WO2017069026A1 - Module de poste de pilotage - Google Patents

Module de poste de pilotage Download PDF

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Publication number
WO2017069026A1
WO2017069026A1 PCT/JP2016/080251 JP2016080251W WO2017069026A1 WO 2017069026 A1 WO2017069026 A1 WO 2017069026A1 JP 2016080251 W JP2016080251 W JP 2016080251W WO 2017069026 A1 WO2017069026 A1 WO 2017069026A1
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WO
WIPO (PCT)
Prior art keywords
cross member
stay
center
vehicle
steering cross
Prior art date
Application number
PCT/JP2016/080251
Other languages
English (en)
Japanese (ja)
Inventor
匡宏 松元
Original Assignee
いすゞ自動車株式会社
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by いすゞ自動車株式会社 filed Critical いすゞ自動車株式会社
Priority to CN201680061144.5A priority Critical patent/CN108349548B/zh
Publication of WO2017069026A1 publication Critical patent/WO2017069026A1/fr

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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B62LAND VEHICLES FOR TRAVELLING OTHERWISE THAN ON RAILS
    • B62DMOTOR VEHICLES; TRAILERS
    • B62D25/00Superstructure or monocoque structure sub-units; Parts or details thereof not otherwise provided for
    • B62D25/08Front or rear portions

