• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    Provided is a deflector structure for an automobile that may reduce the air resistance of an automobile 1 by causing traveling air caused when the automobile 1 travels forward to flow along an end surface of a front wheel 3 on the vehicle-width-direction outer side thereof. The deflector structure for the automobile includes a deflector 30. A protruding portion 32c protruding downward and having an end surface on an automobile front side of the protruding portion 32c to be hit by the traveling air caused when the automobile 1 travels forward is provided on a lower surface of the deflector 30, the end surface of the protruding portion 32c on the automobile front side of the protruding portion 32c includes: a first inclined portion 32d provided on a portion including an end portion of the end surface on the vehicle-width-direction outer side of the end surface and inclined upward toward the automobile front side; and a second inclined portion 32e located on a vehicle-width-direction inner side than the first inclined portion 32d and inclined upward toward the automobile front side, and an angle of inclination of the second inclined portion 32e on an acute angle side of the second inclined portion 32e with respect to a horizontal direction is set to be smaller than an angle of inclination of the first inclined portion 32d on an acute angle side of the first inclined portion 32d with respect to the horizontal direction.
    公开号:EP3702255A1
    申请号:EP19216620.5
    申请日:2019-12-16
    公开日:2020-09-02
    发明作者:Akihiro Nakata;Masaaki BESSHO;Michiya MIZOKANE;Yoshiatsu Kuga;Shuhei Nishida;Ryo Yanagisawa
    申请人:Mazda Motor Corp;
    IPC主号:B62D35-00
    专利说明:
    [0001] The present invention belongs to a technical field relating to a deflector structure for an automobile and an automobile. Description of the Related Art
    [0002] Hitherto, the turbulence of the air flow caused by front wheels has been suppressed in order to improve fuel efficiency of an automobile. The turbulence of the air flow is caused when traveling air that flows under the floor of the front portion of the automobile and reaches the front wheels when the automobile travels forward is disturbed by the rotation of the front wheels.
    [0003] For example, in Japanese Patent Laid-Open No. 2017-77846 , a deflector is installed on a lower surface ahead of a front wheel well in an automobile so that the traveling air caused when the automobile travels forward does not come into contact with a front wheel as much as possible. The deflector includes a wall portion that extends in the up-down direction so as to protrude downward from the lower surface ahead of the front wheel well in the automobile. The traveling air is caused to hit the wall portion. SUMMARY OF THE INVENTION
    [0004] The inventors of the present invention have performed eager analysis for further improvement of aerodynamic characteristics. As a result, the following matter has become clear. Even when the deflector as that in Japanese Patent Laid-Open No. 2017-77846 described above is provided on the front side of a front wheel, an end surface of the front wheel on the vehicle-width-direction outer side thereof is generally located on the vehicle-width-direction outer side than an end of the wall portion of the deflector on the vehicle-width-direction outer side thereof, and hence the traveling air that has passed through the vehicle-width-direction outer side with respect to the wall portion extending in the up-down direction of the deflector hits a portion of the front wheel on the vehicle-width-direction outer side thereof. Therefore, at the height position that is lower than the lower end of the wall portion of the deflector, the pressure of an outer-side space portion located immediately in front of the portion of the front wheel on the vehicle-width-direction outer side thereof becomes higher than the pressure of the center space portion located immediately in front of a central portion of the front wheel in the vehicle width direction. When a pressure distribution as above is formed, the traveling air avoids the outer-side space portion and flows toward the rear side and the vehicle-width-direction outer side so as to be spaced apart from the outer-side space portion. The traveling air flowing as above is spaced apart from the end surface and flows to the rear side without flowing along the end surface of the front wheel on the vehicle-width-direction outer side thereof. Therefore, in the deflector of the related art, a separating flow (swirl) is easily generated in the vicinity of the end surface of the front wheel on the vehicle-width-direction outer side thereof, and there is room for improvement for more reduction of the air resistance of the automobile.
    [0005] The present invention has been made in view of the points as above, and an object thereof is to properly improve in reducing air resistance of the automobile by causing traveling air caused when the automobile travels forward to flow along an end surface of a front wheel on a vehicle-width-direction outer side thereof.
