A strut member to be secured to the floor structure includes a top skirt-contacting portion for the aerodynamic skirt panel to be secured thereto, a lower skirt-contacting portion for the aerodynamic skirt panel to be secured thereto distant from the top skirt-contact portion, and a strut portion connecting the top skirt-contact portion to the lower skirt-contacting portion. The strut member provides a clearance in which the skirt panel is free of contact with the strut member between the top skirt-contact portion and the lower skirt-contacting portion. The strut portion is configured to resiliently buckle between a buckled position upon the skirt panel undergoing a force exceeding a threshold value toward the strut member and an original position when no force is applied and when the skirt panel is undergoing a force that is less than the threshold value.
There is described a top fairing for a trailer adapted to decrease drag and manage water. The top fairing comprises a surface for guiding air thereover, comprising a leading flange; a leading surface having a leading radius, the leading surface being joined to the leading flange and extending in a rearward direction; and a tailing surface having a tailing radius, the tailing surface in continuity to the leading surface in the rearward direction. The top fairing comprises openings disposed in the leading flange for managing water through the leading flange.
A resilient strut assembly adapted to secure an aerodynamic skirt panel to a trailer is presented, the aerodynamic skirt structure being adapted to be substantially longitudinally mounted to the trailer, the resilient strut assembly being adapted to sustain an elastic deformation when a load is applied to the resilient strut assembly when the skirt panel moves away from the configuration and to self-recover its original position when the load is removed without the deformation extending over a limit deformation. The resilient struct structure comprises a first resilient strut and a complementary strut limiting flexion of the skirt panel.
A resilient strut assembly adapted to secure an aerodynamic skirt panel to a trailer is presented, the aerodynamic skirt structure being adapted to be substantially longitudinally mounted to the trailer, the resilient strut assembly being adapted to sustain an elastic deformation when a load is applied to the resilient strut assembly when the skirt panel moves away from the configuration and to self-recover its original position when the load is removed without the deformation extending over a limit deformation. The resilient struct structure comprises a first resilient strut and a complementary strut limiting flexion of the skirt panel.
A strut member to be secured to the floor structure includes a top skirt-contacting portion for the aerodynamic skirt panel to be secured thereto, a lower skirt-contacting portion for the aerodynamic skirt panel to be secured thereto distant from the top skirt-contact portion, and a strut portion connecting the top skirt-contact portion to the lower skirt-contacting portion. The strut member provides a clearance in which the skirt panel is free of contact with the strut member between the top skirt-contact portion and the lower skirt-contacting portion. The strut portion is configured to resiliently buckle between a buckled position upon the skirt panel undergoing a force exceeding a threshold value toward the strut member and an original position when no force is applied and when the skirt panel is undergoing a force that is less than the threshold value.
A rear aerodynamic skirt assembly is configured to be mounted to a semi-trailer rear to the semi-trailer axle(s) and front of the rear underride guard. The rear aerodynamic skirt assembly comprises a sheet of material and securing mechanisms. The shape of the sheet of material and the nature of the securing mechanism used to mount the sheet of material to the semi-trailer provide the desired air-deflecting function while providing the resilience necessary to resist to risks associated with being mounted to a vehicle, e.g., a semi-trailer.
There is described a top fairing for a trailer adapted to decrease drag and manage water. The top fairing comprises a surface for guiding air thereover, comprising a leading flange; a leading surface having a leading radius, the leading surface being joined to the leading flange and extending in a rearward direction; and a tailing surface having a tailing radius, the tailing surface in continuity to the leading surface in the rearward direction. The top fairing comprises openings disposed in the leading flange for managing water through the leading flange.
There is described a top fairing for a trailer adapted to decrease drag and manage water. The top fairing comprises a surface for guiding air thereover, comprising a leading flange; a leading surface having a leading radius, the leading surface being joined to the leading flange and extending in a rearward direction; and a tailing surface having a tailing radius, the tailing surface in continuity to the leading surface in the rearward direction. The top fairing comprises openings disposed in the leading flange for managing water through the leading flange.
