EP3911557A1

EP3911557A1 - System for aerodynamically improving a land vehicle, in particular a truck or the like

Info

Publication number: EP3911557A1
Application number: EP20700294.0A
Authority: EP
Inventors: Christoph EGARTER
Original assignee: Eghi
Priority date: 2019-01-14
Filing date: 2020-01-13
Publication date: 2021-11-24
Also published as: US20220009565A1; CN113226899A; WO2020148216A1; IT201900000543A1

Abstract

The invention relates to a system for aerodynamically improving a land vehicle (100), in particular trucks, buses and trailers, comprising an outer surface (101) of the vehicle and a rear surface (110) in the direction of travel (112), a deflector, having an inclination with respect to the front surface, and a series of vortex generators (111) which are arranged on the surfaces (101, 110). According to the invention, the rear surface (110), the deflector, is inclined to the centre of the vehicle (100) by between 5° and 30° with respect to the front outer surface (101) of the vehicle, and the vortex generators (111) are arranged on the outer surface at a maximum distance of 250 mm from the change in inclination between the outer front side surface (101) of the vehicle and the rear surface (110), wherein the vortex generators (111) of the front outer surface (101) of the vehicle and/or the vortex generators (111) positioned on the rear surface (110), or parts of said vortex generators (111), have an inclination (β) in relation to the vehicle longitudinal axis of between 2° and 50° and the vortex generators protrude by between 1 cm and 15 cm in relation to the adjacent surfaces.

Description

"System for the aerodynamic improvement of a country, in particular of a truck or the like"

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The present invention relates to a system for the aerodynamic improvement of a road vehicle, in particular of a truck or the like.

The aerodynamic characteristics of a vehicle are among the most important characteristics for fuel consumption. For vehicles that travel a large number of kilometers in particular, even minor optimization can bring great benefits. Saving fuel means reducing costs. The reduction also leads to a lower environmental impact and can also bring tax advantages.

A large number of systems are known which improve the air flow and thus the aerodynamic features.

US 8851554 describes a composition for reducing air resistance, which can be mounted on a moving vehicle or other object. The system described includes ventilation openings and at least a shell of a network of flexible material that moves from an active position to a second inactive position and vice versa. The envelope is also designed in such a way that at least one outer surface is provided, which is designed in such a way that the effects of the dragging are reduced. The system described can also be combined with channels that make it possible to direct the air flow into the envelope. The flexible elements cause problems during use because they create instability in the vehicle. In addition, their movements are difficult to predict and / or due to the movements, the aerodynamic effects can vary and the material is exposed to damage and therefore requires continuous maintenance. From US 8 770 649 a system for

Reduce the aerodynamic effects of drag drag and reduce the effects of cross winds known for long-range vehicles. This system described contains vortex generators (vortex generators) which generate small vortices. These small air vortices described create a long train. Each of the front ex generators (vortex) has one or more channels for the air flow, which force the air flow to flow through these channels. The system described has a number of problems, in particular the channels used dirty or filled with dirt, and therefore they are not very useful in everyday use on land vehicles and are also cumbersome and complicated to assemble. Furthermore, the system requires the so-called Tunne 1 effe kt in order for the vortex generators to become effective.

GB 250 83 57 describes a removable device for increasing the aerodynamic efficiency of a vehicle. The device described has elements which extend the side body on three sides of the L according to the shape of the country. Vo rt e x g e n e r a t o r e n can be placed on these extensions. The device described does not teach any change in the outer bodywork in order to change the air flow, in particular to change the boundary layer of the air flow. The preconditions described here do not protrude from the bodywork to influence the air flow and therefore have a different technical effect.

US 6959958 describes a method and a device for reducing the air resistance for bodies of vehicles that drive on motorways and the like. For example, these trucks may contain elements to improve the aerodynamic effects at the rear of the vehicle. Furthermore, the system described Vo rtex generators, which are arranged on the truck or on the vehicle trailer. The system described does not describe any

S yne r g i e e f e cts between the for e x g e n e r a t o r s and the structure at the rear of the lorry or truck. The system described only tries to change the side airflow. There is no targeted flow guidance of the generated air vortices towards the center of the vehicle in order to generate the synergistic effect.