    [0006] The invention is defined by the independent claims. Particular embodiments are defined in the dependent claims. In particular, there is provided a deflector mounted on a lower surface ahead of a front wheel well in the automobile, particularly in a vehicle front-rear direction, so as to be spaced apart from a front wheel at a position ahead of the front wheel. A protruding portion protruding downward and having an end surface on an automobile front side of the protruding portion is provided on a lower surface of the deflector, the end surface is configured to be hit by traveling air caused when the automobile travels forward is provided on a lower surface of the deflector. The end surface of the protruding portion on the automobile front side of the protruding portion includes: a first inclined portion provided on a portion including an end portion of the end surface on a vehicle-width-direction outer side of the end surface and inclined upward toward the automobile front side; and a second inclined portion located on a vehicle-width-direction inner side than the first inclined portion and inclined upward toward the automobile front side. An angle of inclination of the second inclined portion on an acute angle side of the second inclined portion with respect to a horizontal direction is set to be smaller than an angle of inclination of the first inclined portion on an acute angle side of the first inclined portion with respect to the horizontal direction.
    [0007] Particularly, the deflector structure is configured to guide traveling air that hits the first inclined portion and the second inclined portion to a lower side of the protruding portion along the first inclined portion and the second inclined portion, respectively, such that traveling air can head toward an automobile rear side of the protruding portion through the lower side of the protruding portion. In other words, traveling air may flow to the lower side along the first inclined portion and the second inclined portion, and then head toward the automobile rear side of the protruding portion through the lower side of the protruding portion. The traveling air that has passed the first inclined portion can be basically caused to hit the portion of the front wheel on the vehicle-width-direction outer side thereof and the traveling air that has passed the second inclined portion can be basically caused to hit the central portion of the front wheel in the vehicle width direction. Further particularly, the deflector structure is configured to set a flow rate of the traveling air that hits a central portion of the front wheel in a vehicle width direction after passing the second inclined portion to be faster than a flow rate of the traveling air that hits a portion of the front wheel on the vehicle-width-direction outer side thereof after passing the first inclined portion. In other words, the flow rate of the traveling air that hits the central portion of the front wheel in the vehicle width direction after passing the second inclined portion of which inclination is gentler than the first inclined portion may be faster than the flow rate of the traveling air that hits the portion of the front wheel on the vehicle-width-direction outer side thereof after passing the first inclined portion. As a result, at the height position, which is below the lower end of the protruding portion of the deflector and at which the traveling air that has passed the first inclined portion and the second inclined portion hits the front wheel, the pressure of the center space portion located immediately in front of the central portion of the front wheel in the vehicle width direction becomes higher than the pressure of the outer-side space portion located immediately in front of the portion of the front wheel on the vehicle-width-direction outer side thereof. When a pressure distribution as above is formed, the traveling air avoids the center space portion of which pressure is high and easily flows to the outer-side space portion of which pressure is low. Therefore, in the space portion on the front side of the front wheel, the traveling air flows toward the rear side and the vehicle-width-direction outer side so as to head toward the outer-side space portion side from the center space portion side. The traveling air flowing from the center space portion side toward the outer-side space portion side flows to the rear side along the end surface of the front wheel on the vehicle-width-direction outer side thereof. Therefore, it is difficult for a separating flow (swirl) to be generated in the vicinity of the end surface of the front wheel on the vehicle-width-direction outer side thereof. Thus, the air resistance of the automobile can be reduced.
    [0008] In one embodiment of the deflector structure for the automobile described above, the second inclined portion may be located on the vehicle-width-direction inner side than a center of the front wheel in a vehicle width direction.
    [0009] In other words, the traveling air that hits the second inclined portion generally flows toward the automobile rear side and the vehicle-width-direction outer side by the round shape of the corner portion on the end portion of the front bumper in the vehicle width direction before hitting the second inclined portion. As a result, since the second inclined portion is located on the vehicle-width-direction inner side than the center of the front wheel in the vehicle width direction, the traveling air that has passed the second inclined portion basically hits the central portion of the front wheel in the vehicle width direction.
    [0010] When the second inclined portion is located on the vehicle-width-direction inner side than the center of the front wheel in the vehicle width direction, the deflector may be mounted at least partially on a lower surface of a corner portion on an end portion of a front bumper of the automobile in the vehicle width direction, and the corner portion may be formed in a round shape so as to be positioned rearward toward the vehicle-width-direction outer side in a bottom view of the automobile.
    [0011] As a result, the traveling air that has passed the second inclined portion hits the central portion of the front wheel in the vehicle width direction in a more secured manner.