A skirt securing connector assembly for securing an aerodynamic skirt panel to a trailer is provided, the skirt securing connector assembly comprising an upper attachment portion adapted to secure the skirt securing connector assembly to the trailer, a lower attachment portion adapted to secure a lower portion of the aerodynamic skirt panel and a strut member connected, at a first end thereof, to the upper portion of the skirt securing connector assembly and connected, at a second end thereof, to the lower portion of the skirt securing connector assembly, the strut member including a longitudinal axis between the first end and the second end, the strut member including a concave portion extending along the longitudinal axis, the concave portion increasing an inertia moment of the strut member to sustain a force applied by air routing on the aerodynamic skirt.
An aerodynamic skirt assembly is described therein, the aerodynamic skirt assembly comprising a ribbed skirt panel with at least one rib associated with the ribbed skirt panel to alter mechanical properties of the ribbed skirt panel, wherein the rib is providing a longitudinal stiffness of a thinner ribbed skirt panel that is comparable to a thicker non-ribbed skirt panel while allowing momentarily elastic deformation of the ribbed skirt panel when the ribbed skirt panel is contacting a foreign object while returning automatically to a non-deformed configuration when the ribbed skirt panel is not contacting the foreign object.
A skirt securing connector assembly for securing an aerodynamic skirt panel to a trailer is provided, the skirt securing connector assembly comprising an upper attachment portion adapted to secure the skirt securing connector assembly to the trailer, a lower attachment portion adapted to secure a lower portion of the aerodynamic skirt panel and a strut member connected, at a first end thereof, to the upper portion of the skirt securing connector assembly and connected, at a second end thereof, to the lower portion of the skirt securing connector assembly, the strut member including a longitudinal axis between the first end and the second end, the strut member including a concave portion extending along the longitudinal axis, the concave portion increasing an inertia moment of the strut member to sustain a force applied by air routing on the aerodynamic skirt.
A skirt securing connector assembly for securing an aerodynamic skirt panel to a trailer is provided, the skirt securing connector assembly comprising an upper attachment portion adapted to secure the skirt securing connector assembly to the trailer, a lower attachment portion adapted to secure a lower portion of the aerodynamic skirt panel and a strut member connected, at a first end thereof, to the upper portion of the skirt securing connector assembly and connected, at a second end thereof, to the lower portion of the skirt securing connector assembly, the strut member including a longitudinal axis between the first end and the second end, the strut member including a concave portion extending along the longitudinal axis, the concave portion increasing an inertia moment of the strut member to sustain a force applied by air routing on the aerodynamic skirt.
There is provided a method of securing a strut portion to an I-beam of a vehicle, the securing mechanism comprising a pair of opposed clamps, each including a gripping portion, a securing portion, an abutting portion and a fastener adapted to apply tension on the clamps toward each other for moving the clamps toward each other and compress the strut portion to the I-beam.
This invention relates to an actuated aerodynamic air drag reducing apparatus for reducing the air drag of a vehicle, the actuated aerodynamic air drag reducing apparatus being adapted to move between an expanded configuration and a retracted configuration by an actuator on a basis of a signal associated to the behavior of the vehicle. The actuator being connected to a slider selectively connected to a pair of pivotable elongated members for being used between a plurality of configurations.
There is provided a securing mechanism for securing a strut portion to an l-beam, the securing mechanism comprising a pair of clamps, each including a gripping portion, a securing portion, an abutting portion and a fastener for applying tension on the clamps toward each other for moving the clamps toward each other. A kit thereof and a method of installing the securing mechanism are also contemplated in the present application.
B62D 37/02 - Stabilising vehicle bodies without controlling suspension arrangements by aerodynamic means
F16B 2/06 - Clamps, i.e. with gripping action effected by positive means other than the inherent resistance to deformation of the material of the fastening external, i.e. with contracting action
34.
