinds therefor with adjustable shutters or blinds
• • Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
  • Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
  • Y02T—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO TRANSPORTATION
  • Y02T10/00—Road transport of goods or passengers
  • Y02T10/80—Technologies aiming to reduce greenhouse gasses emissions common to all road transportation technologies
  • Y02T10/88—Optimized components or subsystems, e.g. lighting, actively controlled glasses

Definitions

• the invention relates to an air management system of an air intake for a motor vehicle front face.
• Such a system generally comprises at least one flap and a device for controlling the displacement of the at least one flap between a closed position of the air inlet and at least one open position of the air inlet.
• AGS Active Grid Shutter
• the air intake management system is preferably installed at a radiator grille of the motor vehicle.
• the air In the open position of the air inlet, the air can circulate through the calender and participate in particular in cooling the engine of the motor vehicle.
• the air In the closed position of the air inlet, the air does not enter via the grille which reduces drag and thus reduces fuel consumption and carbon dioxide emissions.
• the air intake management system therefore reduces energy consumption and pollution when the engine does not need to be cooled by outside air.
• the air intake management system is exposed to rain as well as water contained in the humidity of the air.
• water can accumulate at the bottom of the shutters or between the shutters.
• the ice blocks the system in position; in this case, it is possible that the shutter (s) are locked in the shutter position.
• the vehicle engine is not properly cooled, which can lead to overheating, and cause a breakdown of the motor vehicle.
• a known solution is to maintain the shutter or flaps in the open position during a stop of the vehicle.
• the cabin remains cold longer, generating a certain inconvenience for the passengers of the vehicle.
• the object of the invention is to at least partially overcome these disadvantages.
• the subject of the invention is an air management system of an air inlet for a motor vehicle front surface, comprising at least one flap and a holding frame and a heating device of said at least one flap and / or said holding frame.
• the management system according to the present invention is de-iced and does not risk blocking in the closed position; the engine remains effectively cooled, even in these circumstances, which ensures a reasonable consumption of the vehicle.
• the heating device comprises an electric circuit configured to be powered by a source and passing through said at least one flap and / or at least part of a frame for maintaining said at least one flap.
• the system comprises at least one support provided with at least one bearing configured to receive an axis of said at least one flap, the electrical circuit electrically connecting said at least one flap to said at least one support.
• said at least one flap is made from an electrically conductive material.
• the conductive material is chosen from an electrically conductive metal, or an electrically charged insulating substrate on the surface, or a material comprising a metal wire overmolded in a plastic material, or a polypropylene-based resin or polyamide provided with conductive fibers.
• the conductive material is a resin based on polypropylene or polyamide provided with carbon fibers.
• the material based on polypropylene or polyamide provided with carbon fibers comprises 20% by weight of carbon fibers.
• the electrical circuit comprises a circuit closure and opening switch.
• the system comprises an opening control timer of the switch.
• the heating device comprises an electrical source, and the electrical source is a source dedicated to the electric circuit, or an electrical control unit of an actuator of the management system.
• the heating device comprises an electric circuit configured to be powered by a source electrical and passing through at least part of the frame of said at least one flap.
• the electrical circuit comprises a metal wire secured to the holding frame.
• the metal wire is glued or overmolded to at least part of the holding frame or secured to the holding frame by a holding member.
• the heating device comprises the electrical source, the electrical source being a source dedicated to the electric circuit, or an electrical control unit of an actuator of the management system.
• the heating device comprises a circuit of a liquid fluid passing through at least part of the holding frame of said at least one flap.
• the heating device comprises a reservoir of liquid fluid for supplying the liquid fluid circuit.
• the heating device comprises a radiator for heating the liquid fluid intended to circulate in the liquid fluid circuit.
• the heating device comprises a control unit of the heating radiator.
• the heating device is integral only with the flap holding frame and this, by any fastening means such as, for example, overmolding, or holding clips, so as to simplify the device while providing effective defrosting of the flaps, the frost accumulating mainly at the bottom of the air intake management system at the flap holding frame.