    [0012] Particularly, the deflector structure is configured to guide traveling air that hits the end surface of the protruding portion on the automobile front side thereof toward an automobile rear side of the protruding portion and the vehicle-width-direction outer side before hitting the end surface.
    [0013] Further particularly, the second inclined portion includes an upper-side inclined portion and a lower-side inclined portion of which angles of inclination are different from each other.
    [0014] Further particularly, an angle of inclination of the upper-side inclined portion on the acute angle side thereof with respect to the horizontal direction is set to be smaller than an angle of inclination of the lower-side inclined portion on the acute angle side thereof with respect to the horizontal direction.
    [0015] Further particularly, the end surface of the protruding portion on an automobile rear side of the protruding portion thereof is formed by a longitudinal wall portion.
    [0016] Further particularly, the deflector is formed by two members including an upper member and a lower member that are an upper-side member and a lower-side member.
    [0017] Further particularly, the upper-side member is formed by a metal plate material, and/or the lower-side member is formed by soft synthetic resin.
    [0018] Further particularly, an automobile includes a deflector structure for an automobile.
    [0019] Further particularly, the automobile further includes a left and right of deflectors provided on a lower surface of the front portion of the automobile in a vehicle front-rear direction.
    [0020] Further particularly, the left and right deflectors are attached to substantially symmetrical positions with respect to the center of the automobile in a vehicle width direction and are formed in substantially symmetrical shapes with respect to the center of the automobile in the vehicle width direction.
    [0021] As described above, the deflector structure for the automobile according to the aspect of the present invention causes, at the height position that is below the lower end of the protruding portion of the deflector and at which the traveling air that has passed the first inclined portion and the second inclined portion hits the front wheel, the pressure of the outer-side space portion located immediately in front of the portion of the front wheel on the vehicle-width-direction outer side thereof to become lower than the pressure of the center space portion located immediately in front of the central portion of the front wheel in the vehicle width direction. Thus, in the space portion on the front side of the front wheel, the traveling air caused when the automobile travels forward flows toward the rear side and the vehicle-width-direction outer side so as to head toward the outer-side space portion side from the center space portion side, and the traveling air flowing from the center space portion side toward the outer-side space portion side flows along the end surface of the front wheel on the vehicle-width-direction outer side thereof. As a result, the air resistance of the automobile can be reduced. BRIEF DESCRIPTION OF THE DRAWINGS
    [0022] FIG. 1 is a perspective view illustrating a part (left-front-side portion) of a front portion of an automobile in which a deflector structure according to an embodiment of the present invention is employed; FIG. 2 is a front view of the left-front-side portion of the automobile described above; FIG. 3 is a bottom view of the left-front-side portion of the automobile described above; FIG. 4 is a bottom view illustrating a lower-side member in the deflector on the left side; FIG. 5 is a cross-sectional view taken along line V-V in FIG. 4; FIG. 6 is a cross-sectional view taken along line VI-VI in FIG. 4; FIG. 7A illustrates a schematic pressure distribution in the vehicle width direction in a space portion immediately in front of a front wheel at a height position, which is below a lower end of a protruding portion of the deflector and at which traveling air that has passed a first inclined portion and a second inclined portion hits the front wheel, and the flow of the traveling air caused when the automobile travels forward in this embodiment; FIG. 7B illustrates a schematic pressure distribution in the vehicle width direction in a space portion immediately in front of a front wheel at a height position, which is below a lower end of a wall portion of a deflector of the related art and at which traveling air that has passed the wall portion hits the front wheel, and the flow of the traveling air caused when the automobile travels forward in a related-art example using the deflector of the related art instead of the deflector of this embodiment; and FIG. 8 is a graph showing results obtained by measuring the pressure distribution in the vehicle width direction in the space portion immediately in front of the front wheel at the height position, which is below the lower end of the protruding portion of the deflector and at which the traveling air that has passed the first inclined portion and the second inclined portion hits the front wheel, in this embodiment, and the pressure distribution in the vehicle width direction in the space portion immediately in front of the front wheel at the height position, which is below the lower end of the wall portion of the deflector of the related art and at which the traveling air that has passed the wall portion hits the front wheel, in the related-art example described above. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT
    [0023] An embodiment of the present invention is described in detail below on the basis of the drawings.
