Low heat loss cryogenic fluid storage equipment using multilayered cylindrical support

What is claimed is: 1 . A cryogenic fluid storage device, comprising: an internal container for storing a cryogenic liquid; an external container at least partially surrounding the internal container; a cover enclosing an upper end of the external container and configured to maintain a vacuum around the inner container; a transferring tube connected to the internal container to supply and/or extract the cryogenic liquid to/from the internal container; a support structure coupled to both the cover and the internal container such that the internal container is suspended within the external container via the support structure; wherein the support structure comprises: an inner cylindrical body coupled to the internal container and surrounding at least a portion of the internal container; an adjacent cylindrical body coupled to the inner cylindrical body; an outer cylindrical body coupled to the adjacent cylindrical body; and a plurality of coupling members disposed between the inner and adjacent cylindrical bodies and the adjacent and outer cylindrical bodies, respectively. 2 . The cryogenic fluid storage device of claim 1 , wherein the inner, adjacent, and outer cylindrical bodies are spaced apart from one another. 3 . The cryogenic fluid storage device of claim 1 , wherein at least two of the plurality of coupling members are disposed between the cylindrical bodies in different locations along a longitudinal axis of the internal container, relative to one another. 4 . The cryogenic fluid storage device of claim 3 , wherein the plurality of coupling members are disposed between the cylindrical bodies in an alternating pattern. 5 . The cryogenic fluid storage device of claim 4 , wherein the plurality of coupling members are disposed between the cylindrical bodies in a zigzag pattern. 5 . The cryogenic fluid storage device of claim 5 , wherein coupling members of a first group of the plurality of coupling members are arranged at angular increments of 120° with respect to the longitudinal axis. 6 . The cryogenic fluid storage device of claim 1 , wherein the plurality of coupling members comprise a low heat-conductive material and/or GREL (glass reinforced epoxy laminate) material. 7 . The cryogenic fluid storage device of claim 1 , wherein at least one cylindrical body comprises at least one hole through which at least one of the plurality of coupling members may be inserted to operatively couple the coupling member to at least one cylindrical body. 8 . The cryogenic fluid storage device of claim 7 , wherein at least two cylindrical bodies comprise at least one hole each, located such that at least one of the plurality of coupling members may be inserted through both of the at least one holes in order to couple the at least two cylindrical bodies to one another. 9 . The cryogenic fluid storage device of claim 7 , wherein the at least one hole is formed in the shape of a rectangle, and wherein the at least one coupling member is shaped to fit within the at least one hole. 10 . The cryogenic fluid storage device of claim 1 , wherein at least one cylindrical body comprises a heat insulating material attached to a surface of the at least one cylindrical body. 11 . The cryogenic fluid storage device of claim 1 , wherein the internal container comprises: a neck portion, through which the transferring tube passes; and a plurality of blocking plates disposed within the neck portion and arranged perpendicular to a longitudinal axis of the internal container, the plurality of blocking plates being spaced apart from one another, wherein the transferring tube passes through each of the plurality of blocking plates. 12 . The cryogenic fluid storage device of claim 1 , wherein the plurality of blocking plates comprise a low heat-conductive material and/or GREL material. 13 . A thermal insulating structure, comprising: an inner cylindrical body having a heat insulating material attached to a surface of the inner cylindrical body; an adjacent cylindrical body having a heat insulating material attached to a surface of the adjacent cylindrical body, the adjacent cylindrical body being spaced apart from and surrounding the inner cylindrical body; an outer cylindrical body having a heat insulating material attached to a surface of the outer cylindrical body, the outer cylindrical body being spaced apart from and surrounding the adjacent cylindrical body; a first set of coupling members disposed between the inner and adjacent cylindrical bodies and coupling said cylindrical bodies to one another; a second set of coupling members disposed between the adjacent and outer cylindrical bodies and coupling said cylindrical bodies to one another; wherein the first and second sets of coupling members comprise a low heat-conductive material and/or GREL material. 14 . The thermal insulating structure of claim 13 , wherein the plurality of coupling members are disposed between the cylindrical bodies in an alternating pattern. 15 . The thermal insulating structure of claim 13 , wherein the inner, adjacent, and outer cylindrical bodies comprise at least one hole each, the holes shaped to accept one coupling member. 16 . The thermal insulating structure of claim 15 , wherein the holes of the cylindrical bodies are aligned such that one coupling member may be inserted through corresponding holes of cylindrical bodies. 17 . The thermal insulating structure of claim 13 , wherein said structure is shaped to fit around a cryogenic fluid storage device. 18 . The thermal insulating structure of claim 13 , wherein said structure is configured to operatively couple an internal container to an external container. 19 . The thermal insulating structure of claim 18 , wherein the inner cylindrical body is operatively coupled to the internal container and the outer cylindrical body is operatively coupled to the external container. 20 . The thermal insulating structure of claim 18 , wherein the inner cylindrical body is operatively coupled to the internal container and the outer cylindrical body is operatively coupled to a lid enclosing the internal container.