• the subject of the invention is also a heating assembly for an air intake management system, comprising an air inlet management system as described above and an electric source, the electric source being a battery of the motor vehicle.
• the subject of the invention is also a method for heating at least part of a holding frame of an air intake management system as described above, comprising a step of stopping the heating if a measured temperature is greater than or equal to a temperature threshold value.
• the invention also relates to a method for heating at least one component of the air intake management system as described above or at least one component of the management system of an air intake. of the assembly as described previously provided with a management system of an air inlet as described above, comprising a step of closing the switch of the electrical circuit followed by a step of opening the switch after a pre-determined closing time of the heating circuit, and / or if a measured temperature is greater than or equal to a temperature threshold value, and / or if a vehicle speed is greater than or equal to a speed threshold value .
• the method comprises a step of maintaining closure of the electrical circuit if a control parameter is in a given state of closure.
• control parameter is a hygrometry rate measured, the closing state being reached when the measured hygrometry rate is greater than or equal to a threshold value.
• FIG. 1 illustrates a front view of a management system air inlet according to the present invention in a first position
• FIG. 2 illustrates a front view of an air intake management system according to the present invention in a second position
• FIG. 3 illustrates a detail view of a rear face of a first management system of FIG. 1;
• FIG. 4 illustrates a sectional view along the axis IV-IV of the management system of FIG. 3;
• FIG. 5 illustrates a detail view of a front face of a second management system of FIG. 1 according to a first embodiment
• FIG. 6 illustrates a cross-sectional view of the second management system of FIG. 5 according to an alternative embodiment
• FIG. 7 illustrates a detail view of a front face of the second management system according to a second embodiment.
• the invention relates to an air management system of an air intake for a motor vehicle front face.
• AGS Active Grid Shutter
• the air intake management system is preferably installed at a radiator grille of the motor vehicle, and allows an air flow control passing through the front face of the vehicle, including a motor compartment of the vehicle.
• the management system is referenced 1
• the air inlet managed by the management system 1 is referenced 2.
• the management system 1 of an air inlet 2 comprises at least one flap 3.
• the management system 1 comprises a plurality of shutters 3.
• the management system 1 also comprises a support frame 4, preferably rigid, integral with the plurality of shutters 3.
• the frame 4 has a generally rectangular shape.
• the frame 4 defines the air inlet 2 flaps 3 open and close, as will be detailed later.
• the frame 4 In the installation position in the motor vehicle, the frame 4 is configured so that the lengths of the rectangle extend substantially horizontally, while the widths of the rectangle extend substantially vertically.
• each set the flaps 3 are arranged parallel to one another, and the three sets are arranged in the extension of each other.
• the invention is not limited to the illustrated embodiment, and in particular, the number of flaps, sets of flaps and the position of the flaps relative to each other may vary.
• Each shutter 3 includes a work surface 5.
• the work surface 5 is a generally rectangular flat panel.
• the invention is not limited to planar rectangular flaps, and other configurations are quite conceivable.
• Each flap 3 comprises an axis 6 secured to the working surface 5.
• Each flap 3 is pivotally mounted between a closed position of the air inlet 2 and at least one open position of the air inlet 2.
• the system 1 comprises two supports 8 provided with bearing cutouts 9, each bearing 9 being configured to receive an end of the axis 6 of one of the flaps 3, as illustrated in FIG. 4.
• the ends of the shafts 6 are pivotally mounted in the associated bearing 9, which allows the pivoting of the working surface 5 between the closed position, also called the closed position, and the opening position or positions.
• the working surface 5 covers part of the air inlet 2.
• the working surface 5 In each open position, the working surface 5 forms a non-zero angle with a virtual plane surface of the air inlet 2, which allows a flow of air to pass through the air inlet 2.
• the management system 1 also comprises a control device 7 for moving the shutter (s) 3.
• the control device 7 is advantageously an actuator.
• a single actuator 7 controls all the shutters 3.
• the system 1 also comprises a flap control rod, not shown, controlled by the actuator 7 via a lever, not shown.
• This position is particularly advantageous when the vehicle engine requires significant cooling.