Definitions

  • This disclosure relates to a vehicle cockpit module.
  • Patent Document 1 describes a vehicle cockpit module assembly.
  • the instrument panel and its peripheral equipment (blower unit, air conditioning unit, etc.) are integrated (modulated) in advance as a cockpit module assembly through a strength member, and the instrument panel and its peripheral equipment are mounted on the vehicle.
  • the strength member is a member whose main purpose is to support and fix the steering device of the vehicle, and extends in the vehicle lateral direction in the vehicle rear side of the blower unit and the air conditioning unit at the inner side of the instrument panel. The both ends of the strength member in the vehicle left-right direction are fixed to the side surface of the vehicle body.
  • the blower unit When assembling the cockpit module assembly, the blower unit is fastened and fixed to the strength member, and the positioning projection of the air conditioning unit is assembled at a predetermined position of the strength member to position the air conditioning unit with respect to the strength member.
  • the vehicle steering device can be integrated as a part of the cockpit module assembly by supporting and fixing the vehicle steering device to the steering device support stay of the strength member.
  • the vehicle cockpit module assembly (cockpit module) described in Patent Document 1 is arranged so as to extend in the left-right direction of the vehicle on the inner side of the instrument panel (instrument panel), and both ends in the left-right direction of the vehicle are vehicle bodies.
  • An instrument panel and its peripheral devices (blower unit, air conditioning unit, etc.) are integrated in advance with a strength member (steering cross member) fixed to the side surface.
  • a vehicle steering device can also be integrated.
  • a plurality of in-vehicle components (instrument panel, blower unit, air conditioning unit, vehicle steering device, etc.) are fixed to the steering cross member, and the fixing positions thereof are various.
  • the mass of the cockpit module may act as a torsional moment on the steering cross member. is there.
  • reinforcing the side panel to which both ends of the steering cross member are fixed to improve its rigidity will increase the weight of the vehicle and increase the material cost accordingly. There is a risk of inviting.
  • an object of the present disclosure is to provide a cockpit module for a vehicle that can suppress the twisting of the steering cross member due to the mass of the cockpit module.
  • the present invention provides a front panel of a vehicle compartment defined by a vehicle body side floor panel below the vehicle compartment and vehicle body side left and right side panels standing on both sides in the vehicle width direction of the floor panel.
  • a cockpit module of a vehicle that is fixed to a vehicle body in a predetermined space and includes a steering cross member, a plurality of in-vehicle devices, and a center stay.
  • the steering cross member extends in the vehicle width direction in the predetermined space with its both ends fixed to the left and right side panels.
  • the plurality of in-vehicle devices are fixed to the steering cross member in a non-attached state before the steering cross member is fixed to the left and right side panels, and are integrated with the steering cross member.
  • the center stay has a stay upper end fixed to the steering cross member in a non-attached state and a stay lower end fixed to the floor panel in the attached state, and a center portion in the vehicle width direction in the attached state. It is arrange
  • the center of gravity of the cockpit module is arranged in a region in the vicinity of the virtual plane including the center of gravity of the steering cross member perpendicular to the longitudinal direction of the vehicle in the mounted state.
  • the center of gravity of the cockpit module is arranged in a region near the virtual plane including the center of gravity of the steering cross member perpendicular to the vehicle front-rear direction in the mounted state. That is, in the mounted state, the position of the center of gravity of the cockpit module is arranged at substantially the same position in the front-rear direction as the position of the center of gravity of the steering cross member in a side view of the vehicle, so that the mass of the cockpit module is twisted with respect to the steering cross member. It can suppress acting as a load. For this reason, when the cockpit module is mounted, it is possible to suppress the twisting of the steering cross member due to the mass of the cockpit module.
  • the position of the center of gravity of the cockpit module in the side view of the vehicle is arranged at substantially the same position in the front-rear direction as the position of the center of gravity of the steering cross member, for example, during assembly work of the vehicle, When both ends of the cross member are supported and lifted by an arm or the like of the assembly robot, the cockpit module in the non-attached state maintains substantially the same posture as the attached state. Thus, since the cockpit module in the non-attached state does not rotate around the steering cross member during the vehicle assembly operation, the workability of the assembly operation is improved.
  • the center stay supports the center part in the vehicle width direction of the mounted steering cross member from below, the support rigidity of the steering cross member can be ensured.
  • the center stay includes a stay main body extending in an inclined direction with respect to the vertical direction downward from one side in the front-rear direction from the upper end of the stay to the lower end of the stay in a mounted state, and a heavy component fixed to the stay main body. You may have.
  • the stay main body of the center stay extends in an inclined state with respect to the vertical direction from the upper end of the stay toward the lower end of the stay in the front-rear direction.
  • the position of the center of gravity of the cockpit module in the state where the center stay is removed from the cockpit module (hereinafter referred to as the “stay-out state”) is more in the front-rear direction than the position of the center of gravity of the steering cross member
