Multi-axis soft hinge mechanism and foldable device having same

What is claimed is: 1. A hinge mechanism, comprising: a plurality of hinge beams each extending longitudinally, the plurality of hinge beams being arranged in a row; and at least one hinge track module, the at least one hinge track module movably coupling an adjacent pair of hinge beams of the plurality of hinge beams, the at least one hinge track module including: a track member including an arcuate slot formed therein, the arcuate slot having a first end and a second end, the track member being coupled to a first hinge beam of an adjacent pair of hinge beams such that track member moves together with the first hinge beam; a first hinge shaft member positioned at a first side of the track member, the first hinge shaft member being coupled to a second hinge beam of the adjacent pair of hinge beams such that the first hinge shaft member moves with the second hinge beam, the first hinge shaft member including a first hinge shaft inserted into and movably received into the arcuate slot from the first side of the track member to movably couple the first hinge shaft member and the track member; and a second hinge shaft member positioned at a second side of the track member, the second hinge shaft member being coupled to the second hinge beam of the adjacent pair of hinge beams such that the second hinge shaft member moves with the second hinge beam, the second hinge shaft member including a second hinge shaft inserted into and moveably received into the arcuate slot from the second side of the track member to movably couple the second hinge shaft member and the track member. 2. The hinge mechanism of claim 1 , wherein the first hinge shaft extends outward from a first end portion of a first body portion of the first hinge shaft member; and the second hinge shaft extends outward from a first end portion of a second body portion of the second hinge shaft member and into the arcuate slot of the track member. 3. The hinge mechanism of claim 1 , wherein, in a folded configuration of the hinge mechanism, the first hinge shaft abuts the first end of the arcuate slot formed in the track member, so as to restrict further sliding of the first hinge shaft in a first direction in the arcuate slot and a corresponding further folding motion of the hinge mechanism. 4. The hinge mechanism of claim 3 , wherein, in an unfolded configuration of the hinge mechanism, the first hinge shaft abuts the second end of the arcuate slot formed in the track member so as to restrict further sliding of the first hinge shaft in a second direction in the arcuate slot and a corresponding further unfolding motion of the hinge mechanism. 5. The hinge mechanism of claim 1 , wherein a contour of the arcuate slot in the track member guides a sliding movement of the first hinge shaft, from a position at the first end of the slot corresponding to a folded configuration of the hinge mechanism, and a position at the second end of the slot corresponding to an unfolded configuration of the hinge mechanism. 6. The hinge mechanism of claim 1 , wherein any pair of adjacent hinge beams is coupled by at least one hinge track module. 7. The hinge mechanism of claim 2 , further comprising: a protrusion extending outward from a second end portion of the first body portion of the first hinge shaft member; and an opening formed in a second end portion of the second body portion of the second hinge shaft member, wherein the protrusion is received in the opening. 8. The hinge mechanism of claim 1 , wherein the hinge mechanism is configured to be coupled in a computing device including a foldable display, at a portion of the computing device corresponding to a bendable section of the foldable display, with the at least one hinge track module comprising a plurality of hinge track modules, the hinge mechanism further comprising: a first hinge beam bracket at a first end of the plurality of hinge beams arranged in the row and configured to be coupled to a first housing of a computing device; and a second hinge beam bracket at a second end of the plurality of hinge beams arranged in the row and configured to be coupled to a second housing of the computing device. 9. The hinge mechanism of claim 8 , wherein the first hinge beam bracket and a hinge beam at the first end of the plurality of hinge beams arranged in the row are movably coupled by one of the plurality of hinge track modules; and the second hinge beam bracket and a hinge beam at the second end of the plurality of hinge beams arranged in the row are movably coupled by another of the plurality of hinge track modules. 10. The hinge mechanism of claim 8 , wherein the hinge mechanism is configured to rotate the first housing and the second housing between an unfolded configuration of the computing device and a folded configuration of the computing device. 11. The hinge mechanism of claim 1 , wherein at least one hinge beam of the plurality of hinge beams includes: a body extending longitudinally along a length of the at least one hinge beam; and a first wing extending outward from a first side of the body. 12. The hinge mechanism of claim 11 , wherein the at least one hinge beam of the plurality of hinge beams includes a second wing extending outward from a second side of the body, opposite the first side of the body. 13. The hinge mechanism of claim 12 , wherein the first and second wings have an arcuate contour corresponding to a contour of the first hinge shaft and a contour of the arcuate slot in the track member. 14. The hinge mechanism of claim 13 , wherein, in a folded configuration of the hinge mechanism, the first wing extends across a gap formed between the at least one hinge beam and an adjacent hinge beam positioned at the first side of the at least one hinge beam, and the second wing extends across a gap formed between the at least one hinge beam and an adjacent hinge beam positioned at the second side of the at least one hinge beam. 15. The hinge mechanism of claim 14 , wherein, in an unfolded configuration of the hinge mechanism, the first wing is received in a space formed between the body of the at least one hinge beam and the body of the adjacent hinge beam positioned at the first side of the at least one hinge beam, and the second wing is received in a space formed between the body of the at least one hinge beam and the body of the adjacent hinge beam positioned at the second side of the at least one hinge beam. 16. A foldable device, including: a housing having a first portion and a second portion; a foldable display coupled to the first and second portions of the housing, the foldable display including a bendable section; and a hinge mechanism positioned between the first portion and the second portion of the housing, at a position corresponding to the bendable section of the foldable display, the hinge mechanism including: a plurality of hinge beams each extending longitudinally, arranged in a row; and a plurality of hinge track modules movably coupling adjacent pairs of hinge beams of the plurality of hinge beams, each of the plurality of hinge track modules including: a track member coupled to a first hinge beam of the respective pair of hinge beams, the track member including an arcuate slot, the arcuate slot having a first end and a second end; a first hinge shaft member positioned at a first side of the track member and coupled to a second hinge beam of the respective pair of hinge beams, the first hinge shaft member including a first hinge shaft being slidably received in the arcuate slot from the first side of the track member to movably couple the first hinge sh