    [0024] FIG. 1 to FIG. 3 illustrate a part (left-front-side portion) of a front portion 2 of an automobile 1 in which a deflector structure according to the embodiment of the present invention is employed. "Front", "rear", "left", "right", "upper", and "lower" with respect to the automobile 1 are simply referred to as "front", "rear", "left", "right", "upper", and "lower" below. In the description below, only the left side is illustrated for components that form a left-and-right pair (for example, front wheels 3). Note that, in FIG. 1, arrow Fr indicates a direction ahead of the automobile 1 (the same applies to FIG. 3 to FIG. 6, FIG. 7A, and FIG. 7B).
    [0025] The front portion 2 of the automobile 1 is a portion anterior to a passenger compartment which a driver of the automobile 1 gets into, and includes a mounting space (including an engine compartment) in which components relating to the traveling of the automobile 1 such as an engine, a transmission, a cooling apparatus, a suspension apparatus, a steering apparatus, and the left-and-right pair of the front wheels 3 are mounted, and lights toward ahead or sides of the automobile 1 such as headlights 4 and fog lamps.
    [0026] The front portion 2 of the automobile 1 includes a left-and-right pair of front fenders 5 forming the side surfaces on both of left and right sides of the front portion 2, a front bumper 6 disposed on the front ends of the left-and-right pair of front fenders 5 (the front end of the automobile 1), and a hood 7 covering an upward opening of the mounting space (engine compartment) described above surrounded by the left-and-right pair of front fenders 5 and the front bumper 6.
    [0027] Both end portions of the front bumper 6 in the vehicle width direction (left and right direction) are corner portions 6a that go around the sides on both of left and right sides from the front end of the automobile 1. The left and right corner portions 6a are each formed in a round shape so as to be positioned rearward toward the vehicle-width-direction outer sides in a bottom view of the automobile 1 (see FIG. 3).
    [0028] A left-and-right pair of front wheel wells 8 in which the left and right front wheels 3 are accommodated are provided in the lower sides of the left and right front fenders 5. The front wheel wells 8 are covered with mud guards 9, and the mud guards 9 prevent mud, pebbles, and water drops splashed by the front wheels 3 from entering the mounting space described above. For example, the mud guards 9 are made of hard synthetic resin such as polypropylene, and are formed in a substantially arc shape so as to extend along the upper-side portions of the front wheels 3 in a side view of the automobile 1.
    [0029] On the lower surface (bottom surface) in the front portion 2 of the automobile 1, a front-side under cover 21, and a rear-side under cover 22 located on the rear side thereof are provided. The rear-side under cover 22 is located on the front side of a suspension cross member (not shown) that extends in the vehicle width direction, and covers the lower side of the engine described above.
    [0030] As illustrated in FIG. 1 to FIG. 3, a left-and-right pair of deflectors 30 (left and right deflectors) may be provided on the lower surface of the front portion 2 of the automobile 1 in a vehicle front-rear direction. Each of the deflectors 30 are provided in a portion surrounded by the front end of the front wheel well 8 (the front end of the mud guard 9), the front bumper 6, and the front-side under cover 21. In other words, the deflector 30 is provided on the lower surface ahead of the front wheel well 8 in the automobile 1, particularly in a vehicle front-rear direction, so as to be spaced apart from a front wheel 3 at a position ahead of the front wheel 3. The deflectors 30 reduce the air resistance of the automobile 1 by controlling the flow of the traveling air caused when the automobile 1 travels forward.
    [0031] The left and right deflectors 30 may be attached to substantially symmetrical positions with respect to the center of the automobile 1 in the vehicle width direction and may be formed in substantially symmetrical shapes with respect to the center of the automobile 1 in the vehicle width direction. The configurations of the left and right deflectors 30 are basically the same, and hence the deflector 30 on the left side is described in detail below. The expressions of "front", "rear", "left", "right", "upper", and "lower" with respect to the deflector 30 on the left side described below are "front", "rear", "left", "right", "upper", and "lower" in a state in which the deflector 30 on the left side is provided on the automobile 1, and are the same as "front", "rear", "left", "right", "upper", and "lower" with respect to the automobile 1.
    [0032] In this embodiment, the deflector 30 on the left side (hereinafter referred to as the deflector 30) is formed by two members including an upper member and a lower member that are an upper-side member 31 and a lower-side member 32. The upper-side member 31 may be formed by a metal plate material, and/or the lower-side member 32 may be formed by soft synthetic resin such as synthetic rubber having flexibility.