  • the stay body of the center stay can be inclined downward on one side (rear side) in the front-rear direction from the upper end of the stay toward the lower end of the stay.
  • the eccentric distance in the front-rear direction between the heavy component and the center of gravity of the steering cross member in the side view of the vehicle is The closer the heavy component placement position is to the upper end of the stay, the shorter the position, and the closer the lower part is to the lower end of the stay. Therefore, the position of heavy parts can be adjusted according to the eccentric distance in the front-rear direction in the side view of the vehicle between the center of gravity of the cockpit module in the detached state and the center of gravity of the steering cross member, and the center of gravity of the cockpit module can be easily It can arrange
  • the twist of the steering cross member due to the mass of the cockpit module can be suppressed.
  • FIG. 1 is an external perspective view of a cockpit module according to the present disclosure.
  • FIG. 2 is a perspective view showing a state in which an instrument panel of the cockpit module of FIG. 1 is removed.
  • FIG. 5 is a schematic perspective view of the center stay.
  • FIG. 6 is a schematic side view of FIG. 2 viewed from the VI direction.
  • FR indicates the front of the vehicle
  • UP indicates the upper side
  • IN indicates the inner side in the vehicle width direction.
  • the left-right direction means the left-right direction with the vehicle facing forward.
  • the instrument panel is not shown for easy understanding.
  • the cockpit module 10 is obtained by integrating (modulating) a plurality of in-vehicle devices 12 and a center stay 13 with a steering cross member 11 described later.
  • a predetermined space 4 in the front part of the cabin 3 of the cab (vehicle body) 2 of the vehicle 1 for example, a truck
  • the vehicle 1 is arranged in a modular state and attached to the cab 2.
  • the assembly process of the vehicle 1 is simplified by modularizing the plurality of in-vehicle devices 12 and the center stay 13 with respect to the steering cross member 11 and attaching them to the cab 2.
  • the cab 2 of the vehicle 1 includes a floor panel 5 that defines a lower part of the passenger compartment 3, a dash panel 6 that stands from the front edge of the floor panel 5 and defines the front of the passenger compartment 3,
  • the floor panel 5 and the dash panel 6 have a pair of left and right side panels 7 joined to both ends in the vehicle width direction.
  • the front portion of the floor panel 5, the dash panel 6, and the front portions of the left and right side panels 7 define the predetermined space 4 in the front portion of the passenger compartment 3.
  • the cockpit module 10 includes a steering cross member 11, a plurality of in-vehicle devices 12, and a center stay 13. As will be described later, the cockpit module 10 is attached by fixing the steering cross member 11 to the cab 2 side. In addition, in the attached state, in addition to the steering cross member 11, other parts (such as a plurality of in-vehicle devices 12) other than the steering cross member 11 may be fixed to the cab 2 side.
  • the steering cross member 11 is a metal cylindrical rod-shaped member, and both ends thereof are fixed to the left and right side panels 7 of the cab 2.
  • the cockpit module 10 is attached by fixing the steering cross member 11 to the cab 2.
  • the attached steering cross member 11 extends linearly in the vehicle width direction at a position spaced upward from the floor panel 5 in the predetermined space 4.
  • the steering cross member 11 supports a steering unit 14 described later and suppresses vibration of the steering unit 14.
  • the plurality of in-vehicle devices 12 include an instrument panel 18 (see FIG. 1), a steering unit 14, an air conditioning unit 15, a fuse and relay block 16, various harnesses 17 and the like.
  • the plurality of in-vehicle devices 12 are fixed to the steering cross member 11 and modularized in a non-attached state of the cockpit module 10 before the steering cross member 11 is fixed to the left and right side panels 7.
  • the instrument panel 18, the steering unit 14, the air conditioning unit 15, the fuse (not shown), the relay (not shown) block 16, and the various harnesses 17 will be described.
  • the description of the other vehicle-mounted device 12 other than the above that is modularized in the steering cross member 11 in the attached state is omitted.
  • illustration of each in-vehicle device 12 is omitted as appropriate for easy understanding of the description, but in reality, all the in-vehicle devices 12 are attached.
  • the direction of the some vehicle-mounted apparatus 12 in the following description shows the direction in an attachment state unless there is particular description.
  • the instrument panel 18 has a panel main body 28 formed of resin and a plurality of devices 29 fixed to the panel main body 28.
  • the steering panel 18 is provided. It is fixed with respect to the steering cross member 11 in the non-attached state so as to be arranged behind the cross member 11.
  • the instrument panel 18 in the attached state covers the predetermined space 4 (see FIG. 3) from above and behind.
  • the panel main body 28 is provided with a plurality of air conditioner air outlets 27.
  • the plurality of devices 29 include, for example, an instrument panel 23 on which a speedometer on the driver's seat side (right side in the vehicle width direction in this embodiment) and the like, an air conditioner operation panel 24 in the vehicle width direction center, and a vehicle width direction center.
  • An audio device 25 such as a radio, and a glove box 26 on the passenger seat side (left side in the vehicle width direction in the present embodiment).
  • the instrument panel 18 is fixed to the steering cross member 11 after fixing the steering unit 14, the air conditioning unit 15, the fuse / relay block 16, various harnesses 17, and the like to the steering cross member 11.
  • the several apparatus 29 provided in the instrument panel 18 is not limited above.
