DE102006031885A1 - Load e.g. bicycle, carrier e.g. load beam, for boot of motor vehicle, has load carrier unit arranged with respect to cross beam to form load surface, which is located behind another surface and viewed in normal vehicle traveling direction - Google Patents

Abstract

The carrier (1) has a cross beam (11) forming a load carrying surface. A load carrier unit is rotatably arranged with respect to the cross beam to form another surface. The latter load carrying surface is provided infront of the former surface. The latter load carrying surface is viewed in the normal traveling direction of the motor vehicle. The load carrier unit is rotatably arranged with respect to the cross beam to form third load carrying surface. The third surface is located behind the former load carrying surface and is viewed in the normal traveling direction of the motor vehicle. An independent claim is also included for a motor vehicle with a load carrier.

Description

Territory of invention

The The present invention relates to a load carrier according to the preamble of claim 1.

Separately load carriers to be mounted in the vehicle body have previously been known. They are ordinary mounted on the vehicle body by means of a clamping connection. If you do not intend to use them, you can either stay mounted on the body or dismantled and for example in the trunk of the vehicle or in one other convenient storage place, be put. The disadvantage, though one the load carrier at times when not in use, mounted on the body leaves, is that this is a noise nuisance while can cause the journey in the passenger cabin of the vehicle. The is based on the fact that this type of load carrier normally not adapted to the geometry of a particular vehicle model is, but along with many different vehicle models is being used. If the load carrier In the trunk, he is in many times as bulky be experienced, whereas if he is in a different place than in the vehicle it may lead to the risk that it is not available when he needs becomes.

A solution for this Problems is a fixed to the vehicle body mounted load carrier, for Example in the form of load beams extending in the longitudinal direction extend the vehicle and are designed to no noise pollution in the passenger cabin. Another solution involves a load carrier, which is integrated in the roof spoiler of the vehicle. A common Feature of many of these solutions is that possible must be, the load carrier from a position in which it can not be used in a position in which the load carrier uses to carry a load can be activated. However, existing load carriers are this Kind with various disadvantages.

JP 4039141 A discloses a load carrier intended for a motor vehicle. A U-shaped bow is integrated in a spoiler in the rear part of the motor vehicle. For use, the sheet is pivoted forward, substantially 90 °, to create a load-bearing surface. However, this load carrier can only form a load-bearing surface and must therefore be supplemented with another load carrier, if more load-bearing surfaces are required.

DE 100 09 966 A1 discloses a load carrier which is also integrated in the spoiler of a motor vehicle. A substantially U-shaped arc having substantially the same shape as the spoiler can be pivoted forwardly in the longitudinal direction of the vehicle to form a front load bearing surface, while at the same time the remainder of the spoiler is a rear load bearing Surface forms. A load can now be placed on the front and on the rear load-bearing surfaces. However, this construction has a limited field of application because it is mainly adjusted for relatively compact loads. In addition, it will be difficult to open the flap of the trunk when a load has been placed on the front and rear load-bearing surfaces.

FR 2, 782, 042 discloses a load carrier integrated into two parallel load beams fixedly mounted to the body of the vehicle. The load beams are hollow and accommodate an extendable and articulated linkage. In use, the linkage is pulled out of the load beams by a telescopic function to form load bearing surfaces. However, this construction is mainly adapted to compact loads, since the load bearing surfaces are located behind the rear of the vehicle and the space offered by the roof of the vehicle can not be used.

Object of the invention

One The aim of the present invention is thus to provide a flexible load carrier, which can be adapted to different load types.

Summary the invention

This The aim of the invention is achieved by a load carrier, as indicated in the introduction and as defined in the characterizing part of claim 1. Since that second load carrier element can be swung out so that both a second and a third load-bearing surface with respect to the first load-bearing surface, two different Allows loading positions, seen in the normal direction of travel of the motor vehicle: a front loading position, which is the first and the second load-bearing surface includes, and a rear loading position, which is the first and the third load-bearing surface includes. These two loading positions offer a better option load different load types than if only one loading position exist.

