초록 ▼

A joint for the connection of components (T1, T2) that are movable relative to one another, on respective longitudinal sides (L1, L2), includes at least two cooperating bands, which are secured with their first ends (E1) respectively on sides of the first component (T1) lying opposite one another an

A joint for the connection of components (T1, T2) that are movable relative to one another, on respective longitudinal sides (L1, L2), includes at least two cooperating bands, which are secured with their first ends (E1) respectively on sides of the first component (T1) lying opposite one another and with their second ends (E2) respectively on sides of the second component (T2) lying opposite one another, so that the paths of the bands extend opposite one another in relation to the center axes (A1, A2) of the components.

대표청구항 ▼

The invention claimed is: 1. A joint arrangement comprising: first and second components (T1, T2) that are adjacent to one another along, and movable relative to one another about, respective longitudinal sides (L1, L2) of the first and second components facing toward one another to form a joint th

The invention claimed is: 1. A joint arrangement comprising: first and second components (T1, T2) that are adjacent to one another along, and movable relative to one another about, respective longitudinal sides (L1, L2) of the first and second components facing toward one another to form a joint therebetween; at least two cooperating bands (11, 12; 33, 33a, 33b; 34, 34a, 34b), which are secured with respective first ends (E1) of the bands respectively on sides of the first component (T1) oriented opposite one another and with respective second ends (E2) of the bands respectively on sides of the second component (T2) oriented opposite one another as well as opposite to the respective sides of the first component, wherein the bands (11, 12; 33, 33a, 33b; 34, 34a, 34b) include first bands (11; 33a) and second bands (12; 33b) that extend opposite one another in respective longitudinal directions thereof at an angle β relative to an axial direction (R1) of the joint, whereby the angle β is greater than 0 degrees and less than 90 degrees for taking up shear forces that are to be transmitted between the first and second components through the bands; at least one pressure element arranged between the longitudinal sides of the first and second components facing toward one another, wherein the at least one pressure element is arranged and adapted to space apart the longitudinal sides of the first and second components and to take-up and transmit pressure forces between the longitudinal sides of the first and second components; and a contact element (16, 17) arranged on a side of the pressure element facing toward one component of the first and second components (T1, T2). 2. The joint arrangement according to claim 1 wherein each one of the bands (11, 12; 33, 33a, 33b; 34, 34a, 34b) is formed of at least two plies of a fiber-reinforced composite material or a synthetic plastic or a textile material. 3. The joint arrangement according to claim 1, wherein the pressure element is fixed on one of the components (T1, T2). 4. The joint arrangement according to claim 1, wherein the contact element (16, 17) comprises a sliding layer on a surface of the pressure element that faces toward the one component. 5. The joint arrangement according to claim 1, wherein a side of the contact element (16, 17) facing toward the one component (T1) has a larger radius of curvature than a surface of the longitudinal side of the one component (T1), in order to reduce arising compressive stresses. 6. The joint arrangement according to claim 1, further comprising at least one clamping element that secures the bands (11, 12; 33, 33a, 33b; 34, 34a, 34b) to at least one of the components. 7. A joint arrangement comprising: a first component and a second component, wherein said first component is arranged with a longitudinal edge thereof adjacent to and running along a longitudinal edge of said second component in a longitudinal joint axis direction, and wherein a joint area is formed between said longitudinal edge of said first component and said longitudinal edge of said second component; a pressure element that is arranged in said joint area between said longitudinal edge of said first component and said longitudinal edge of said second component, and that is arranged and adapted to space apart and support said longitudinal edge of said first component relative to said longitudinal edge of said second component; a contact element arranged on a side of said pressure element facing toward said first component; a first band that has a first end portion thereof secured on a first side of said first component and has a second end portion thereof secured on a second side of said second component facing opposite said first side of said first component; and a second band that has a first end portion thereof secured on a second side of said first component opposite said first side of said first component, and has a second end portion thereof secured on a first side of said second component opposite said second side of said second component; wherein respective third portions of said bands between said first and second end portions thereof respectively extend through said joint area between said longitudinal edges of said first and second components, wherein each one of said bands extends longitudinally in a sloping band direction at an angle greater than 0 degrees and less than 90 degrees relative to said longitudinal joint axis direction. 8. The joint arrangement according to claim 7, wherein said third portions of said bands extend through said joint area respectively at positions that are offset one behind another and offset from said pressure element in said longitudinal joint axis direction. 9. The joint arrangement according to claim 7, wherein said bands each respectively comprise at least two plies of one or more materials selected from the group consisting of fiber-reinforced composite materials, synthetic plastic materials, or textile materials. 10. The joint arrangement according to claim 9, wherein said at least two plies are not secured to one another respectively in said third portions of said bands extending through said joint area. 11. The joint arrangement according to claim 7, further comprising a clamping element secured to said second component, wherein said second end portion of said first band extends between said clamping element and said second side of said second component and around a side of said clamping element onto a surface of said clamping element facing away from said second component, and wherein said first band and said clamping element are secured to said second component by a securing element that passes through said second component, said clamping element, and said second end portion of said first band at a location between said clamping element and said second component and a location on said surface of said clamping element. 12. The joint arrangement according to claim 11, wherein said clamping element has a hollow space therein so that said clamping element is deformable by said securing element in a direction so as to apply a tension to said first band that is secured by said clamping element. 13. The joint arrangement according to claim 7, wherein said contact element comprises a sliding layer. 14. The joint arrangement according to claim 7, wherein said longitudinal edge of said first component has a first curved surface facing toward said contact element, said contact element has a second curved surface facing toward and contacting said first curved surface of said longitudinal edge of said first component, and said second curved surface has a larger radius of curvature than said first curved surface.