• This position is particularly advantageous when the vehicle is traveling at high speed since the closing of the air intake 2 improves the aerodynamics of the motor vehicle and thus allows a reduction in fuel consumption.
• the flaps 3 can be called trailing coefficient reduction flaps.
• the management system 1 comprises a shutter heating device 3.
• the heating device comprises an electric circuit 1 1, said heating circuit, configured to be powered by an electrical source 12 and passing through at least one flap 3 and / or at least part of a holding frame 4.
• the electrical source 12 is a source of low current or low voltage, for example a few milliamperes or a few volts.
• the electrical source 12 supplies the circuit 1 1 at least at the start of the vehicle, as will be detailed later.
• the heating circuit 1 1 passes through each flap 3.
• the heating circuit 11 comprises a switch 13 for opening and closing the heating circuit 11.
• the system 1 comprises an opening control timer of the switch 13, not shown, whose operation will be detailed below.
• the heating circuit 11 comprises an electric wire forming a first branch 14 between the electrical source 12, the switch 13 and the first support 8 and an electric wire forming a second branch 15 between the second support 8 and the electrical source 12.
• the flaps 3 and / or the holding frame 4 consist of an electrically conductive material.
• the shutters 3 consist of an electrically conductive material
• the holding frame 4 consists of an electrically insulating material
• the shutters 3 consist of a polypropylene-based resin provided with conductive fibers, advantageously carbon.
• the polypropylene-based material provided with carbon fibers comprises 20% by weight of carbon fibers.
• Polypropylene with carbon fibers ensures a good rigidity of the shutters while reducing their weight, which allows a reduction of consumption of the vehicle.
• the shutters 3 consist of a material based on an electrically conductive metal, such as steel, aluminum, or chromium.
• the shutters 3 consist of an insulating substrate having undergone a surface treatment to be electrically charged on the surface, for example by polyaniline coating.
• This polymer can also be used for the manufacture of heating coatings, in particular by means of a Joule heating method for accelerating the polymerization of thermosetting resins.
• the polyaniline may also be incorporated as a powder in the plastic thereby forming an electrically conductive filler.
• the flaps 3 are constituted by a metal wire overmolded in a plastic material.
• the overmolded wire passes through the axes 6 and / or the edges of the shutters 3.
• the heating device 10 comprises an electric source 12, the electrical source 12 being a source dedicated to the heating circuit 1 1.
• the electrical source is an electrical control unit of the actuator 7.
• the rod and the lever connecting the flaps 3 to the actuator 7 are made of conductive material, for example polypropylene with carbon fibers, to ensure that the electrical circuit 1 1 passes from the shutter control unit 3 via the connecting rod and the lever.
• the invention also relates to a heating assembly, not shown, comprising the management system 1, the electrical source 12 being a battery of the motor vehicle.
• the heating circuit 1 1 by the frame 4 only.
• the heating of the frame 4 indirectly allows the heating of the flaps 3, and in particular the flaps 3 in contact with the frame 4 in the closed position.
• the invention also relates to a method for heating at least one flap 3 of the system 1.
• the method comprises a step of closing the switch of the heating circuit January 1, at the start of the motor vehicle for example.
• the electrical source 12 supplies the circuit 1 1, and an electric current passes through the heating circuit 1 1 through the first branch 14, the first support 8, each of the shutters 3, the second support 8 and the second branch 15.
• the shutters are gradually heated, which allows their progressive defrosting.
• the method also comprises a step of opening switch 13.
• the opening step takes place after a pre-determined time of closure of the heating circuit.
• the time t is for example of the order of a few minutes, for example of the order of 5 minutes.
• the opening step takes place if a temperature measured by a sensor is greater than or equal to a threshold temperature value, called the threshold temperature.
• the senor is disposed on the front face of the vehicle and the threshold temperature is for example of the order of 3 ° C.
• the opening step takes place if a vehicle speed is greater than or equal to a speed threshold value, so-called threshold speed.
• the threshold speed is for example of the order of 50 km / h.
• the measured temperature is that of the temperature of a radiator of the vehicle engine.
• the opening step occurs if the measured temperature is greater than or equal to 90 °.
• the closing step lasts at least the predetermined time t, then to take into account the temperature and speed parameters, after the time t has elapsed.
• the heating method comprises a step of maintaining closure of the heating circuit if a control parameter is in a given state of closure.