Preferably is the load carrier adapted to be mounted on the rear edge of the roof of the body to become and the second load carrier element is adapted to project from the rear edge of the roof can to form a third load-bearing surface. That does it possible separate roof rack / a separate roof box, mounted on the Roof of the vehicle in front of the carrier, to use, and in the same time to put a charge on the first and third load-bearing surface.

The first and second load bearing surfaces are suitable essentially in the same horizontal plane. That does it possible a load substantially horizontally on the first and the second load-bearing surface to arrange.

Preferably is the third load-bearing surface on a vertically lower surface area as the first load-bearing surface located. That makes it possible a charge in an inclined position on the first and the third load-bearing surface to arrange.

Of the porters suitably comprises a first and a second support element, that on the opposite Sides of the body roof seen in the transverse direction of the motor vehicle, is to be mounted, wherein the first and second load carrier elements extend therebetween and with the first and second support members are connected. this leads to to load-bearing surfaces, which effectively exploit the width of the body roof.

The first load carrier element preferably comprises an elongated Recess for connection of fasteners that are adapted to a load on the first load-bearing surface too Fasten. This makes it possible a variety of attachment points along the first load-bearing surface to have.

The first load carrier element is suitably movable in the associated first and second support elements arranged to the first load-bearing surface in the longitudinal direction to position the vehicle. This makes it possible the distance between the first and second load-bearing surface and also the distance between the first and third load-bearing surface according to the size of the load adjust if in each case in the front and the rear loading position is loaded, seen in the longitudinal direction of the vehicle.

The second load carrier element suitably comprises an elongated recess for connecting Fasteners adapted to be a load on the second or third load-bearing surface to be able to fasten. This makes it possible a plurality of attachment points along the second and the third load-bearing surface to have.

The second load carrier element preferably comprises a first and a second arm, which each with the first and second support members in a respective one pivotally connected to a vertical plane, and a diagonal Element arranged between the first and the second arm is to form the second load bearing surface when the first and second arms in a forward pivot position with respect to of the first load carrier element and to form the third load bearing surface when the first and the second arm is in a rearward pivot position with respect to of the first load carrier element are located. This makes it possible two different loading positions by a pivoting movement to activate.

Of the first and second arms suitably comprise one each first and a second arm portion, wherein the first arm portions pivotable with the support elements connected between the front and the rear pivot position are the second arm portions at one end to the first arm portions between an inwardly pivoted position and an outwardly pivoted position Position pivotally connected with respect to the first arm portions are, and on one opposite End are firmly connected to the diagonal element. This makes it possible to form the front loading position when the first arm sections are in the front pivot position and the second arm portions in the outside pivoted position while are The rear loading position can be formed when the first arm sections are in the rear pivot position and the second arm portions in the outside are pivoted position. Due to the possibility of reciprocal Pivoting between the first and the second arm portion, can In addition, the distance between the front and the second loading position to be enlarged which different options for positioning the load in terms allows the vehicle body.

Preferably, the first arm portions, when in the forward pivot position, are adapted to be substantially parallel to the body roof, and the second arm portions, when in the inwardly pivoted position, are adapted to substantially engage to strike the first arm sections. This allows a compact design of the load carrier in a non-use position, which increases the wind resistance of the driving improved during traveling.

Of the porters preferably comprises a locking device which is adapted around the first arm portions in a pivotal position between the front and rear pivot position, in which pivotal position a flap of the trunk of the motor vehicle open can be without the load carrier to collide. Since the flap of the trunk can be opened without using the load carrier To collide, the trunk of the motor vehicle can be loaded and be unloaded, even if a load on the rear loading position is arranged.

Short description the drawings

The Invention will be described below in detail with reference to the accompanying Drawings described.

1 is a perspective view of a vehicle that is equipped with a load carrier in the form of a roof spoiler,

2 is a perspective view of the load carrier in 1 in a rear loading position,

3 is a detail view of the load carrier in 2 .

4 is a view obliquely from behind of the load carrier in 2 with a mounted bicycle,

5 is a side view of the load carrier in 4 .

6 is another side view of the load carrier in 4 .