US Pat. No. 7,255,387 describes improved devices for reducing aerodynamic effects, for improving vehicle performance and for reducing fuel consumption. The described configuration includes several surfaces that are arranged on the outer surface of a vehicle. These surfaces are dimensioned according to the thickness of the vehicle casing and their length is at least five times the thickness of the vehicle casing. Any of these surfaces can create vortices. The vortex generators described in the publication US Pat. No. 7,255,387 only serve to change the lateral air flow to the vehicle and to facilitate a more stable keeping of the track. They are not used to reduce the rear surface area of the vehicle, on which negative pressure is applied and thus that of the driver is generated. This way the publication is reduced not air resistance, but creates greater resistance and consumption increases.

US 7 008 004 describes a device for modifying the air flow downstream of a vehicle by means of elements which are arranged at the end of the vehicle, for example trucks, which form the rear of the truck and which produce an air flow which is substantially parallel to the Longitudinal axis of the vehicle is. In this publication, the rear of the vehicle is extended without side fronts.

The US 2017274941 describes a system for modifying the air flow, with fore x g e n e r a t o r e n attached to the inclined surfaces. There is no description of a combination of the position of the front, the inclination of the surfaces and the layers of air, which influence the front of the door.

US 2011210510578 also teaches a system for modifying the air flow. Here, too, there is no combination of the position of the forwards, the inclination of the

Surfaces and which air layers are influenced by the vortex generators are described. The object of the present invention is to provide a system for land vehicles, in particular trucks or the like, which improves the aerodynamic properties of the vehicle by reducing the fuel and / or energy consumption, or a kit for modifying a land vehicle is added to to improve the aerodynamic properties.

This task is accomplished by a system for countries, especially trucks, buses as well

Trailer and semi-trailer according to claim 1 and a kit for L and F ah r z e u g e solved according to the characterizing part of claim 6.

The inventive system for land vehicles, particularly trucks, buses, trailers, and semi-trailers, includes an exterior surface of the vehicle and at least one rear surface, a deflector, with an inclination toward the front surface, and a series of Vortex generators arranged on the surfaces, characterized in that the rear surface, the deflector, for

Vehicle center is inclined between 5 ° and 30 ° with respect to the front outer surface of the vehicle, this inclination change is denoted by a and in which the vortex generators are arranged on the outer surface to a with a maximum spacing of 250 mm from the

No changes have been made. Between the surface of the outer front side wall of the vehicle and of the rear surface, the deflector, the outer front side surface of the vehicle and / or the rear deflector surface and the forward generators) or parts of these forward generators, an inclination β with respect to the longitudinal axis of the vehicle, between 2 ° and 50 ° provided and the vortex generators protrude in relation to the adjacent areas between 1 cm and 15 cm.

The forwards can be arranged in a converging manner (running towards each other) and / or divergent (outside 1) and in parallel with each other. The protrusion of the front panels between 1 cm and 15 cm from the adjacent surfaces enables them to change the air flow and in particular the boundary layer of the air flow. In addition, this modification is particularly advantageous because it is combined with the deflectors or the change in the outer surface of the body.

The surprising combined effect of the two elements deflectors and pre-x e n e r a t o r e n enables the deflectors to be inclined to a greater extent without the air flow becoming detached. In this way, the rear area of the vehicle can be reduced more than in a known system.

All of this enables improved aerodynamic properties for the land vehicle as the Air flows downstream of the vehicle can be controlled by improving its aerodynamic conditions. The system described here can also be sold and installed as a conversion kit, in which bodyworks 1 are added at the rear of the land vehicle, for example a truck, and an existing vehicle is converted in this way. These surfaces / L ei tb 1 eche / D ef 1 ectors are inclined at an angle of inclination (alpha) between 5 ° and 30 ° to the center of the vehicle. The front ex generators can already be positioned on this additional surface or fastened near the additional surfaces with a maximum spacing of 250 mm on the outer surfaces of the vehicle. The deflector can advantageously be dismantled. In this way, quick disassembly is possible when not used and / or replaced.