    [0033] The upper-side member 31 includes a curved edge portion 31a from the front end to the end on the vehicle-width-direction outer side formed in a shape (round shape) similar to the corner portion 6a of the front bumper 6 in a bottom view of the automobile 1 (see FIG. 3 and FIG. 4). The curved edge portion 31a is mounted and fixed on the lower surface of the corner portion 6a by bolts 37 at a plurality of places. The rear end edge portion of the upper-side member 31 is a bent portion 31b (see FIG. 5 and FIG. 6) that is bent upward.
    [0034] The lower-side member 32 includes a curved edge portion 32a (see FIG. 3 and FIG. 4) formed in a round shape as with the curved edge portion 31a and located on the inner side of the curved edge portion 31a of the upper-side member 31. The curved edge portion 32a is mounted and fixed to the upper-side member 31 by clips 38 at a plurality of places.
    [0035] An end edge portion of the lower-side member 32 on the vehicle-width-direction inner side thereof vertically overlaps with an end edge portion of the upper-side member 31 on the vehicle-width-direction inner side thereof, and is mounted and fixed on the upper-side member 31 by bolts 39 at a plurality of places. The end edge portions of the upper-side member 31 and the lower-side member 32 on the vehicle-width-direction inner side thereof are supported on the front-side under cover 21 and the rear-side under cover 22.
    [0036] The rear end edge portion of the lower-side member 32 is a vertical wall portion 32b (see FIG. 5 and FIG. 6) rising to the upper side, and the vertical wall portion 32b is mounted and fixed on the bent portion 31b of the upper-side member 31 by clips (not shown) at a plurality of places in the vehicle width direction. A front end portion of the mud guard 9 is also mounted and fixed on the bent portion 31b together with the vertical wall portion 32b by the clips.
    [0037] On a portion that is a rear-side end portion of the lower surface of the deflector 30 (the lower surface of the lower-side member 32) and is on the vehicle-width-direction outer side, a protruding portion 32c that protrudes downward and has an end surface on the front side thereof to which the traveling air caused when the automobile 1 travels forward hits is provided. An end of the protruding portion 32c on the vehicle-width-direction outer side thereof is located on the vehicle-width-direction inner side than the end surface of the front wheel 3 (the front wheel 3 on the left side here) on the vehicle-width-direction outer side thereof (see FIG. 2 and FIG. 3). The end surface of the protruding portion 32c on the rear side thereof may be formed by the longitudinal wall portion 32b (see FIG. 5 and FIG. 6). Note that, in this embodiment, the distance between the lower end of the protruding portion 32c and the horizontal ground may be about 20 mm to about 300 mm or about 90 mm to about 200 mm, particularly about 110 mm.
    [0038] In this embodiment, as illustrated in FIG. 5 and FIG. 6, the end surface of the protruding portion 32c on the front side thereof to be hit by the traveling air includes a first inclined portion 32d provided in a portion including an end portion of the end surface on the vehicle-width-direction outer side thereof and inclined upward toward the front side, and a second inclined portion 32e located on the vehicle-width-direction inner side than the first inclined portion 32d and inclined upward toward the front side. The second inclined portion 32e may include an upper-side inclined portion 32f and a lower-side inclined portion 32g of which angles of inclination may be different from each other. An angle of inclination θ2 of the upper-side inclined portion 32f on the acute angle side thereof with respect to the horizontal direction may be set to be smaller than an angle of inclination θ3 of the lower-side inclined portion 32g on the acute angle side thereof with respect to the horizontal direction. The angles of inclination θ2 and θ3 of the second inclined portion 32e (the upper-side inclined portion 32f and the lower-side inclined portion 32g) on the acute angle side thereof with respect to the horizontal direction are set to be smaller than an angle of inclination θ1 of the first inclined portion 32d on the acute angle side thereof with respect to the horizontal direction. In this embodiment, the second inclined portion 32e is located on the vehicle-width-direction inner side than the center of the front wheel 3 in the vehicle width direction.
    [0039] Traveling air that has hit the first inclined portion 32d and traveling air that has hit the second inclined portion 32e may pass the first inclined portion 32d and the second inclined portion 32e, respectively, and head toward the rear side. In other words, traveling air that has hit the first inclined portion 32d and traveling air that has hit the second inclined portion 32e may flow to a lower side of the protruding portion 32c along the first inclined portion 32d and the second inclined portion 32e, respectively, and then head toward the rear side through the lower side of the protruding portion 32c.