• This holding step ensures that the flaps are continuously heated under certain circumstances.
• control parameter is a measured hygrometry rate, the closing state being reached when the hygrometry measured is greater than a threshold value.
• the shutters remain heated while the vehicle is in the rain.
• the management system according to the present invention provides defrosting of the flaps, thereby reducing the risk of locking the flaps in the closed position while ensuring the isolation of the compartment engine when the vehicle is stationary.
• Second heating device
• the management system 1 comprises a heating device 10 of the holding frame 4.
• the heating of the frame 4 indirectly allows the heating of the flaps 3, and in particular the flaps 3 in contact with the frame 4 in the closed position.
• the heating device 10 can also be qualified as a flap heating device 3.
• the heating device 10 comprises an electric circuit 1 1, called a heating circuit, configured to be powered by an electrical source 12 and passing through at least a part of a holding frame 4.
• the electrical source 12 is a source of low current or low voltage, for example a few milliamperes or a few volts.
• the electrical source 12 supplies the circuit 1 1 at least at the start of the vehicle, as will be detailed later.
• the electrical source 12 is a source dedicated to the heating circuit 1 1.
• the electrical source is an electrical control unit of the actuator 7.
• the heating circuit 1 1 passes through four edges 41 of the support frame 4 and the edges 42 of the actuator 7.
• the electric circuit 11 comprises a wire 16 integral with the holding frame 4.
• the wire 16 is secured to the holding frame 4 by gluing.
• the wire may be contained in a sticker that simply stick on the support frame 4.
• the wire 16 is overmolded in a plastic material forming at least the holding frame 4.
• the system 1 comprises a holding member 17 of the wire 16 to the holding frame 4.
• the holding member 17 is a latching means, known by the term "clip", for example elastomer.
• the heating device 10 comprises an electric source 12, the electric source 12 being a source dedicated to the heating circuit 11.
• the electrical source is an electrical control unit of the actuator 7.
• the heating device 10 comprises a circuit of a liquid fluid 20, the circuit 20 passing through at least part of the holding frame 4.
• the liquid fluid is water.
• the liquid fluid circuit 20 passes through the four edges 41 of the holding frame 4 and the edges 42 of the actuator 7.
• the circuit 20 comprises a set of channels 21.
• the channels 21 are made of a conductive material thermally.
• the channels 21 are integrated in a plastic material forming the support frame 4.
• the channels 21 are welded to the holding frame 4.
• the heating device comprises a reservoir 22 of liquid fluid for supplying the liquid fluid circuit, the liquid fluid possibly being, for example, a mixture of antifreeze and water.
• the reservoir 22 is dedicated to the liquid fluid circuit 20.
• the reservoir 22 is connected to a cooling circuit of the engine of the motor vehicle.
• the heating device 10 comprises a heating radiator 23 for the liquid fluid intended to circulate in the liquid fluid circuit.
• the heating device also comprises a control unit 24 of the heating radiator 23.
• the invention also relates to a method for heating at least one flap 3 of the system 1.
• the method comprises a step of heating the frame 4 and flaps 3 via the electric circuit 1 1 or the liquid water circuit 20.
• the shutters are gradually heated, which allows their gradual defrosting.
• the heating is stopped if a temperature measured by a sensor is greater than or equal to a threshold temperature value, called threshold temperature.
• the senor is disposed on the front of the vehicle and the threshold temperature is for example of the order of 3 ° C.
• the management system according to the present invention provides defrosting of the flaps, thereby reducing the risk of locking the flaps in the closed position while ensuring the isolation of the compartment engine when the vehicle is stationary.

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• Engineering & Computer Science (AREA)
• Mechanical Engineering (AREA)
• Chemical & Material Sciences (AREA)
• Combustion & Propulsion (AREA)
• Transportation (AREA)
• Physics & Mathematics (AREA)
• Thermal Sciences (AREA)
• Cooling, Air Intake And Gas Exhaust, And Fuel Tank Arrangements In Propulsion Units (AREA)
• Air-Conditioning For Vehicles (AREA)

Applications Claiming Priority (3)

Publications (1)

Family

ID=59091534

Family Applications (1)

Country Status (5)

Families Citing this family (5)

Family Cites Families (16)

• 2017
  • 2017-05-24 JP JP2018564280A patent/JP2019517420A/ja active Pending
  • 2017-05-24 CN CN201780034848.8A patent/CN109562686A/zh active Pending
  • 2017-05-24 EP EP17731617.1A patent/EP3468824A1/fr not_active Withdrawn
  • 2017-05-24 US US16/303,156 patent/US20190299747A1/en not_active Abandoned
  • 2017-05-24 WO PCT/FR2017/051305 patent/WO2017212137A1/fr unknown

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