There is provided a stand for a display device. The stand includes a base unit supporting the display device. A main link unit is hinged between the display device and the base unit. A pair of auxiliary links is eccentrically connected to hinges of the main link unit at different positions. A torsio
There is provided a stand for a display device. The stand includes a base unit supporting the display device. A main link unit is hinged between the display device and the base unit. A pair of auxiliary links is eccentrically connected to hinges of the main link unit at different positions. A torsion spring includes at least one end connected to the pair of auxiliary links for applying an elastic force to the pair of auxiliary links. The main link unit has a smaller thickness, and thus the size of the stand can be reduced. The stand allows for convenient and smooth operation of the display device. Further, since the spring has a simple structure, the stand can be manufactured through a simple process with less cost. Furthermore, the outer appearance of the stand can be simple.
대표청구항▼
What is claimed is: 1. A stand for a display device, comprising: a base unit for supporting the display device; a main link unit hinged to the base unit; a pair of auxiliary links eccentrically connected to hinges of the main link unit at different positions; and a torsion spring including at least
What is claimed is: 1. A stand for a display device, comprising: a base unit for supporting the display device; a main link unit hinged to the base unit; a pair of auxiliary links eccentrically connected to hinges of the main link unit at different positions; and a torsion spring including at least one end connected to the pair of auxiliary links for applying an elastic force to the pair of auxiliary links, wherein the torsion spring comprises a center portion guided by the main link unit. 2. The stand according to claim 1, wherein the torsion spring comprises two ends connected to the pair of auxiliary links, respectively. 3. The stand according to claim 1, wherein one of the pair of auxiliary links comprises a spring guide portion for guiding one end of the torsion spring, and the other of the pair of auxiliary links comprises another spring guide portion for guiding the other end of the torsion spring. 4. The stand according to claim 1, wherein the main link unit comprises a spring fixing protrusion for guiding the center portion of the torsion spring extending from a side of the pair of auxiliary links. 5. The stand according to claim 1, wherein the torsion spring comprises a center hole for fixing a position of the torsion spring with respect to the main link unit. 6. The stand according to claim 1, wherein the end of the torsion spring exert a force on one of the pair of auxiliary links while being guided by the other of the pair of auxiliary link. 7. The stand according to claim 1, wherein the main link unit comprises a spring operation region recessed based on a deformation trace of the torsion spring. 8. The stand according to claim 1, wherein the main link unit comprises a spring mount for determining a compression limit of the torsion spring. 9. A stand for a display device, comprising: a base unit placed on a floor; a main link unit including a first hinge connected to the display device and a second hinge connected to the base unit; a pair of auxiliary links eccentrically connected to the first hinge and the second hinge at different positions, the pair of auxiliary links changing in relative positions thereof when the main link unit rotates; and a spring applying a force to change the relative positions of the pair of auxiliary links, wherein the spring includes at least one end connected to the pair of auxiliary links and moveable with the pair of auxiliary links, and a body fixedly located with respect to the main link unit. 10. The stand according to claim 9, wherein the spring is a torsion spring. 11. The stand according to claim 9, wherein the main link unit comprises a spring fixing protrusion for keeping the spring at a fixed position with respect to the main link unit. 12. The stand according to claim 9, wherein the end of the spring is supported by the main link unit. 13. The stand according to claim 9, wherein the spring is a wire forming spring. 14. The stand according to claim 9, wherein the main link unit comprises a cover for covering a portion of the main link unit where the spring is placed. 15. The stand according to claim 9, wherein the spring extends in a direction perpendicular to an extending direction of the pair of auxiliary links. 16. A stand for a display device, comprising: a base unit placed on a floor; a main link unit including a first hinge connected to the display device and a second hinge connected to the base unit; a pair of auxiliary links eccentrically connected to the first hinge and the second hinge at different positions, the pair of auxiliary links changing in relative positions thereof when the main link unit rotates; and a spring having at least one end that is connected to the pair of auxiliary links and movable with the pair of auxiliary links, for changing the relative positions of the pair of auxiliary links, wherein the spring includes at least one arm extending in a direction substantially crossing a lengthwise direction of the pair of auxiliary links. 17. The stand according to claim 16, wherein the spring is supported by a protrusion formed on the main link unit. 18. The stand according to claim 17, wherein the spring is wound around the protrusion two or more times. 19. The stand according to claim 16, wherein the arm of the spring extends toward the main link unit. 20. The stand according to claim 16, wherein the spring comprises two arms supported by the pair of auxiliary links and a center portion supported by the main link unit. 21. The stand according to claim 16, wherein the arm of the spring is supported by the main link unit. 22. The stand according to claim 16, wherein the spring is a torsion spring. 23. The stand according to claim 16, wherein the spring is a wire forming spring. 24. A stand for a display device, comprising: a base unit for supporting the display device; a main link unit hinged to the base unit; a pair of auxiliary links eccentrically connected to hinges of the main link unit at different positions; and a torsion spring including at least one end connected to the pair of auxiliary links for applying an elastic force to the pair of auxiliary links, wherein one of the pair of auxiliary links comprises a spring guide portion for slidably guiding one end of the torsion spring, and the other of the pair of auxiliary links comprises another spring guide portion for slidably guiding the other end of the torsion spring, wherein the torsion spring comprises a center portion guided by the main link unit. 25. The stand according to claim 24, wherein the main link unit comprises a spring fixing protrusion for guiding a center portion of the torsion spring extending from a side of the pair of auxiliary links. 26. The stand according to claim 24, wherein the torsion spring comprises a center hole for fixing a position of the torsion spring with respect to the main link unit.
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