Furthermore, in a preferred embodiment, the inclined deflector can be formed both from a rigid material and from a flexible material. In a preferred embodiment, the rear surface of the deflector consists of a single part and is formed together with the outer surface of the front land vehicle or is integrated into its structure. The deflectors are advantageously arranged on at least two sides of the vehicle. In a further embodiment, the land vehicle can have a tubular or curved cylindrical body, for example tank trucks, and therefore the deflecting element can be designed in a curved, circular or partially circular shape. The inclination of the detector 1 emen ts is always directed towards the center of the vehicle.

Advantageously, the front ends are not all the same size, but vary in order to better regulate the environment s 1 u f t s t r om.

In a preferred embodiment, the deflectors can provide a configuration for / storage

Form an example behind a bus with which objects can be transported, for example luggage and / or skis or bicycles or other bulky luggage.

The system according to the invention can be built as a conversion kit to be mounted on existing vehicles.

This kit can consist of several

There are 1 boxes that are attached to the back of the truck / bus. In this embodiment, the vortex generators are advantageously arranged or integrated on the surrounding surfaces. In a preferred embodiment, there may be breaks 11 between the deflecting elements and the preceding surfaces in order to reduce the effects of an accident. These S o 11 breakdowns can be useful to make it easier for you to comply with other requirements, if available.

Further features and details of a preferred and non-limiting embodiment of a system according to a system are clearly described below in the description using the attached figures:

FIG. 1 shows a perspective view of a truck with a system according to the invention,

FIG. 2 shows a perspective view of a truck with a system according to the invention in a second embodiment, FIG. 3 shows a plan view of a truck with a system according to the invention in the first embodiment,

FIG. 4 shows a detail of a top view of a truck with a system according to the invention in the first embodiment,

FIG. 5 shows a detail of a top view of a truck with a system according to the invention in the second embodiment for the embodiment,

Figure 6 shows a perspective

Side view of a truck with one System according to the invention in a further embodiment,

- Figure 7a shows a graphical representation of the air flow only with baffles / deflectors.

- Figure 7b shows a graphic representation of the behavior of the air with deflectors / baffles in combination with vortex generators.

FIG. 8 shows a rear perspective view of a truck with a system according to the invention in a further embodiment in an E xp 1 o s i o n s da r s t e 11 un g,

FIGS. 9 and 10 show a perspective view of trucks with a system according to the invention in further embodiments,

FIG. 11 shows a perspective side view of a bus with a system according to the invention, which forms a charging box, and

FIG. 12 shows a system according to the invention with various designs for the

Vortex generators.

In FIG. 1, a land vehicle, in particular a truck, is designated by the reference number 100. This land vehicle 100 has lateral outer surfaces 101, which can form the loading space, for example. During the movement of the land vehicle 100 in the direction 112, air flows onto the outer surfaces 101. This air can cause turbulence or others Form aerodynamic effects, which in particular the energy consumption

Increase fuel consumption in the country. The air flows, in particular the air vortices of the rear lane of a truck, in particular a truck or the like, are very important with regard to the overall aerodynamic behavior of the vehicle.

These air vortices, which form the air flow downstream of the vehicle, are mainly determined by the floor area of the vehicle. This base area is the rear surface of the vehicle

In accordance with the invention, there are surfaces 110 on the rear of the truck 100, deflectors which are connected to the land vehicle 100 and / or form a single surface with the side walls of the truck 101. The deflectors 110 are opposite the center of the

Truck inclined, and form an inclination angle Alpha (ex) - with respect to the outer front side surfaces 101. The deflectors 110 are inclined with an Alpha (ex) angle of inclination between 5 ° and 30 ° to the central longitudinal axis of the vehicle. In this way, the footprint of the vehicle is reduced, which reduces the air resistance depending on the track of the rear vertebrae. In a preferred embodiment, the front side surfaces 101 and the deflector 111 are formed by a single element.

