초록 ▼

Bolt-on clamp extrusions for fastening a track to support base extrusion for providing customers with a simple-to-assemble, customizable, reconfigurable, and user-friendly solution for reliable linear motion track assembly. A back-to-back track configuration provides a low-profile track assembly. Cu

Bolt-on clamp extrusions for fastening a track to support base extrusion for providing customers with a simple-to-assemble, customizable, reconfigurable, and user-friendly solution for reliable linear motion track assembly. A back-to-back track configuration provides a low-profile track assembly. Custom made base extrusions include deformable fingers disposed in the slot to ensure proper fit despite a variance in track size.

대표청구항 ▼

1. A system, comprising: a linear motion guide track comprising an axial member;a support base extrusion comprising at least one T-shaped slot disposed therein that extends inward from an opening in an outer surface of the support base extrusion to define a core, wherein the opening is more narrow t

1. A system, comprising: a linear motion guide track comprising an axial member;a support base extrusion comprising at least one T-shaped slot disposed therein that extends inward from an opening in an outer surface of the support base extrusion to define a core, wherein the opening is more narrow than the core;an elongated integral clamp member that comprises a lower surface, an upper surface opposite the lower surface, a first end, and a second end opposite the first end,a connected end that is located at the first end and extends from the lower surface to the upper surface,a first arm that extends from the connected end to the second end, wherein the first arm defines a bolt down region of the lower surface that extends from the first end, and a corresponding clamping region that extends from the bolt down region to the second end, anda second arm that extends from the connected end to the second end, wherein the second arm defines the upper surface that extends from the first end to a corresponding clamping region at the second end,wherein a gap is defined between the first arm and the second arm, wherein the gap extends from the second end to the connected end, and wherein the gap is configured to accept the linear motion guide track,wherein the first arm and the second arm are disposed in substantially parallel planes within the corresponding clamping region,wherein each of the arms further comprise a plurality of corresponding conduits that extend from the upper surface to the lower surface, wherein the plurality of corresponding conduits are normal to the lower surface and to the parallel planes, wherein the plurality of conduits line up relative to each of the arms through the gap, and wherein the plurality of conduits are located along the length of the elongated integral clamp member; anda plurality of bolts inserted through at least two of the plurality of conduits, some of the corresponding conduits such that each of the bolts extend through the gap and are threaded into corresponding ones of the plurality of nuts, wherein threading of the at least two bolts to the corresponding nuts results in a clamping force that is resisted by the nuts, thereby securing the bolt down surface of the elongated clamp member against the outer surface of the support base extrusion, and causing the gap to narrow, thereby causing the elongated integral clamp member to clamp onto the linear motion guide track. 2. The system of claim 1, wherein a cross section of the linear motion guide track has a coupling end comprising a substantially rectangular shape and an effective end opposite the coupling end, wherein the effective end comprises a substantially triangular shape for coupling with a guide wheel having a substantially v-shaped interface, wherein the linear motion guide track is configured to geometrically mate with the guide wheel. 3. The system of claim 1, wherein the elongated integral clamp member further comprises a raised area groove that extends from the bolt down region of the lower surface, wherein the raised area groove is alignable with either side of the either side of the T-shaped slot to ensure parallelism between the elongated integral clamp member and the support base extrusion. 4. The system of claim 1, further comprising: a beam extrusion having at least one T-shaped slot disposed therein that extends inward from an opening in the beam extrusion to define a core, wherein the opening is more narrow than the core; andat least one guide wheel assembly, wherein each of the at least one guide wheel assemblies comprise a track bar that is slidably inserted with the T-shaped slot of the beam extrusion, anda guide wheel that is rotatably coupled to the track bar;wherein the guide wheel is configured to geometrically couple with the linear motion guide track;wherein the beam extrusion is linearly movable over the axial distance of the linear motion guide track. 5. The system of claim 4, further comprising a braking mechanism coupled to the beam extrusion, wherein the braking mechanism is configured to resist the linear motion of the beam extrusion on the linear motion guide track. 6. The system of claim 1, wherein the first arm and the second arm of the elongated integral clamp member terminate with corresponding clamping fingers at the second end. 7. The system of claim 1, wherein the elongated integral clamp member is formed by extrusion. 8. The system of claim 1, wherein the elongated integral clamp member is formed by metal injection molding. 9. A method, comprising the steps of: providing a support base extrusion having an outer surface, and at least one T-shaped slot disposed therein that extends inward from an opening in the outer surface to define a core, wherein the opening is more narrow than the core;providing an elongated integral clamp member that comprises a lower surface, an upper surface opposite the lower surface, a first end, and a second end opposite the first end,a connected end that is located at the first end and extends from the lower surface to the upper surface,a first arm that extends from the connected end to the second end, wherein the first arm defines a bolt down region of the lower surface that extends from the first end, and a corresponding clamping region that extends from the bolt down region to the second end, anda second arm that extends from the connected end to the second end, wherein the second arm defines the upper surface that extends from the first end to a corresponding clamping region at the second end,wherein a gap is defined between the first arm and the second arm, wherein the gap extends from the second end to the connected end, and wherein the gap is configured to accept the linear motion guide track,wherein the first arm and the second arm are disposed in substantially parallel planes within the corresponding clamping region,wherein each of the arms further comprise a plurality of corresponding conduits that extend from the upper surface to the lower surface, wherein the plurality of corresponding conduits are normal to the lower surface and to the parallel planes, wherein the plurality of conduits line up relative to each of the arms through the gap, and wherein the plurality of conduits are located along the length of the elongated integral clamp member;inserting a plurality of nuts into the T-shaped slot, wherein the plurality of nuts are configured to resist an application of a force from the core of the slot outward toward the slot opening;aligning the elongated integral clamp member with the T-shaped slot;inserting a linear motion guide track into the gap;inserting a plurality of bolts through the plurality of conduits and into the plurality of nuts; andtightening the plurality of bolts, thereby causing a clamping force that is resisted by the nuts, thereby securing the bolt down surface of the elongated clamp member against the outer surface of the support base extrusion, and causing the gap to narrow, wherein the linear motion guide track is clamped between the first arm and the second arm. 10. The method of claim 9, further comprising the steps of: providing a beam extrusion having at least one T-shaped beam slot disposed therein that extends inward from an opening in the beam extrusion to define a core, wherein the opening more narrow than the core;providing at least one guide wheel assembly, wherein each of the at least one guide wheel assemblies comprise a track bar that is slidably inserted with the T-shaped slot of the beam extrusion, anda guide wheel that is rotatably coupled to the track bar; andgeometrically coupling the guide wheel with the linear motion guide track, wherein the beam extrusion is linearly movable over the axial distance of the linear motion guide track said. 11. The method of claim 9, wherein the elongated integral clamp member further comprises a raised area groove that extends from the bolt down region of the lower surface, and wherein the step of aligning the elongated integral clamp member to the T-shaped slot comprises aligning the raised area groove to either side of the T-shaped slot. 12. The method of claim 9, wherein the elongated integral clamp member is formed by extrusion. 13. The method of claim 9, wherein the elongated integral clamp member is formed by metal injection molding.