  • the steering unit 14 has a steering shaft 19, a steering column 20, a steering wheel 21, and a support stay 22, and is disposed on the driver's seat side when the non-attached state is changed to the attached state.
  • the steering cross member 11 is fixed to the steering cross member 11 through the steering bracket 36 in a non-attached state.
  • the lower end of the steering shaft 19 is connected to a steering gear box (not shown) below the floor panel 5 to transmit the rotation of the steering wheel 21 to the steering gear box.
  • the steering column 20 is disposed behind the instrument panel 18 and is fixed to the steering cross member 11 via the steering bracket 36.
  • the steering column 20 is provided with an operation lever (not shown) for a winker or a wiper.
  • the steering wheel 21 is connected to the upper end of the steering shaft 19 and is operated by the driver.
  • the support stay 22 is disposed in front of the steering shaft 19 and extends obliquely downward and forward from the steering column 20, and its lower end is fixed to the floor panel 5 in the attached state.
  • the support stay 22 supports the steering column 20 from the floor panel 5 side.
  • the air conditioning unit 15 is an HVAC (Heating, Ventilating, and Air Conditioning) unit in which a blower (evaporator), an evaporator (evaporator), and a heater are integrated, and has a duct (not shown) at the top thereof. It is fixed to the steering cross member 11 in a non-attached state via a bracket (not shown) or the like so as to be disposed in front of and below the steering cross member 11 on the passenger seat side when the attached state is changed to the attached state.
  • HVAC Heating, Ventilating, and Air Conditioning
  • the mounted air conditioning unit 15 extends in the vehicle width direction at the front lower side of the steering cross member 11 and is fixed to the floor panel 5.
  • a duct (not shown) for blowing air from the air conditioning unit 15 into the passenger compartment 3 is attached to the upper portion of the air conditioning unit 15.
  • the air outlet of the duct communicates with a plurality of air conditioner air outlets 27 of the instrument panel 18.
  • the blower of the air conditioning unit 15 introduces air from outside or inside the vehicle and blows it to the evaporator.
  • the evaporator receives low-pressure refrigerant (air-conditioner gas) decompressed by a decompression device such as an expansion valve of a refrigeration cycle for vehicle air conditioning, and the low-pressure refrigerant absorbs heat from the air flowing through the air passage and evaporates. By this, the air which flowed in from the air blower is cooled.
  • the heater heats the air flowing from the evaporator using engine cooling water as a heat source.
  • An air mix damper is provided between the evaporator and the heater core.
  • the opening of the air mix damper By controlling the opening of the air mix damper, the amount of air passing through the heater core is adjusted, and the temperature of the air flowing into the passenger compartment 3 is adjusted. Adjusted.
  • the air conditioning unit 15 during the cooling operation, the air from the blower is heat-exchanged by the evaporator and cooled, and the amount of air passing through the heater core is limited by the control of the air mix damper so that the air that remains at a low temperature is 3 flows out. Further, during the heating operation, the amount of air passing through the heater core is increased by the control of the air mix damper, and the air is heated, so that hot air flows out into the passenger compartment 3 as compared with the cooling operation. .
  • the fuse or relay block 16 is mounted on the steering cross member 11 in a non-attached state (not shown) so that the fuse or relay block 16 is placed on the steering cross member 11 on the passenger seat side from above when it is changed from the non-attached state to the attached state. It is fixed through etc.
  • the mounted block 16 is fixed to the steering cross member 11 above the air conditioning unit 15 in the steering cross member 11.
  • the mounted block 16 is located above the glove box 26 of the instrument panel 18.
  • a fuse and a relay are detachably attached to the block 16.
  • the various harnesses 17 are harnesses 17 connected in a non-attached state to the steering column 20, the air conditioning unit 15, a plurality of devices 29 of the instrument panel 18, a plurality of electronic components 30 of the center stay 13 described later, and the like.
  • a connecting portion such as a connector (not shown) is provided at the tip, and is attached to the steering cross member 11 and supported by the steering cross member 11 in a non-attached state.
  • a connection portion such as a connector at the tip of the harness 17 is connected to a connection portion such as a connector at the connection destination (partner side) in an attached state.
  • the center stay 13 includes a pair of left and right stay legs (stay body) 31 and a plurality (three in this embodiment) disposed between the left and right stay legs 31. And a plurality of electronic components (heavy parts) 30 placed on the shelf plate portion 32.
  • the steering cross member 11 When the center stay 13 is changed from the non-attached state to the attached state, the steering cross member 11 is in the non-attached state so as to extend obliquely downward with respect to the vertical direction from the center in the vehicle width direction of the steering cross member 11. It is fixed via a bracket (not shown).
  • the center stay 13 is fixed to the steering cross member 11 after fixing the other in-vehicle devices 12 except the instrument panel 18 among the plurality of in-vehicle devices 12 to the steering cross member 11.
  • the direction of the center stay 13 in the following description indicates the direction in the attached state unless otherwise specified.
  • the left and right stay legs 31 of the center stay 13 are metal plates that face each other on both sides in the vehicle width direction of the vehicle 1, and brackets (not shown) are attached to the steering cross member 11. And a stay upper end 31a fixed to the floor panel 5, respectively.
