Claims
- 1. A vehicle-mounted load carrier of the type which is fastened across a door, hatch or similar closure, preferably at the rear of the vehicle, said load carrier comprising:
a load-bearing frame and at least two gripping means disposed upon the load-bearing frame and intended to grip two substantially mutually opposite edges, preferably the top and bottom edge of the door; tensioning means for tensioning the gripping means across the door by the positive mutual relative displacement thereof towards each other; the load-bearing frame being divided into a main section bearing the gripping means for one edge of the door, and at least one tensioning frame section disposed movably in relation to the main frame section and bearing the gripping means for the other edge; and the main frame section and the tensioning frame section being connected to each other in a linearly displaceable fashion so that tensioning is achieved by bringing about the mutual linear displacement of the main and tensioning frame sections by means of the tensioning means.
- 2. The vehicle-mounted load carrier as recited in claim 1, wherein the main section and the tensioning section are connected to each other by means of at least one pair of telescopically displaceable tubes that achieve tensioning by telescopic movement of the tubes and matching mutual displacement of the main frame section and the tensioning frame section.
- 3. The vehicle-mounted load carrier as recited in claim 1, wherein the load-bearing frame includes two tensioning frame sections, each provided with gripping means for one edge and said tensioning frame sections each being connected to the main frame section in a linearly displaceable fashion and disposed one at each side of the load-bearing frame.
- 4. The vehicle-mounted load carrier as recited in claim 1, wherein each tensioning means includes an operating means mounted rotatably about a shaft and has a surface that is eccentric in relation to the shaft;
a bearing surface on a fulcrum interacting with the eccentric surface of the operating means, the shaft and hence the operating means being united to one of the frame sections and the fulcrum being united to the other frame section so that the operating means, and hence the load carrier can be caused to assume an unfastened and a fastened position corresponding to the more or less centered position of the fulcrum in relation to the shaft and to corresponding relative displacements of the frame sections.
- 5. A vehicle-mounted load carrier as recited in claim 4, wherein the shaft of the operating means is arranged to pass transversely through the outer telescopic tube via elongated holes disposed along the length of the tube and thereby permitting movement of the shaft along the tube;
a drag link disposed inside the tube between the shaft and the inner telescopic tube, and the fulcrum being disposed on the outer tube and the eccentric surface disposed on the operating means in such a manner that the turning of the operating means from its unfastened to its fastened position, by the interaction between the eccentric surface of the operating means and the fulcrum, causes the shaft, the drag link, and hence the inner tube to slide telescopically into the outer tube.
- 6. A vehicle-mounted load carrier as recited in claim 5, wherein the drag link has a connection to the shaft which is adjustable longitudinally along the drag link.
- 7. A vehicle-mounted load carrier as recited in claim 6, wherein the drag link is elongate and the shaft passes through a hole in the drag link, the hole in the drag link is elongate and disposed longitudinally along the drag link and is formed with a slip side, which is straight, and a locking side having a row, parallel to the slip side, of mutually adjacent notches having the shape of circular segments;
the shaft is of a cross-section having the form of the major segment of a circle with a removed part in the form of a minor segment, the diameter of the circle being substantially equal to the perpendicular distance between the slip side and the bottom of one of the circular-segment shaped notches, and a smallest thickness of the shaft at the removed segment being substantially equal to the perpendicular distance between the slip side and the peaks separating the notches; and the shaft being rigidly united with the operating means in such a manner that when the operating means is in its unfastened position the shaft has its smallest thickness perpendicular to the slip side and is moveable in relation to the hole in the drag link so that when the operating means is in its fastened position part of the shaft is located in one of the circular segment shaped notches, thus blocking transverse movement of the drag link in relation to the shaft.
- 8. A vehicle-mounted load carrier as recited in claim 1, wherein the tensioning section is directly or indirectly pre-by spring-loading means acting in the direction of insertion.
- 9. A load carrier comprising:
a rear-mount vehicular load carrier frame having an upper frame portion and a lower frame portion, said upper and lower frame portions each coupled to a securement arrangement for releasably securing the load carrier to a carrying vehicle; and a telescoping arrangement between said upper and lower frame portions for transitioning said load carrier between vehicle-secured and vehicle-released configurations.
- 10. The load carrier as recited in claim 9, further comprising:
said upper frame portion being formed as a substantially U-shaped member constructed from substantially rigid tubular material, said U-shaped member having a bight portion connecting to arm portions that project thereawayfrom; and said lower frame portion being formed from substantially rigid tubular material and configured as two elongate legs, each elongate leg connected to a respective arm portion of said U-shaped member by a telescopic connection.
- 11. The load carrier as recited in claim 9, further comprising:
said upper frame portion being formed as a substantially U-shaped member constructed from substantially rigid material, said U-shaped member having a bight portion connecting to are portions that project thereawayfrom; and said lower frame portion being formed from substantially rigid material and configured as two elongate legs, each elongate leg connected to a respective arm portion of said U-shaped member by a telescopic connection.
- 12. The load carrier as recited in claim 10, further comprising:
one of said arm portions of said U-shaped member and said elongate legs of said lower frame portion are adapted to telescopically receive the other of said arm portions of said U-shaped member and said elongate legs of said lower frame portion.
- 13. The load carrier as recited in claim 9, further comprising:
said securement arrangement configured to hook about opposed edge portions of a component of a carrying vehicle.
- 14. The load carrier as recited in claim 9, further comprising:
said telescoping arrangement including a component adapted with an elongate aperture, said elongate aperture having a varying width along a length thereof.
- 15. The load carrier as recited in claim 9, further comprising:
said varying width of said elongate aperture in said telescoping arrangement repetitively recurring along a length thereof.
- 16. The load carrier as recited in claim 9, further comprising:
said varying width of said elongate aperture in said telescoping arrangement uniformly and repetitively recurring along a length thereof.
- 17. The load carrier as recited in claim 16, further comprising:
said elongate aperture having a scalloped side and an opposing smooth side for accommodating releasable fixation with a transitionable member located for length-wise movement in said elongate aperture.
- 18. The load carrier as recited in claim 17, further comprising:
a rotatable shaft positioned within said elongate aperture for length-wise movement therein, said shaft having differing width-wide dimensions depending on said shaft's rotated position relative to said elongate aperture.
- 19. The load carrier as recited in claim 9, further comprising:
said telescoping arrangement including a drag link coupled between one of said two elongate legs of said lower frame portion and said upper frame portion, said drag link adapted with an elongate aperture, said elongate aperture having a scalloped side and an opposing smooth side for accommodating releasable fixation with a transitionable member located for length-wise movement in said elongate aperture.
- 20. The load carrier as recited in claim 19, further comprising:
a rotatable shaft positioned within said elongate aperture for length-wise movement therein, said shaft having differing width-wide dimensions depending on said shafts rotated position relative to said elongate aperture; and a biasing member configured to bias said one of said two elongate legs of said lower frame portion and said upper frame portion toward one another.
Priority Claims (1)
Number |
Date |
Country |
Kind |
9901956-4 |
May 1999 |
SE |
|
CROSS REFERENCE TO RELATED APPLICATIONS
[0001] This is a continuation patent application of International Application Ser. No. PCT/SE00/01045 filed May 24, 2000 that designates the U.S. The full disclosure of said application, in its entirety, is hereby expressly incorporated by reference into the present application.
Continuations (1)
|
Number |
Date |
Country |
Parent |
PCT/SE00/01045 |
May 2000 |
US |
Child |
09683110 |
Nov 2001 |
US |