    [0040] By the round shape of the corner portion 6a on the end portion of the front bumper 6 in the vehicle width direction, the traveling air that hits the end surface (the first inclined portion 32d and the second inclined portion 32e) of the protruding portion 32c on the front side thereof may flow toward the rear side and the vehicle-width-direction outer side before hitting the end surface. As a result, since the second inclined portion 32e is located on the vehicle-width-direction inner side than the center of the front wheel 3 in the vehicle width direction, the traveling air that has hit the second inclined portion 32e basically hits the central portion of the front wheel 3 in the vehicle width direction after passing the second inclined portion 32e (see the flow of the traveling air indicated by an arrow F2).
    [0041] Meanwhile, the traveling air that hits the first inclined portion 32d by flowing to the vehicle-width-direction outer side than the traveling air that hits the second inclined portion 32e also flows toward the rear side and the vehicle-width-direction outer side before hitting the first inclined portion 32d. As a result, the traveling air that has hit the first inclined portion 32d basically hits the portion of the front wheel 3 on the vehicle-width-direction outer side thereof after passing the first inclined portion 32d (see the flow of the traveling air indicated by an arrow Fl).
    [0042] The flow rate of the traveling air that hits the central portion of the front wheel 3 in the vehicle width direction after passing the second inclined portion 32e of which inclination is gentler than the first inclined portion 32d may be faster than the flow rate of the traveling air that hits the portion of the front wheel 3 on the vehicle-width-direction outer side thereof after passing the first inclined portion 32d. As a result, at a height position (for example, the height position near the center between the lower end of the protruding portion 32c and the ground), which is below the lower end of the protruding portion 32c of the deflector 30 and at which the traveling air that has passed the first inclined portion 32d and the second inclined portion 32e hits the front wheel 3, the pressure of the center space portion located immediately in front of the central portion of the front wheel 3 (the front wheel 3 on the left side here) in the vehicle width direction becomes higher than the pressure of the outer-side space portion located immediately in front of the portion of the front wheel 3 on the vehicle-width-direction outer side thereof.
    [0043] FIG. 7A illustrates a schematic pressure distribution in the vehicle width direction (the width direction of the front wheel 3) in the space portion immediately in front of the front wheel 3 at a height position, which is below the lower end of the protruding portion 32c of the deflector 30 and at which the traveling air that has passed the first inclined portion 32d and the second inclined portion 32e hits the front wheel 3, and the flow of the traveling air caused when the automobile 1 travels forward in this embodiment. FIG. 7B illustrates a schematic pressure distribution in the vehicle width direction in the space portion immediately in front of the front wheel 3 at a height position, which is below the lower end of the wall portion of the deflector and at which the traveling air that has passed a wall portion that extends in the up-down direction hits the front wheel 3, and the flow of the traveling air caused when the automobile 1 travels forward in a related-art example using a deflector (see Japanese Patent Laid-Open No. 2017-77846 ) including the wall portion described above instead of the deflector 30. In FIG. 7A and FIG. 7B, the pressure increases as the length of the arrow in the pressure distribution increases. In FIG. 7A and FIG. 7B, the outlined arrows indicate the flow of the traveling air.
    [0044] In the related-art example described above, the traveling air that has passed through the vehicle-width-direction outer side with respect to the wall portion of the deflector hits the portion of the front wheel 3 on the vehicle-width-direction outer side thereof. Therefore, as illustrated in FIG. 7B, at the height position, which is below the lower end of the wall portion of the deflector and at which the traveling air that has passed the wall portion hits the front wheel 3, the pressure of the outer-side space portion becomes higher than the pressure of the center space portion. When a pressure distribution as above is formed, the traveling air avoids the outer-side space portion, and flows toward the rear side and the vehicle-width-direction outer side so as to be spaced apart from the outer-side space portion. The traveling air flowing as above does not flow along the end surface of the front wheel 3 on the vehicle-width-direction outer side thereof, and flows to the rear side so as to be spaced apart from the end surface. Therefore, a separating flow (swirl) is easily generated in the vicinity of the end surface of the front wheel 3 on the vehicle-width-direction outer side thereof with the deflector of the related-art example.