  • the stay lower end 31b is arranged behind the stay upper end 31a. That is, the left and right stay leg portions 31 extend obliquely downward with respect to the vertical direction from the steering cross member 11 to the rear side (one side in the front-rear direction).
  • the left and right stay leg portions 31 each have a bead 31c extending along the extending direction of the left and right stay leg portions 31 at a substantially central portion between the front end edge and the rear end edge thereof.
  • the bead 31c protrudes inward in the vehicle width direction.
  • the left and right stay legs 31 in the attached state support the center part in the vehicle width direction of the steering cross member 11 from the floor panel 5 side obliquely below the steering cross member 11.
  • the plurality of shelf plates 32 are metal plates extending in the vehicle width direction and intersecting the vertical direction in the attached state, and are arranged between the left and right stay leg portions 31, and both ends in the vehicle width direction are The left and right stay legs 31 are fastened and fixed by bolts or the like.
  • Each of the plurality of shelf boards 32 has a placement area 33 in which the electronic component 30 can be placed on the upper surface side, is formed in substantially the same size, and is disposed at different positions in the front-rear direction.
  • the middle shelf board 32 b is arranged rearward of the upper shelf board 32 a, and the lower shelf board 32 c of the middle shelf board 32 b is arranged. Is placed rearward.
  • the placement areas 33 of the plurality of shelf boards 32 are also arranged at positions different from each other in the front-rear direction, and the placement areas 33 of the lower shelf boards 32 are arranged at the rear.
  • the center stay 13 has a plurality of shelf plates 32 having different distances in the front-rear direction with respect to the steering cross member 11.
  • the plurality of electronic components 30 are, for example, electronic control units (ECUs) that control various devices of the vehicle 1, each having a case 34 that accommodates a substrate or the like (not shown) therein, and a plurality of shelf boards. It is placed on each placement area 33 of the part 32 and fixed to the shelf part 32.
  • the plurality of electronic components 30 function as heavy components for adjusting the position of the center of gravity g3 of the cockpit module 10, as will be described later.
  • the plurality of electronic components 30 are placed at predetermined placement positions obtained by experiments, simulations, or the like, among the placement regions 33 of the plurality of shelf units 32.
  • g1 is the center of gravity of the steering cross member 11
  • g2 is the center of gravity of the cockpit module 10 (excluding the center stay 13) in a state where the center stay 13 is removed from the cockpit module 10 (hereinafter referred to as the destayed state).
  • G3 respectively indicate the center of gravity of the cockpit module 10 (including the center stay 13).
  • the center of gravity g2 of the cockpit module 10 (except for the center stay 13) in the destayed state is strongly influenced by the air conditioning unit 15 that is a heavy object in front and lower of the steering cross member 11, and the steering cross member 11 is disposed below the front side (the other side in the front-rear direction).
  • the center of gravity g3 of the cockpit module 10 (including the center stay 13) is lower than the steering cross member 11 in the attached state, and includes a center of gravity g1 of the steering cross member 11 and a virtual plane 35 orthogonal to the front-rear direction (FIG. 6). It is arranged in a region near (indicated by a two-dot chain line 35).
  • the predetermined mounting position of the plurality of electronic components 30 is set such that the center of gravity g3 of the cockpit module 10 is removed by attaching the center stay 13 to the cockpit module 10 in the detached state. It is obtained by experiments, simulations, or the like so that it moves from the position of the center of gravity g2 of the cockpit module 10 in the stay state and is arranged in the region near the virtual plane 35.
  • the region in the vicinity of the virtual plane 35 is a region in the vicinity of the virtual plane 35 in the front-rear direction, for example, behind the front end of the steering cross member 11 and beyond the rear end of the steering cross member 11. This is an area including the front virtual plane 35.
  • the virtual plane 35 is a virtual plane obtained by extending the two-dot chain line 35 in the vehicle width direction. However, in FIG.
  • the center of gravity g3 of the cockpit module 10 is below the steering cross member 11 in the attached state, and includes a virtual plane 35 that includes the center of gravity g1 of the steering cross member 11 and is orthogonal to the front-rear direction. Arranged in a nearby area.
  • the position of the center of gravity g3 of the cockpit module 10 is arranged at substantially the same position in the front-rear direction as the position of the center of gravity g1 of the steering cross member 11 in the side view of the vehicle 1. It is possible to suppress the cross member 11 from acting as a torsional load. For this reason, it is possible to suppress the twisting of the steering cross member 11 due to the mass of the cockpit module 10 in the mounted state.
  • the position of the center of gravity g3 of the cockpit module 10 in the side view of the vehicle 1 is arranged at substantially the same position in the front-rear direction as the position of the center of gravity g1 of the steering cross member 11.
  • the twist of the steering cross member 11 can be suppressed, the rigidity of the cab 2 side (side panel 7 or the like) that supports both ends of the steering cross member 11 can be suppressed, and the weight of the cab 2 is correspondingly increased. Can be suppressed and the material cost can be reduced.
  • the left and right stay legs 31 of the center stay 13 in the attached state support the center part in the vehicle width direction of the steering cross member 11 from the floor panel 5 side obliquely below the rear of the steering cross member 11. It is possible to ensure the supporting rigidity.