7 is a side view of the load carrier in 4 with a mounted two-wheeler and with the flap of the vehicle trunk open,

8th is an obliquely viewed from above the load carrier in 1 in a front loading position,

9 is a side view of the load carrier in 8th , and

10 shows a locking device of the load carrier.

detailed description

1 illustrates a planned for a motor vehicle load carrier 1 , The load carrier is shown in an inactive position, that is, when it is not planned to use it. In this non-active position he takes the form of a roof spoiler or wing 1 and has a compact design to give the vehicle an aesthetically attractive appearance and also to give the vehicle advantageous aerodynamic properties.

It will be described below how the load carrier can be placed in first and second active positions to form first, second and third load-bearing surfaces designed for different load types. The description will be with the first and the third load-bearing surface on the basis of 2 - 7 begin, and then with the first and the second load-bearing surface on the basis of 8th - 9 Continue.

2 - 6 illustrate the load carrier 1 in an active position to form a rear loading position. This is made possible according to the invention by a special construction, which will be described in more detail below. In this loading position the load carrier protrudes 1 directed backwards from the roof 3 of the vehicle and down over the flap of the trunk 5 and essentially takes the form of a U.

The load carrier comprises a carrying device in the form of a first and a second support element 9 (of which only one in 3 is shown). The carrying elements are on the bodywork of the vehicle on each side of the roof 3 attached to the vehicle and extend in the longitudinal direction of the vehicle (indicated by arrow L). The carrier elements 9 are mounted by fasteners (not shown) to the rear edge of the roof to cover only a limited portion of the entire surface of the roof 3 occupy, which means that there is additional space for mounting, for example, a roof rack and / or a roof box, on the roof.

A first load carrier element in the form of a crossbeam 11 extends over the roof 3 of the vehicle and is with each of its ends 12 in one of the first and second support members 9 arranged. For this purpose, the first and the second support member each comprise an elongated recess 13 in which both ends of the crossbeam 11 are movably arranged. The ends 12 of the crossbeam so can in the recess 13 be moved that the crossbeam 11 in the longitudinal direction of the vehicle between a front and rear position can be adjusted. After that, the crossbeam 11 in the recesses in the desired position by means of locking elements (not shown) are determined.

The crossbeam 11 forms a first load bearing surface 15 of the load carrier 1 , To load on the first load-bearing surface 15 To attach, the bar comprises on its upper side an elongated recess 17 which has the shape of an inverted T in cross-section substantially. In this recess 17 may be various types of load attachment elements 19 with the same cross-sectional shape as the recess 17 be arranged depending on the type of load to be attached, for example, a two-wheeler or a pair of skis.

A second load carrier element 7 is pivotable at the rear edge of the first and second support members 9 (seen in the direction of travel of the vehicle) arranged. The second load carrier element 7 includes two arms 21 (of which only one in 3 shown), which by a transverse element 23 in the shape of a grand piano 23 to form the actual U-shape, are connected. The wing 23 extends over the roof of the vehicle, transverse to the longitudinal direction L of the vehicle and forms the part of the load-bearing element 7 , which should act as a load-bearing surface.

The poor 21 are each in a first 25 and a second 27 Divided arm section. The first arm sections 25 are pivotable with the carrying elements 9 at a first pivot point 29 connected, which at the rear edge of the respective support elements 9 , as seen in the normal direction of travel of the vehicle, is positioned. The second arm sections 27 are stuck with the wing 23 connected and pivotable with the first arm portions 25 at a second pivot point 31 connected.

The first arm sections 25 can be between a front (see 8th - 9 ) and a rear pivot position (see 2 - 6 ) with regard to the support elements 9 be panned. In the front pivot position, the first arm portions 25 essentially forward, as seen in the direction of travel of the vehicle, while at the same time to the respective support elements 9 nudge. In the rearward pivot position, the first arm portions are directed 25 essentially to the rear, as seen in the direction of travel of the vehicle. The pivoting between the front pivot position and the rear pivot position thus corresponds to a movement of approximately 180 °. The first arm sections 25 are oriented substantially horizontally in the front and rear pivot positions and are positioned substantially in a common horizontal plane. When the first arm sections 25 In the forward pivot position, any further forward pivoting will be seen in the counterclockwise direction as seen in FIG 2 - 3 , is, through the support elements 9 prevents the first arm sections 25 along the majority of their length abut the support elements. When the first arm sections 25 In the rearward pivot position, any further pivoting is seen in the clockwise direction, as seen in FIG 2 - 3 , is, through a piece of the first arm sections 25 attached to the carrying elements 9 abut, prevents.