    [0045] Meanwhile, in this embodiment, as illustrated in FIG. 7A, at the height position, which is below the lower end of the protruding portion 32c of the deflector 30 and at which the traveling air that has passed the first inclined portion 32d and the second inclined portion 32e hits the front wheel 3, the pressure of the outer-side space portion is lower than the pressure of the center space portion. When the pressure distribution as above is formed, the traveling air avoids the center space portion of which pressure is high and easily flows to the outer-side space portion of which pressure is low. Therefore, in the space portion on the front side of the front wheel 3, the traveling air flows toward the rear side and the vehicle-width-direction outer side so as to flow from the center space portion side toward the outer-side space portion side. The traveling air flowing from the center space portion side toward the outer-side space portion side flows to the rear side along the end surface of the front wheel 3 on the vehicle-width-direction outer side thereof. Therefore, it is difficult for a separating flow (swirl) to be generated in the vicinity of the end surface of the front wheel 3 on the vehicle-width-direction outer side thereof. Thus, the air resistance of the automobile 1 can be reduced. Note that, in this embodiment, the pressure of the inner-side space portion located immediately in front of the portion of the front wheel 3 on the vehicle-width-direction inner side thereof is also lower than the pressure of the center space portion, but the pressure of the inner-side space portion may be higher than the pressure of the center space portion.
    [0046] FIG. 8 shows results obtained by measuring the pressure distribution in the vehicle width direction in the space portion immediately in front of the front wheel 3 at the height position (the height position in the center between the lower end of the protruding portion 32c and the ground here), which is below the lower end of the protruding portion 32c of the deflector 30 and at which the traveling air that has passed the first inclined portion 32d and the second inclined portion 32e hits the front wheel 3, in this embodiment, and the pressure distribution in the vehicle width direction in the space portion immediately in front of the front wheel 3 at the height position (the height position in the center between the lower end of the wall portion described above and the ground here), which is below the lower end of the wall portion of the deflector and at which the traveling air that has passed the wall portion hits the front wheel 3, in the related-art example described above. The speed of the automobile at the time of measurement is about 100 km/h for both cases. It can be understood that the results of the measurement are substantially the same as the schematic pressure distributions illustrated in FIG. 7A and FIG. 7B. Note that the pressure is basically higher in this embodiment than in the related-art example due to the following reason. In the related-art example, the flow rate of the traveling air considerably decreases by the wall portion. Meanwhile, in this embodiment, the traveling air easily passes the first inclined portion 32d and the second inclined portion 32e, and the flow rate of the traveling air does not decrease as in the related-art example.
    [0047] Therefore, in this embodiment, the angles of inclination θ2 and θ3 of the second inclined portion 32e (the upper-side inclined portion 32f and the lower-side inclined portion 32g) of the protruding portion 32c described above are smaller than the angle of inclination θ1 of the first inclined portion 32d described above, and hence the pressure of the outer-side space portion becomes lower than the pressure of the center space portion at the height position, which is below the lower end of the protruding portion 32c of the deflector 30 and at which the traveling air that has passed the first inclined portion 32d and the second inclined portion 32e hits the front wheel 3. As a result, in the space portion on the front side of the front wheel 3, the traveling air flows toward the rear side and the vehicle-width-direction outer side so as to head toward the outer-side space portion side from the center space portion side, and the traveling air flowing from the center space portion side toward the outer-side space portion side flows along the end surface of the front wheel 3 on the vehicle-width-direction outer side thereof. Therefore, the air resistance of the automobile 1 can be reduced.
    [0048] The present invention is not limited to the embodiment described above, and substitution is possible without departing from the gist of the claims.
    [0049] The embodiment described above is merely an example, and the scope of the invention is not to be interpreted in a limited manner. The scope of the present invention is defined by the independent claims. Industrial Applicability
    [0050] The present invention is useful as a deflector structure for an automobile including a deflector mounted on a lower surface ahead of a front wheel well in the automobile, particularly in a vehicle front-rear direction, so as to be spaced apart from a front wheel at a position ahead of the front wheel. Reference Signs List
    [0051] 1automobile3front wheel6front bumper6acorner portion8front wheel well30deflector32cprotruding portion32dfirst inclined portion32esecond inclined portion
    权利要求:
    Claims (14)
    [0001] A deflector structure for an automobile (1), the deflector structure comprising a deflector (30) mounted on a lower surface ahead of a front wheel well (8) in the automobile (1) so as to be spaced apart from a front wheel (3) at a position ahead of the front wheel (3), wherein:
    a protruding portion (32c) protruding downward and having an end surface on an automobile front side of the protruding portion (32c) is provided on a lower surface of the deflector (30), the end surface is configured to be hit by traveling air caused when the automobile (1) travels forward;
    the end surface of the protruding portion (32c) on the automobile front side of the protruding portion (32c) comprises:
    a first inclined portion (32d) provided on a portion comprising an end portion of the end surface on a vehicle-width-direction outer side of the end surface and inclined upward toward the automobile front side; and
    a second inclined portion (32e) located on a vehicle-width-direction inner side than the first inclined portion (32d) and inclined upward toward the automobile front side; and
    an angle of inclination of the second inclined portion (32e) on an acute angle side of the second inclined portion (32e) with respect to a horizontal direction is set to be smaller than an angle of inclination of the first inclined portion (32d) on an acute angle side of the first inclined portion (32d) with respect to the horizontal direction.
