Heat insulating vessel for low temperature liquefied gas pump

The invention claimed is: 1. A heat insulating vessel for a low temperature liquefied gas pump, comprising an inner tank having a vertical axis and configured to accommodate low temperature liquefied gas; an outer tank provided externally around the inner tank; and a low temperature liquefied gas pump disposed inside the inner tank; wherein the outer tank has an outer tank upper part that is an upper end side portion thereof, and an outer tank main body other than the outer tank upper part; a lid structure having a heat-insulated structure detachably fitted into an upper part of the inner tank is provided; the heat insulating vessel comprises: a first fastening part configured to fasten with bolts a first flange provided to upper ends of the inner tank and the outer tank upper part to a second flange provided to an outer circumferential part of the lid structure, and a second fastening part configured to fasten with bolts a third flange provided to an upper end of the outer tank main body to a fourth flange provided to a lower end of the outer tank upper part; a vacuum insulating layer is formed between the inner tank and the outer tank; and at least one of laminated heat insulating material and pearlite is provided inside the lid structure and a vacuum layer is formed inside the lid structure. 2. The heat insulating vessel of claim 1 , wherein a vacuum-pump port is formed in the outer tank upper part. 3. The heat insulating vessel of claim 1 , wherein one of a pressure detecting pipe and a drain pipe penetratedly fixed to the outer tank upper part is provided. 4. The heat insulating vessel of claim 1 , wherein the pump is fixed to the lid structure through a pump supporting mechanism. 5. The heat insulating vessel of claim 4 , wherein the pump supporting mechanism includes: a plurality of first guide members fixed to an inner surface of the inner tank and each having a vertical first guide groove; a plurality of first bar-like members slidably attached to the first guide grooves of the plurality of first guide members, upper ends of the first bar-like members being coupled to the lid structure; and a plurality of coupling members coupling the pump to the plurality of first bar-like members. 6. The heat insulating vessel of claim 1 , wherein a position regulating mechanism configured to regulate the position of the inner tank is provided so that the inner tank does not move in a direction perpendicular to the axis of the inner tank with respect to the outer tank, the position regulating mechanism including: a plurality of second guide members fixed to one of an inner surface of the outer tank and an outer surface of the inner tank, and each having a vertical second guide groove, and a plurality of engagement coupling members each fixed to one of the outer surface of the inner tank and the inner surface of the outer tank, and each having an engaging part slidably engaged with the second guide groove of each of the plurality of second guide members. 7. The heat insulating vessel of claim 1 , wherein the vacuum insulating layer is filled up with one of laminated heat insulating material and pearlite. 8. The heat insulating vessel of claim 1 , wherein a synthetic resin foamed body is provided inside the lid structure. 9. The heat insulating vessel of claim 6 , wherein at least one of the second guide member and the engagement coupling member is made of fiber-reinforced synthetic resin. 10. A heat insulating vessel for a low temperature liquefied gas pump, comprising an inner tank having a vertical axis and configured to accommodate low temperature liquefied gas; an outer tank provided externally around the inner tank; and a low temperature liquefied gas pump disposed inside the inner tank; wherein the outer tank has an outer tank upper part that is an upper end side portion thereof, and an outer tank main body other than the outer tank upper part; a lid structure having a heat-insulated structure detachably fitted into an upper part of the inner tank is provided; the heat insulating vessel comprises: a first fastening part configured to fasten with bolts a first flange provided to upper ends of the inner tank and the outer tank upper part to a second flange provided to an outer circumferential part of the lid structure, and a second fastening part configured to fasten with bolts a third flange provided to an upper end of the outer tank main body to a fourth flange provided to a lower end of the outer tank upper part; a vacuum insulating layer is formed between the inner tank and the outer tank; and the pump is fixed to the lid structure through a pump supporting mechanism that includes: a plurality of first guide members fixed to an inner surface of the inner tank and each having a vertical first guide groove, a plurality of first bar-like members slidably attached to the first guide grooves of the plurality of first guide members, upper ends of the first bar-like members being coupled to the lid structure, and a plurality of coupling members coupling the pump to the plurality of first bar-like members. 11. A heat insulating vessel for a low temperature liquefied gas pump, comprising an inner tank having a vertical axis and configured to accommodate low temperature liquefied gas; an outer tank provided externally around the inner tank; and a low temperature liquefied gas pump disposed inside the inner tank; wherein the outer tank has an outer tank upper part that is an upper end side portion thereof, and an outer tank main body other than the outer tank upper part; a lid structure having a heat-insulated structure detachably fitted into an upper part of the inner tank is provided; the heat insulating vessel comprises: a first fastening part configured to fasten with bolts a first flange provided to upper ends of the inner tank and the outer tank upper part to a second flange provided to an outer circumferential part of the lid structure, and a second fastening part configured to fasten with bolts a third flange provided to an upper end of the outer tank main body to a fourth flange provided to a lower end of the outer tank upper part; a vacuum insulating layer is formed between the inner tank and the outer tank; and a position regulating mechanism configured to regulate the position of the inner tank is provided so that the inner tank does not move in a direction perpendicular to the axis of the inner tank with respect to the outer tank, the position regulating mechanism including: a plurality of second guide members fixed to one of an inner surface of the outer tank and an outer surface of the inner tank, and each having a vertical second guide groove, and a plurality of engagement coupling members each fixed to one of the outer surface of the inner tank and the inner surface of the outer tank, and each having an engaging part slidably engaged with the second guide groove of each of the plurality of second guide members. 12. The heat insulating vessel of claim 11 , wherein at least one of the second guide member and the engagement coupling member is made of fiber-reinforced synthetic resin.