High-pressure hydrogen container

The invention claimed is: 1. A high-pressure hydrogen container comprising: a cylinder body made of metal and configured to store high-pressure hydrogen; and a lid member that closes an end portion of the cylinder body, wherein the cylinder body includes a joining portion that fixes the lid member to the end portion of the cylinder body in a direction along a center axis of the cylinder body, a cylinder portion that forms an outer shell of a storage portion configured to store high-pressure hydrogen, and a sealing surface located between the joining portion and the cylinder portion in the direction along the center axis, and formed at an inner surface of the cylinder body, wherein the lid member includes a sealing portion that abuts the sealing surface of the cylinder body, and a fixation portion fixed to the joining portion of the cylinder body, wherein an area of the sealing surface which the sealing portion abuts is an abutting area, wherein a clearance portion is formed between the cylinder body and the lid member, the clearance portion being located between the joining portion and the abutting area, the cylinder body being separate from the lid member at the clearance portion, and wherein at least H<L is satisfied, where H is a thickness from the abutting area to an outer surface of the cylinder body, and a portion of the clearance portion in which the cylinder body is furthest from the lid member, in which a stress greater than or equal to a predetermined stress σ is generated, is a stress generation portion, and L is a distance between the abutting area and the stress generation portion being closest to the abutting area. 2. The high-pressure hydrogen container of claim 1 , wherein the lid member includes a first member and a second member, the first member including the sealing portion, adjoining the cylinder portion, and having an outside diameter smaller than an inside diameter of the sealing surface, the second member including the fixation portion. 3. The high-pressure hydrogen container of claim 1 , wherein the lid member includes a first member and a second member, the first member including the sealing portion, adjoining the cylinder portion, and being made of austenitic stainless steel, the second member including the fixation portion. 4. The high-pressure hydrogen container of claim 1 , wherein the joining portion is a female thread portion formed at an inner circumferential surface of an end portion of the cylinder body, the fixation portion is a male thread portion formed at the lid member, and the joining portion and the fixation portion are engaged with each other. 5. The high-pressure hydrogen container of claim 1 , wherein the sealing portion is an O-ring attached to the lid member. 6. The high-pressure hydrogen container of claim 1 , wherein the stress σ is one-third of a tensile strength of metal material of which the cylinder body is formed, in a use state in which the cylinder portion is filled with high-pressure hydrogen. 7. The high-pressure hydrogen container of claim 1 , wherein the stress σ is a fatigue limit stress of metal material of which the cylinder body is formed, in a use state in which the cylinder portion is filled with high-pressure hydrogen. 8. The high-pressure hydrogen container of claim 1 , wherein the stress σ is a hydrostatic stress. 9. The high-pressure hydrogen container of claim 1 , wherein the relationship between the thickness H and the distance L can be expressed by H=K·L, where K is a coefficient that varies depending on at least a hydrogen concentration in the storage portion and a hydrostatic stress generated in the cylinder body, and the coefficient K is less than 1.0 (K<1.0). 10. The high-pressure hydrogen container of claim 1 , wherein the cylinder body is made of low-alloy steel. 11. The high-pressure hydrogen container of claim 1 , wherein the cylinder body includes two inclined surfaces at the clearance portion and the stress generation portion is positioned between the two inclined surfaces.