When the first arm sections 25 are in the forward pivot position, they can to the first and second support elements 9 be connected by means of a respective closure element (not shown) in the form of a handle. In the front pivot position is an opening 33 in the first arm sections 25 over an opening 35 in the first and second support elements 9 positioned, and through these openings 33 . 35 Through the handles can extend to the first arm portions 25 in the front pivot position to determine and hold, so that the pivoting of the first arm portions 25 clockwise will not be possible. Accordingly, the first arm portions 25 be detected in the rear pivot position by means of a locking device (as described in more detail below 10 described) which is adjacent to the first pivot point 29 are arranged as to the pivoting of the first arm portions 25 to prevent counterclockwise.

The second arm sections 27 , which stuck to the wing 23 can be connected with respect to the first arm sections 25 over the second pivot point 31 be panned. This may be between an inwardly pivoted position in which the second arm portions 27 to the first arm sections 25 abut and parallel to these (see 1 ), and an outwardly pivoted position, in which the second arm portions 27 an angle α (see 5 ) to the first arm sections 25 form, which is preferably less than 180 °. Further pivoting of the second arm portions 27 with respect to the first arm portions 25 when the second arm portions are in an outwardly pivoted position, is blocked by a blocking element 26 prevents that at one end of the second arm portions 27 is arranged. As a result, the second arm portions become 27 if they are in the fully outward-tilted position, they will be able to lean diagonally downwards (see 5 ) when the first arm sections 25 are in the rear pivot position, and obliquely upward when the first arm sections 25 are in the front pivot position (see 8th ).

When the second arm sections 27 are in an inwardly pivoted position abutting the first arm portions, they can be found to pivot with respect to the first arm sections 25 to prevent. This occurs by means of a locking element, not shown, (for example, a wedge extending through both the first and second arm portions) adjacent to the second pivot point 31 is arranged. Accordingly, the second arm portions 27 also against pivoting with regard to the first arm sections 25 be detected by a corresponding locking element when they are in the outwardly pivoted position.

In 2 - 3 are the first arm sections 25 in the rear pivot position and the second arm portions 27 are in an outwardly pivoted position with respect to the first arm portions 25 and thus form the rear loading position. In this loading position forms a first side of the wing 23 (which is in 1 directed upward) a third load-bearing surface 37 , A load may be in this position on the first 15 and on the third load-bearing surface 37 be worn where the first load-bearing surface 15 from the previously mentioned bar 11 consists. Because the bar 11 can be positioned in the longitudinal direction L of the vehicle, the distance between the first 15 and the third load-bearing surface 37 also be adjusted according to the size of the load. Separate substantially yoke-shaped fastening devices 39 can be made to the wing 11 to span and move along the same to attachment points for the load along the third load-bearing surface 37 to build.

4 - 6 illustrate how a load is arranged in the form of a bicycle in the rear loading position, through the first 15 and the third load-bearing surface 37 is supported. The front wheel of the bicycle has been removed and the front fork of the bicycle is in a suitable fastener 41 at the first load-bearing surface 15 mounted, while the rear wheel of the two-wheeler on the third load-bearing surface 37 by means of a yoke-shaped fastening device 39 is attached. It is off 4 and 6 Also visible that mounting the two-wheeler in the rear loading position leads to the main part of the roof 3 leave the vehicle unused, which means that a separate roof rack and / or roof box can be mounted on the roof, without the load carrier 1 to compete for space.

7 shows like the flap 43 of the vehicle trunk, even if a load in the form of a two-wheeler in the rear loading position of the load carrier 1 is arranged. To allow this, the whole load carrier becomes 1 pivoted counterclockwise (see 7 ) until it assumes a position in which the flap of the trunk can be opened without colliding with the load carrier. To keep the load carrier in this position, the first arm sections 25 the load carrier with respect to the support elements by the locking device (as described in more detail below 10 described) which is adjacent to the first pivot point 29 is arranged to be determined. The second arm sections 27 have no changed position with respect to the first arm portions, but remain in the outwardly pivoted position determined by means of the aforementioned locking elements.