  • the center of gravity g2 of the cockpit module 10 (excluding the center stay 13) in the destayed state is disposed below the front side (the other side in the front-rear direction) of the steering cross member 11, and the left and right stay leg portions of the center stay 13 are disposed.
  • 31 extends obliquely downward from the steering cross member 11 to the rear side (one side in the front-rear direction) with respect to the vertical direction. That is, the center stay 13 extends toward the opposite side in the front-rear direction with respect to the steering cross member 11 from the center of gravity g2 of the cockpit module 10 in a detached state (excluding the center stay 13).
  • the left and right stay legs 31 of the center stay 13 extend obliquely downward from the steering cross member 11 to the rear side (one side in the front-rear direction) with respect to the vertical direction,
  • the eccentric distance in the front-rear direction between the component 30 and the center of gravity g1 of the steering cross member 11 is shorter as the mounting position of the electronic component 30 is closer to the stay upper end portion 31a, and is longer as it is closer to the stay lower end portion 31b.
  • the position of the electronic component 30 can be adjusted according to the eccentric distance in the front-rear direction in the side view of the vehicle 1 between the center of gravity g2 of the cockpit module 10 in the detached state and the center of gravity g1 of the steering cross member 11.
  • the center of gravity g3 of the module 10 can be easily arranged in the vicinity of the virtual plane 35.
  • the electronic component 30 having a large mass among the plurality of electronic components 30 has a long eccentric distance in the front-rear direction in the side view of the vehicle 1 between the center of gravity g2 of the cockpit module 10 in the detached state and the center of gravity g1 of the steering cross member 11. In this case, it is placed on the placement area 33 of the shelf 32 close to the stay lower end 31b. Further, when the eccentric distance in the front-rear direction in the side view of the vehicle 1 between the center of gravity g2 of the cockpit module 10 in the detached state and the center of gravity g1 of the steering cross member 11 is short, the shelf plate portion 32 close to the stay upper end 31a Place in the placement area 33. As described above, the center of gravity g3 of the cockpit module 10 can be easily arranged in a region near the virtual plane 35 depending on the mounting position of the electronic component 30.
  • the twist of the steering cross member 11 due to the mass of the cockpit module 10 can be suppressed.
  • the steering cross member 11 is a metal cylindrical rod-like member extending linearly, but is not limited to this.
  • a steering cross member having a bent portion or a steering cross member having a rectangular cross section may be used.
  • the center of gravity g3 of the cockpit module 10 is arranged in a region near the virtual plane orthogonal to the front-rear direction including the center of gravity g1 of the steering cross member in the attached state.
  • the steering cross member 11 may be formed of a high-strength resin member or the like.
  • the center of gravity g2 of the cockpit module 10 (excluding the center stay 13) in the destayed state is disposed below the front side of the steering cross member 11 (the other side in the front-rear direction).
  • the left and right stay leg portions 31 are extended obliquely downward from the steering cross member 11 to the rear side (one side in the front-rear direction) with respect to the vertical direction.
  • the present invention is not limited to this.
  • the center of gravity g2 of the cockpit module 10 in the detached state is disposed below the rear side of the steering cross member 11 (the other side in the front-rear direction), and the left and right stay legs 31 of the center stay 13 are connected to the steering cross member 11. From the front side (one side in the front-rear direction), it may extend obliquely downward with respect to the vertical direction.
  • a center stay 13 having a pair of left and right stay leg portions 31, a plurality of shelf plate portions 32, and a plurality of electronic components 30 is provided, and the cockpit module 10 is changed depending on the mounting positions of the plurality of electronic components 30.
  • the position of the center of gravity g3 is adjustable, the present invention is not limited to this.
  • a center stay composed of only one stay leg portion that supports the center portion in the vehicle width direction of the steering cross member 11 from below may be provided.
  • the center of gravity of the cockpit module 10 is provided by providing the center stay.
  • g3 may be disposed in a region near the virtual plane 35 that includes the center of gravity g1 of the steering cross member 11 in the attached state and is orthogonal to the front-rear direction.
  • the cockpit module according to the present disclosure is applied to the cockpit module 10 attached to the cab 2 such as a truck.
  • the present invention is not limited to this, and the cockpit of various vehicles such as a passenger car is used. Can be applied to modules.
  • the cockpit module according to the present disclosure is effective in that it can suppress the twisting of the steering cross member due to the mass of the cockpit module and contribute to the realization of a safer and more comfortable vehicle.
  • Vehicle 2 Cab (body) 3: Vehicle compartment 4: Predetermined space 5: Floor panel 7: Left and right side panels 10: Cockpit module 11: Steering cross member 12: Multiple in-vehicle devices 13: Center stay 14: Steering unit (in-vehicle device) 15: Air conditioning unit (in-vehicle device) 16: Fuse and relay block (vehicle equipment) 17: Various harnesses (vehicle equipment) 18: Instrument panel 30: Multiple electronic parts (heavy parts) 31: Stay leg (stay body) 31a: Stay upper end 31b: Stay lower end 35: Virtual plane g1: Center of gravity of steering cross member g2: Center of gravity of cockpit module with center stay removed g3: Center of gravity of cockpit module