SELF-REPOSITIONING STRUT PORTION FOR AERODYNAMIC SKIRT
Aerodynamic.skirt systems are used to reduce air drag of a vehicle. The present aerodynamic skirt system comprises a skirt panel, a plurality of struts, each strut comprising an upper portion for securing an upper portion of the skirt panel to the trailer, a strut member connected, at a first end thereof, to the upper portion of the strut, a lower portion for securing a lower portion of the skirt panel, the lower portion being connected to the strut member at a second end thereof, the strut member including a concave portion adapted to sustain a force applied by air routing on the aerodynamic skirt in an aerodynamic configuration thereof, the strut member being adapted to buckle and bend when a force exceeding a buckling threshold is applied on the aerodynamic skirt to move the aerodynamic skirt in an object avoidance configuration. A kit and a method of use thereof is also presented.
Aerodynamic skirt systems are used to reduce air drag of a vehicle. The present aerodynamic skirt system comprises a skirt panel, a plurality of struts, each strut comprising an upper portion for securing an upper portion of the skirt panel to the trailer, a strut member connected, at a first end thereof, to the upper portion of the strut, a lower portion for securing a lower portion of the skirt panel, the lower portion being connected to the strut member at a second end thereof, the strut member including a concave portion adapted to sustain a force applied by air routing on the aerodynamic skirt in an aerodynamic configuration thereof, the strut member being adapted to buckle and bend when a force exceeding a buckling threshold is applied on the aerodynamic skirt to move the aerodynamic skirt in an object avoidance configuration. A kit and a method of use thereof is also presented.
B60R 19/42 - Bumpers, i.e. impact receiving or absorbing members for protecting vehicles or fending off blows from other vehicles or objects extending primarily along the sides of, or completely encircling, a vehicle
B60R 19/56 - Arrangements on high-riding vehicles, e.g. lorries, for preventing vehicles or objects from running thereunder
B62D 35/00 - Vehicle bodies characterised by streamlining
B62D 37/02 - Stabilising vehicle bodies without controlling suspension arrangements by aerodynamic means
This invention relates to aerodynamic trailer skirts adapted to be mounted on trailers to improve the aerodynamic efficiency of the trailer. The present invention more precisely relates to a modular self-repositioning aerodynamic skirt assembly with reduced size skirt panel portions and improved shock transmission properties.
This invention relates to packaging of a modular aerodynamic trailer skirts that is adapted to minimize the size of a shipment thereof. The packaging further protects the skirt portions by stacking skirt portions and using interconnecting edges thereof to secure a skirt portion therebetween.
This invention relates to packaging of a modular aerodynamic trailer skirts that is adapted to minimize the size of a shipment thereof. The packaging further protects the skirt portions by stacking skirt portions and using interconnecting edges thereof to secure a skirt portion therebetween.
A resilient strut adapted to secure an aerodynamic skirt to a trailer is provided, the aerodynamic skirt comprising a skirt panel including a front portion and a rear portion adapted to be substantially longitudinally mounted to the trailer, the skirt panel being adapted to move away from the aerodynamic configuration when contacting a foreign object and to recover its aerodynamic configuration thereafter, the resilient strut includes a shape variation adapted to change the mechanical strength thereof and also adapted to sustain an elastic deformation allowing the resilient strut to bend when a load is applied to the resilient strut when the skirt panel moves away from the aerodynamic configuration and to self-recover its original shape when the load is removed. A kit of resilient struts, a method thereof and a trailer equipped with same are also provided.
A resilient strut adapted to secure an aerodynamic skirt to a trailer is provided, the aerodynamic skirt comprising a skirt panel including a front portion and a rear portion adapted to be substantially longitudinally mounted to the trailer, the skirt panel being adapted to move away from the aerodynamic configuration when contacting a foreign object and to recover its aerodynamic configuration thereafter, the resilient strut includes a shape variation adapted to change the mechanical strength thereof and also adapted to sustain an elastic deformation allowing the resilient strut to bend when a load is applied to the resilient strut when the skirt panel moves away from the aerodynamic configuration and to self-recover its original shape when the load is removed. A kit of resilient struts, a method thereof and a trailer equipped with same are also provided.