8th - 9 show the load carrier 1 in another active position to form a front loading position. In this loading position, the load carrier extends 1 forward over the roof 3 of the vehicle while the first arm sections 25 in the forward pivot position and the second arm sections 27 in the outwardly pivoted, locked position with respect to the first arm portions 25 , are located. The first arm sections 25 can be detected in this position by means of the aforementioned handles.

The wing 23 forms a third load-bearing surface in this position 45 of the load carrier 1 and a load can be placed on the same. Unlike the third load-bearing surface 37 coming from the upper side of the wing 23 There is the third load-bearing surface 45 from the bottom 47 of the grand piano. A load can now access this third load-bearing surface 45 and the aforementioned first load-bearing surface 15 which can be positioned as before in the longitudinal direction of the vehicle, depending on the size and nature of the load between the first 15 and third load bearing surface 45 is placed. The first and third load bearing surfaces are also disposed substantially in a common horizontal plane, allowing loads to be placed substantially horizontally on the first and third load bearing surfaces. The third load bearing surface located on the underside of the wing is similar to the crossbeam (which is the first load bearing surface) with an elongated recess 49 provided substantially having a cross section in the shape of an inverted T. fastener 51 with the same shape as the recess 49 can be positioned along the same and fixed in the desired position, depending on the load between the first 15 and the third load-bearing surface 45 to place. The above-mentioned yoke-shaped fastening device 39 is preferably also in this recess 49 arranged by the dashed lines in 5 is displayed.

10 is a detail view of a locking device 53 in the rear part of the respective carrying elements 9 arranged adjacent to the first pivot point 29 is. As described above, the first arm portion 25 at one end 55 with the support element 9 pivotally connected. For this purpose is the end 55 with a pivot pin 57 equipped, which is the end 55 perpendicular to the longitudinal direction of the arm portion 25 extends. The support element 9 is again with a first support 59 and a second support 61 equipped, in which the projecting parts of the pivot pin 57 are arranged. This makes it possible the first arm section 25 to pivot between the front and rear pivot position.

The locking device 53 includes a movable bolt 63 standing in a prop 59 is arranged, and a first recess 65 and a second recess 67 in the end 55 of the arm section. The bolt 63 has a shape which in terms of size in the respective recesses 65 . 67 is fitted. In the position passing through the first arm section 25 in 10 is taken, the bolt will be in an inactive position (instead, the first arm portion 25 determined by means of the above-mentioned grab handle). When the first arm section 59 however, it will be pivoted about 90 ° clockwise from the position shown until it substantially assumes an upright position, but it will be possible to turn the bolt 63 in the first recess 65 insert and so the first arm section 25 to determine against further panning. This position is determined by 7 described and is advantageous when the flap of the vehicle trunk, with one on the first load carrier 1 placed load, must be opened. If instead the first arm section 25 is pivoted approximately 180 °, as if to take a substantially horizontal position, it will be possible the bolt 63 in the second recess 67 to push and so the first arm section 25 to determine against further panning. This is the position based on 3 is described.

It is conceivable, the locking device 53 either in both support elements 9 (on each side of the roof of the vehicle) or to arrange only in a support member. It is conceivable that the bolt 63 , spring loaded so as to allow this automatically in the respective recesses 65 . 67 is inserted by spring action.

Even though the invention as shown fixedly mounted to the vehicle body it is also possible that the load carrier designed as a separate accessory becomes that in the longitudinal Lastbalken the vehicle or in a roof rack on the vehicle or to use other suitable fasteners.

The present invention relates to a load carrier ( 1 ), which is to be mounted on the body of a motor vehicle, a first load carrier element ( 11 ) around a first load-bearing surface ( 15 ), a second load carrier element ( 7 ), which with regard to the first load carrier element ( 11 ) is pivotally mounted to a second load-bearing surface ( 45 ), wherein the second load-bearing surface ( 45 ) located in front of the first load-bearing surface ( 15 ), as seen in the normal direction of travel of the motor vehicle. The load carrier is characterized in that the second load carrier element ( 7 ) with regard to the first load carrier element ( 11 ) is also pivotally mounted to a third load-bearing surface ( 37 ), the third load bearing surface ( 37 ) behind the first load-bearing surface ( 15 ) is arranged, seen in the normal direction of travel of the motor vehicle.