    [0002] The deflector structure for the automobile (1) according to claim 1, whereinthe second inclined portion (32e) is located on the vehicle-width-direction inner side than a center of the front wheel (3) in a vehicle width direction.
    [0003] The deflector structure for the automobile (1) according to any one of the preceding claims, whereinthe deflector structure is configured to guide traveling air that hits the first inclined portion (32d) and the second inclined portion (32e) to a lower side of the protruding portion (32c) along the first inclined portion (32d) and the second inclined portion (32e), respectively, such that traveling air can head toward an automobile rear side of the protruding portion (32c) through the lower side of the protruding portion (32c).
    [0004] The deflector structure for the automobile (1) according to any one of the preceding claims, wherein:
    the deflector (30) is mounted at least partially on a lower surface of a corner portion (6a) on an end portion of a front bumper (6) of the automobile (1) in the vehicle width direction; and
    the corner portion (6a) is formed in a round shape so as to be positioned rearward toward the vehicle-width-direction outer side in a bottom view of the automobile (1) .
    [0005] The deflector structure for the automobile (1) according to any one of the preceding claims, whereinthe deflector structure is configured to guide traveling air that hits the end surface of the protruding portion (32c) on the automobile front side thereof toward an automobile rear side of the protruding portion (32c) and the vehicle-width-direction outer side before hitting the end surface.
    [0006] The deflector structure for the automobile (1) according to any one of the preceding claims, whereinthe deflector structure is configured to set a flow rate of the traveling air that hits a central portion of the front wheel (3) in a vehicle width direction after passing the second inclined portion (32e) to be faster than a flow rate of the traveling air that hits a portion of the front wheel (3) on the vehicle-width-direction outer side thereof after passing the first inclined portion (32d).
    [0007] The deflector structure for the automobile (1) according to any one of the preceding claims, whereinthe second inclined portion (32e) includes an upper-side inclined portion (32f) and a lower-side inclined portion (32g) of which angles of inclination are different from each other.
    [0008] The deflector structure for the automobile (1) according to claim 7, whereinan angle of inclination of the upper-side inclined portion (32f) on the acute angle side thereof with respect to the horizontal direction is set to be smaller than an angle of inclination of the lower-side inclined portion (32g) on the acute angle side thereof with respect to the horizontal direction.
    [0009] The deflector structure for the automobile (1) according to any one of the preceding claims, whereinthe end surface of the protruding portion (32c) on an automobile rear side of the protruding portion (32c) thereof is formed by a longitudinal wall portion (32b).
    [0010] The deflector structure for the automobile (1) according to any one of the preceding claims, whereinthe deflector (30) is formed by two members including an upper member and a lower member that are an upper-side member (31) and a lower-side member (32).
    [0011] The deflector structure for the automobile (1) according to claim 10, whereinthe upper-side member (31) is formed by a metal plate material, and/or the lower-side member (32) is formed by soft synthetic resin.
    [0012] An automobile comprising:a deflector structure for an automobile of any one of the preceding claims.
    [0013] The automobile according to claim 12, the automobile further comprising:a left and right of deflectors (30) provided on a lower surface of the front portion (2) of the automobile (1) in a vehicle front-rear direction.
    [0014] The automobile according to claim 13, whereinthe left and right deflectors (30) are attached to substantially symmetrical positions with respect to a center of the automobile (1) in a vehicle width direction and are formed in substantially symmetrical shapes with respect to the center of the automobile (1) in the vehicle width direction.
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    同族专利:
    公开号 | 公开日
    CN111376999A|2020-07-07|
    JP2020104577A|2020-07-09|
    US20200207427A1|2020-07-02|
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