초록 ▼

The present invention relates to a expansion joint to bridge an expansion gap between two parts of concrete slabs used in floor construction, especially in the manufacture of concrete floors such as for example in industrial floors. Such expansion joints are evidently required to take up the inevita

The present invention relates to a expansion joint to bridge an expansion gap between two parts of concrete slabs used in floor construction, especially in the manufacture of concrete floors such as for example in industrial floors. Such expansion joints are evidently required to take up the inevitable shrinkage process of the concrete and to assure that the floor elements can expand or contract such as for example occur by temperature fluctuations and resulting in a horizontal displacement of the floor panels vis-à-vis one another.

대표청구항 ▼

1. An expansion joint configured to bridge and transfer a load across an expansion gap between two parts of adjacent concrete slabs used in floor construction, said expansion joint having an upper portion and a lower portion, wherein: the upper portion provides a first dividing member, andthe lower

1. An expansion joint configured to bridge and transfer a load across an expansion gap between two parts of adjacent concrete slabs used in floor construction, said expansion joint having an upper portion and a lower portion, wherein: the upper portion provides a first dividing member, andthe lower portion comprises a first vertically oriented corrugated plate,wherein the first vertically oriented corrugated plate of the lower portion is vertically oriented with respect to a surface of a floor,wherein the first dividing member of the upper portion creates upper edges of the adjacent concrete slabs of the floor,wherein the lower portion further comprises a second vertically oriented corrugated plate that fits within undulations of the first vertically oriented corrugated plate of the lower portion,wherein the lower portion further comprises a corrugated drop plate fitted in between the first vertically oriented corrugated plate of the lower portion and the second vertically oriented corrugated plate of the lower portion, andwherein the corrugated drop plate contacts at least one of the first vertically oriented corrugated plate of the lower portion or the second vertically oriented corrugated plate of the lower portion. 2. The expansion joint according to claim 1, wherein the first dividing member in the upper portion is either a vertically oriented straight plate or a vertically oriented corrugated plate, wherein the vertically oriented straight plate or the vertically oriented corrugated plate of the upper portion is vertically oriented with respect to the surface of the floor. 3. The expansion joint according to claim 1, wherein the first dividing member in the upper portion is a first vertically oriented corrugated plate, wherein the first vertically oriented corrugated plate of the upper portion is vertically oriented with respect to the surface of the floor, and wherein the first vertically oriented corrugated plate of the upper portion and the first vertically oriented corrugated plate of the lower portion are out of phase to one another. 4. The expansion joint according to claim 3, wherein corrugation of the first vertically oriented corrugated plate of the upper portion and the first vertically oriented corrugated plate of the lower portion is the same. 5. The expansion joint according to claim 4, wherein the corrugation consists of a waveform. 6. The expansion joint according to claim 3, wherein the first vertically oriented corrugated plate of the upper portion and the first vertically oriented corrugated plate of the lower portion are in substantially the same lateral plane. 7. The expansion joint according to claim 3, wherein the first vertically oriented corrugated plate of the upper portion and the first vertically oriented corrugated plate of the lower portion are in antiphase. 8. The expansion joint according to claim 3, wherein the first dividing member of the upper portion and the first vertically oriented corrugated plate of the lower portion are secured to one another. 9. The expansion joint according to claim 8, wherein the first dividing member of the upper portion and the first vertically oriented corrugated plate of the lower portion are secured to one another through a binding member. 10. The expansion joint according to claim 3, wherein the upper portion further comprises a second dividing member, wherein the second dividing member is a second vertically oriented corrugated plate that fits within undulations of the first vertically oriented corrugated plate of the upper portion. 11. The expansion joint according to claim 10, wherein the first vertically oriented corrugated plate of the upper portion and the second vertically oriented corrugated plate of the upper portion are provisionally connected to one another. 12. The expansion joint according to claim 10, wherein the second vertically oriented corrugated plate of the lower portion is in substantially the same lateral plane as the second vertically oriented corrugated plate of the upper portion. 13. The expansion joint according to claim 10, wherein the second vertically oriented corrugated plate of the upper portion and the second vertically oriented corrugated plate of the lower portion are in antiphase. 14. The expansion joint according to claim 10, wherein the second vertically oriented corrugated plate of the upper portion and the second vertically oriented corrugated plate of the lower portion are secured to one another. 15. The expansion joint according to claim 14, wherein the second vertically oriented corrugated plate of the upper portion and the second vertically oriented corrugated plate of the lower portion are secured to one another through a binding member. 16. The expansion joint according to claim 10, wherein the first dividing member of the upper portion, the second dividing member of the upper portion, the first vertically oriented corrugated plate of the lower portion, and the second vertically oriented corrugated plate of the lower portion are formed of a substantially rigid material. 17. The expansion joint according to claim 10, wherein the first dividing member of the upper portion and the second dividing member of the upper portion are formed of a more wear resistant material compared to the first vertically oriented corrugated plate of the lower portion and the second vertically oriented corrugated plate of the lower portion. 18. The expansion joint according to claim 1, further comprising anchoring dowels. 19. The expansion joint according to claim 1, further comprising a continuous bridging dowel directly connected at regular intervals to an upper and lower portion of side faces of the expansion joint, wherein the continuous bridging dowel longitudinally extends and meanders over the full length of the expansion joint.