A resilient strut adapted to secure an aerodynamic skirt to a trailer is provided, the aerodynamic skirt comprising a skirt panel including a front portion and a rear portion adapted to be substantially longitudinally mounted to the trailer, the front portion being adapted to be mounted toward a forward portion of the trailer and the rear portion being adapted to be mounted toward a rear portion of the trailer in an aerodynamic configuration, the skirt panel being adapted to move away from the aerodynamic configuration when contacting a foreign object and to recover its aerodynamic configuration thereafter, the resilient strut adapted to sustain an elastic deformation allowing the resilient strut to bend when a load is applied to the resilient strut when the skirt panel moves away from the aerodynamic configuration and to self-recover its original shape when the load is removed. A kit of resilient struts, a method thereof and a trailer equipped with same are also provided.
A support member adapted to secure an aerodynamic skirt to a trailer is provided, the support member comprising a trailer connecting portion; a skirt connecting portion; and an intermediate portion interconnecting the trailer connecting portion to the skirt connecting portion. A kit of resilient struts adapted to resiliently secure an aerodynamic skirt to a trailer is also provided, the kit comprising at least two resilient struts. A method of using a resilient strut to resiliently secure an aerodynamic skirt to a trailer is equally provided, the method comprising providing at least one resilient strut; securing the resilient strut to the trailer; securing the resilient strut to the aerodynamic skirt; and applying a load on the aerodynamic skirt to resiliently bend the at least one resilient strut.
A securing mechanism adapted to secure struts to a trailer is provided, the securing mechanism comprising a pair of clamps adapted to be secured to the strut to clamp a frame member of the trailer therebetween. A method of securing a strut to a trailer is also provided, the method comprising providing a strut; providing a pair of clamps; positioning an end of the strut adjacent to a side of a frame member of the trailer; positioning the pair of clamps on an opposed side of the frame member; and securing the pair of clamps to the strut to clamp the frame member therebetween. A securing mechanism kit for securing a strut to a frame member of a trailer is equally provided, the kit comprising a pair of clamps; and a strut.
A skirt assembly kit comprising a skirt panel adapted to be disposed on a trailer to route air about the road trailer is provided, a plurality of upper supports adapted to secure the skirt panel to the road trailer and a plurality of struts adapted to secure the skirt panel to the road trailer. A method of installing an aerodynamic skirt on a trailer is also provided, the method comprising providing a skirt panel, installing the skirt panel on the trailer; and performing an opening in the skirt panel. An aerodynamic skirt kit adapted to mounted to a trailer is equally provided, the aerodynamic skirt kit comprising a skirt panel adapted to define an opening therein adapted to give access through the skirt panel, and an opening closing element adapted to close the opening.
An aerodynamic skirt comprising a skirt panel defining a surface adapted to direct airflow around the trailer is provided, the skirt panel being made of a single part of sheet material. A method of manufacturing a skirt panel and a kit thereof are also provided.
An aerodynamic skirt adapted to be installed on a trailer for managing airflow is provided, the aerodynamic skirt comprising a skirt panel defining a substantially curved shape adapted to be positioned adjacent to a rear wheel of the trailer, the curved shape substantially mirroring the shape of the wheel to reduce the gap between the skirt panel and the wheel. A method of installing an aerodynamic skirt on a trailer to manage airflow around the trailer is also provided, the method comprising providing a skirt panel defining a curved shape adapted to cooperate with an exterior circumference of a wheel of the trailer; and positioning the curved shape of the skirt panel adjacent to the rear wheel of the trailer to reduce the air gap therebetween. An aerodynamic skirt kit comprising a skirt panel having a curved shape adapted to cooperate with an exterior circumference of a wheel of the trailer; and a plurality of struts adapted to secure the skirt panel to a trailer is equally provided.