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  • Engineering & Computer Science (AREA)
  • Chemical & Material Sciences (AREA)
  • Combustion & Propulsion (AREA)
  • Transportation (AREA)
  • Mechanical Engineering (AREA)
  • Body Structure For Vehicles (AREA)

Abstract

La présente invention concerne un module de poste de pilotage (10) doté d'un élément transversal de direction (11), d'une pluralité de dispositifs embarqués (12) et d'un étai central (13). La pluralité de dispositifs embarqués (12) et l'étai central (13) sont disposés, sous forme d'un module par rapport à l'élément transversal de direction (11), dans un espace prescrit (4) situé dans la partie avant d'un intérieur de véhicule (3) et fixés à une cabine (2). Le centre de gravité (g2) du module de poste de pilotage (10) avec l'étai central (13) retiré de celui-ci se trouve en dessous et à l'avant de l'élément transversal de direction (11). De plus, le centre de gravité (g3) du module de poste de pilotage (10) (avec l'étai central (13)) est situé dans une région à proximité d'un plan virtuel (35) qui inclut le centre de gravité (g1) de l'élément transversal de direction (11) et est orthogonal à la direction avant-arrière.
PCT/JP2016/080251 2015-10-20 2016-10-12 Module de poste de pilotage WO2017069026A1 (fr)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201680061144.5A CN108349548B (zh) 2015-10-20 2016-10-12 驾驶舱模块

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
JP2015-206657 2015-10-20
JP2015206657A JP6641618B2 (ja) 2015-10-20 2015-10-20 コクピットモジュール

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WO2017069026A1 true WO2017069026A1 (fr) 2017-04-27

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WO (1) WO2017069026A1 (fr)

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Publication number Priority date Publication date Assignee Title
JP7256996B2 (ja) * 2020-07-08 2023-04-13 いすゞ自動車株式会社 車両の前部構造

Citations (5)

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