Claims (13)

To be mounted on the body of a motor vehicle load carrier ( 1 ), comprising - a first load carrier element ( 11 ) around a first load-bearing surface ( 15 ), - a second load carrier element ( 7 ), which with regard to the first load carrier element ( 11 ) is pivotally mounted to a second load-bearing surface ( 45 ), the second load-bearing surface, wherein the second load-bearing surface ( 45 ) in front of the first load-bearing surface ( 15 ), as seen in the normal direction of travel of the motor vehicle, characterized in that the second load carrier element ( 7 ) with regard to the load carrier element ( 11 ) is also pivotally mounted to a third load-bearing surface ( 37 ), the third load bearing surface ( 37 ) behind the first load-bearing surface ( 15 ), as seen in the normal direction of travel of the motor vehicle. A load carrier according to claim 1, wherein the load carrier ( 1 ) is adapted to the rear edge of the roof ( 3 ) of the body to be mounted and the second load carrier element ( 7 ) is adjusted from the rear edge of the roof ( 3 ) to project a third load-bearing surface ( 37 ) to build. A load carrier according to claim 1 or 2, wherein the first ( 15 ) and the second load-bearing surface ( 45 ) are located substantially in the same horizontal plane. A load carrier according to any one of claims 1-3, wherein the third load bearing surface ( 37 ) on a vertically lower level than the first load-bearing surface ( 15 ) is located. A load carrier according to any one of claims 1-4, comprising first and second carrying members ( 9 ) on the opposite sides of the roof ( 3 ) of the body, as seen in the transverse direction of the motor vehicle, the first ( 11 ) and second load carrier elements ( 7 ) extending therebetween and having the first and second support members ( 9 ). A load carrier according to claim 5, wherein the first load carrier element ( 11 ) an elongated recess ( 17 ) for connecting fasteners ( 19 ) adapted to load on the first load-bearing surface ( 15 ) to attach. A load carrier according to claim 5 or 6, wherein the first load carrier element ( 11 ) in the associated first and second support elements ( 9 ) is movably mounted to the first load bearing surface ( 15 ) in the longitudinal direction of the vehicle. A load carrier according to any one of claims 5-7, wherein the second load carrier element ( 7 ) an elongated recess ( 49 ) for attaching fasteners adapted to load on the second or third load bearing surface ( 37 ) to be able to attach. A load carrier according to any one of claims 5-8, wherein the second load carrier element ( 7 ) - a first and a second arm ( 21 ), which in each case with the first and second support elements ( 9 ) are pivotally connected in a respective vertical plane, and - a transverse element ( 23 ) between the first and second arms ( 21 ) is arranged around the second load-bearing surface ( 45 ) when the first and second arms ( 21 ) in the front pivot position with respect to the first load carrier element ( 11 ) and the third load-bearing surface ( 37 ) when the first and second arms ( 21 ) in a rear pivot position with respect to the first load carrier element ( 11 ) are located. A load carrier according to claim 9, wherein the first and second arms ( 21 ) a first ( 25 ) and a second arm portion ( 27 ), wherein the first arm portions ( 25 ) pivotable with the support elements ( 9 ) are connected between the front and rear pivot positions, the second arm portions ( 27 ) pivotable at one end with the first arm portions ( 25 ), between an inwardly pivoted position and an outwardly pivoted position with respect to the first arm portions (FIG. 25 ) and at an opposite end fixed to the cross member ( 23 ) are connected. A load carrier according to claim 10, wherein the first arm portions ( 25 ), when in the forward pivot position, are adapted to be substantially parallel to the body roof ( 3 ), and the second arm portions ( 27 ), when in the inwardly pivoted position, are adapted to substantially conform to the first arm portions (11). 25 ) to initiate. A load carrier according to claim 10 or 11, comprising a locking device ( 53 ), which is adapted to the first arm portions ( 25 ) in a pivot position, between the front and the rear pivot position, to be able to determine in which pivot position a flap of the trunk of the motor vehicle can be opened without the load carrier ( 1 ) to collide. Motor vehicle which is driven by a load carrier ( 1 ) is characterized according to claim 1.