Vo rt e x g e n e r a t o r e n 111 (vortex generators) are arranged on the outer surface in an area, this area goes from 250 mm before the change in inclination and 250 mm after the change in inclination. These forwards 111 or parts of these forwards 111 are inclined with respect to the longitudinal axis of the truck. The ß-inclination of the front axles 111 or parts of these generators 111 can have a preferably curved wing shape between 2 ° and 50 ° with respect to the longitudinal axis of the land vehicle 100.

Furthermore, the front devices 111 are designed in such a way that they are between 1 cm and 15 cm from the surrounding surface. In this way, the front members 111, the surrounding area and the boundary layer in particular can be changed more effectively.

As shown in FIG. 7a, the vortices downstream of the land vehicle 100, which were only realized with deflectors 110, are still turbulences 120, as a result of which a vehicle has a greater energy consumption, in particular fuel.

7b shows the air flow downstream of an aircraft 100 with deflectors 110 and Vo rtex generators 111 formed in accordance with the invention.

In region 121 there is a reduction in the turbulence, which reduces the fuel consumption of the country 100.

FIG. 8 shows a / a kit for modifying a land vehicle 100, which can be formed by various forms of deflectors 110, on which the front ends 111 are arranged.

The deflectors 110 can be detachably connected to the land vehicle, and predetermined breaks 1 (breakages 11) can also be provided, which are provided for safety in the event of an accident.

Furthermore, in a preferred embodiment, the directors / detectors which form the rear of the truck can be shaped so that in the event of an accident they can knock or otherwise hit L and f ah witness absorb.

FIG. 9 shows a land vehicle 100 that moves in direction 112 and has a deflector 110 according to the invention at the rear of the vehicle, which is integrated in the structure of the vehicle and which in FIG the vortex generator 111 arranged according to the invention lies in the predefined area.

10 shows another land vehicle, which has a tubular loading area, For example, a liquid container, and on which a deflector 110 is arranged with the Vort ex generators 111 according to the inventions. In this case too, the deflector 110 inclined toward the center of the vehicle forms an a-inclination angle with respect to the preceding surface.

They can be shown in a figure

Deflectors create an additional loading zone downstream of the vehicle.

For example, the deflectors may be arranged to form a box 115 downstream of a country 100, such as a bus. Luggage, skis or other bulky items can be loaded in this box.

In another version, this can be done

Land vehicle can be formed from a tubular or curved cylindrical body, and therefore the deflecting element can be formed in a curved, circular or t e i 1 k r e i s form. The inclination of the D e f 1 e c t o r e 1 emen t s is always directed towards the center of the country.

FIG. 12 shows a system according to the invention, in which a series of precedents 111 are shown, in particular one

Vortex generator having a first part purple which has no inclination with respect to the longitudinal axis of the vehicle, the second part 111b having an inclination-β (beta) with respect to the longitudinal axis of the vehicle between 2 ° and 50 ° and wherein the last part of the vortex generators 111c a minimum

Inclination with respect to the longitudinal axis of the vehicle 100 This example shows that it is necessary that only a part of the vortex generators 111 have an inclination beta (β) with respect to the longitudinal axis of the vehicle in order to achieve the surprising effects and the Reduce drag of the vehicle 100 itself.

In a non-executable version, a de f 1 e c t o r e 1 eme n t can be arranged between the tractor and / or between two trailers, which prevents the air flow between these two vehicles. This deflection has a synergistic effect in the system according to the invention, since the air currents flowing through these slots produce lateral turbulence, which can have a negative effect on the air flow at the end of the vehicle, by limiting the effects of the system according to the invention. Since they generate turbulence on the side walls of the vehicle due to the lateral air currents, a deflector is arranged between two vehicles, in particular trucks, buses and trailers, in particular

Air flow preventing / reducing air flow. This deflector is in the

Essentially orthogonal to the direction of movement between the two vehicle parts. By essentially in this case is meant a variation of more or less 10 °. In a preferred embodiment, the system with the change and the vortex generators can also be attached to the underside of the vehicle. The vortex generators and the inclination change are therefore located on the underside of the vehicle.

In a further embodiment, openings can be arranged at a maximum distance of 250 mm from the incline change.

Finally, it is clear that obvious additions, modifications or variations to the system described above can be made by a technician in the field without thereby departing from the scope provided by the appended claims.