An aerodynamic skirt adapted to be substantially longitudinally mounted on a trailer is provided, the resilient aerodynamic skirt comprising a skirt panel defining a forward portion and a rear portion, the forward portion being adapted to be mounted toward a forward portion of the trailer and the rear portion being adapted to be mounted toward a rear portion of the trailer, the forward portion having a front height and the rear portion having a rear height, the forward height being shorter than the rear height. A method of mounting an aerodynamic skirt on a trailer is also provided, the method comprising providing a skirt panel defining a forward portion and a rear portion the forward portion having a front height and the rear portion having a rear height, the forward height being shorter than the rear height, positioning the forward portion toward a forward portion of the trailer and the rear portion toward a rear portion of the trailer, and securing the skirt panel to the trailer. A kit comprising a skirt panel defining a forward portion and a rear portion is equally provided, the forward portion being adapted to be mounted toward a forward portion of the trailer and the rear portion being adapted to be mounted toward a rear portion of the trailer, the forward portion having a front height and the rear portion having a rear height, the forward height being smaller than the rear height; and at least one strut adapted to secure the skirt panel to the trailer.
A resilient aerodynamic skirt assembly is provided, the aerodynamic skirt assembly comprising a skirt panel adapted to connect to a trailer to route airflow along the trailer, skirt supports adapted to connect the skirt to a trailer are also provided with a plurality of resilient struts providing lateral support to the skirt panel, the resilient struts allowing substantial lateral deflection of the skirt panel away from an aerodynamic configuration. A method of assembling an aerodynamic skirt assembly and an aerodynamic skirt kit are also provided.
A drag reducing apparatus is hingedly mounted to the rear of a truck or trailer vehicle so that the apparatus can be pivoted clear of the rear doors of the vehicle. The apparatus includes a hinge assembly that allows the apparatus to open substantially flat against the side of the vehicle so as not to impede the full movement of the doors. The apparatus includes an arrangement of connected panels that are initially folded flat against the back of the vehicle but automatically open to a drag reducing configuration at a sufficient vehicle speed. The connected panels are further configured so that the force of gravity automatically returns the panels to their initial folded configuration when the vehicle speed falls below a threshold. The apparatus incorporates a modular construction that allows replacement of individual panel sections. The mounting frame is constructed to augment the drag reduction characteristics of the apparatus.
A resilient skirt assembly is provided, the assembly comprising a skirt panel adapted to connect to a trailer to direct at least a portion of the amount of air on the side of the trailer; and a skirt support adapted to connect the skirt to a trailer, the skirt support having a resilient strut providing lateral support to the skirt panel, the resilient strut allowing substantial lateral pivotal movement of the skirt panel between a skirt panel unloaded position and a skirt panel loaded position. A method of assembling a skirt assembly and a skirt kit are also provided.
A resilient aerodynamic skirt assembly adapted to be secured to a trailer is provided, the resilient aerodynamic skirt assembly comprising a skirt panel including a front portion and a rear portion adapted to be substantially longitudinally mounted to the trailer, the front portion being adapted to be mounted toward a forward portion of the trailer and the rear portion being adapted to be mounted toward a rear portion of the trailer in an aerodynamic configuration, the skirt panel being adapted to move away from the aerodynamic configuration when contacting a foreign object and to self-recover its aerodynamic configuration thereafter, at least one resilient strut adapted to sustain an elastic deformation allowing the resilient strut to bend when a load is applied to the resilient strut when the skirt panel moves away from the aerodynamic configuration and to self- recover its original shape when the load is removed. A kit of resilient struts, a method thereof and a trailer equipped with same are also provided.
A resilient strut adapted to secure an aerodynamic skirt to a trailer is provided, the aerodynamic skirt comprising a skirt panel including a front portion and a rear portion adapted to be substantially longitudinally mounted to the trailer, the skirt panel being adapted to move away from the aerodynamic configuration when contacting a foreign object and to recover its aerodynamic configuration thereafter, the resilient strut includes a shape variation adapted to change the mechanical strength thereof and also adapted to sustain an elastic deformation allowing the resilient strut to bend when a load is applied to the resilient strut when the skirt panel moves away from the aerodynamic configuration and to self-recover its original shape when the load is removed A kit of resilient struts, a method thereof and a trailer equipped with same are also provided.