List of re f e n e numbers:

100 countries and trucks, trucks, trailers

101 outer front side surface of the

Land vehicle

110 deflector

111 Vo rt e x g e n e r a t o r e n (vortex)

purple, 111b, 111c parts of the fore x g e n e r a t o r s

(Whirl )

115 Charging kits

112 Direction of movement of the land vehicle 100

120 turbulence

121 minor turbulences

Claims

PATENT CLAIMS

1. System for the aerodynamic improvement of a land vehicle (100), in particular trucks, buses and

Trailers comprising an outer surface (101) of the vehicle and a rear surface in the direction of travel (112)

(110), a deflector, with an inclination in relation to the front surface and a series of fore x g e n e r a tors

(111) that are on the surfaces (101,

110) are arranged, characterized in that the rear

Surface (110), the deflector (110), to the center of the vehicle (100) between 5 ° and 30 ° with respect to the front

Outer surface (101) of the vehicle is inclined, and the front ex s e r a t o r e n (111) on the outer surface at a maximum distance of 250 mm from the inclination between the outer front

Side surface (101) of the vehicle and the rear surface (110) are arranged, the front ex generators (111) of the front outer surface (101) of the vehicle and / or the front ex generators (111) positioned on the rear surface (110). , the Vo rt ex generators (111) or parts of these Vo rtex generators (111) an inclination (ß) with respect to

Have vehicle 1 axis between 2 ° and 50 ° and the vortex generators protrude from the adjacent surfaces between 1 cm and 15 cm.

2. System for aerodynamic improvement according to claim 1, characterized in that the side front surface (101) and the D ef 1 ektor 1 ache (110) by a single body 1 eme nt formed and / or in the vehicle ru ctur (100) are integrated.

3. System for aerodynamic improvement according to claim 1, characterized in that the front side surface (101) and the rear D e f 1 e k t o r f 1 ach e (110) are formed by different body elements. 4. System for aerodynamic improvement according to one of the preceding claims, characterized in that at least one deflector is arranged between two L and f ah rzeugtei 1 s (100), in particular trucks, buses and trailers, which an air flow perpendicular to the B e we prevented / reduced between the two vehicle parts.

5. System for aerodynamic improvement of the preceding claims, characterized in that several D ef ector 1 surface (110) a cargo space

(115) form.

6. System for aerodynamic improvement according to one of the preceding claims, characterized in that a S o 11 b r u ch s t e 11 e is arranged between the front side surface (101) and the rear D e f 1 e k t o r f 1 ach e (110).

7. System for aerodynamic improvement according to one of the preceding claims, characterized in that openings are formed in a height from 250 mm from the axis of the tunnel.

8. System for aerodynamic improvement according to one of the preceding claims, characterized in that the

Vo r t e x g e n e r a t o r e n and

No change is located on the underside of the vehicle. 9. Construction / installation for aerodynamic

Improvement of a land vehicle (100), in particular trucks, buses and trailers, which implements a system according to one of the preceding claims, characterized in that it consists of

V e rb i n dun g s e n e n t e n s that are used for

Connect a deflector (101) to the back of a truck with an inclination Alpha () - between 5 ° and 30 ° from the front

Outer surface (101) of the vehicle in the direction of the central axis of the

Are suitable for the vehicle and on which the arranged vortex generators (111) with a maximum spacing (a) of 250 mm for the inclination change and the vortex generators (111) or parts of these vortex generators ( 111) have an inclination β to the vehicle longitudinal axis between 2 ° and 50 ° and the

Vortex generators protrude between the adjacent areas between 1 cm and 15 cm.

10. B a s a z / add a s z according to claim 9, characterized in that the

Connecting element has a S o 11 b ru c h s t e 11 e.

11. B a s a t z / add on s a t z according to claims 9 and 10, characterized in that the deflector (111) consists of a flexible material.

12. Bau kit / add-on kit according to claims 9 and 11, characterized in that it comprises a deflector which is mounted between two countries and vehicles (100), in particular trucks, buses and trailers, which between an airflow in the two vehicles

Essentially perpendicular to

Prevention / reduction of use.