Gas insulated bus

The invention claimed is: 1. A gas insulated bus comprising: a first cylinder-shaped metallic container filled with an insulating gas and an axis line of whose main body extends in a first direction; a first main circuit conductor provided extending parallel to the first direction in the first metallic container and the outline of whose cross-section is circular; a second cylinder-shaped metallic container filled with the insulating gas and an axis line of whose main body extends in a second direction crossing the first direction, an end of the second metallic container being connected with an end of the first metallic container; a second main circuit conductor provided extending parallel to the second direction in the second metallic container and electrically connected to the first main circuit conductor inside the end of the first metallic container and the outline of whose cross-section is circular; an insulating spacer of a single-leg structure provided inside the end of the first metallic container and whose one end is fixed to the first metallic container and an other end of which is indirectly attached to a connection portion of the first main circuit conductor and the second main circuit conductor, the insulating spacer supporting and insulating the connection portion inside the first metallic container; and a metal-made shield attached to the other end of the insulating spacer and provided with a first opening proximate the first main circuit conductor and open in the first direction, and provided with a second opening proximate the second main circuit conductor and open in the second direction, the shield covering the connection portion, the shield being substantially in a barrel or spindle shape having an outside diameter greater than the outside diameter of the first main circuit conductor and the second main circuit conductor, wherein the end of the first metallic container is provided with a main-circuit branch tube to be connected with the end of the second metallic container, and an axis line of the main-circuit branch tube is substantially parallel to the second direction, wherein a direction of the axis line of the main-circuit branch tube is substantially orthogonal to the first direction, and wherein a recess is formed in part of the outer surface of the shield, a bottom of the recess is provided on the axis line of the main body extending in the first direction, the insulating spacer is provided on the axis line of the main body extending in the first direction, an embedded electrode on the metallic container side is embedded in the one end of the insulating spacer, and at least part of the embedded electrode on the metallic container side is placed outside an area defined by the inside diameter of the main-circuit branch tube in a plan view viewed in the second direction. 2. The gas insulated bus according to claim 1 , wherein the insulating spacer is placed with an axis line thereof being substantially parallel to the first direction. 3. The gas insulated bus according to claim 2 , wherein the insulating spacer and the shield are, in size, within an area defined by the inside diameter of the main body of the first metallic container in a plan view viewed in the first direction. 4. The gas insulated bus according to claim 1 , wherein the inside diameter of the main-circuit branch tube is smaller than or equal to the inside diameter of the main body of the first metallic container. 5. The gas insulated bus according to claim 1 , wherein one phase worth of the first and second main circuit conductors are respectively housed in the first and second metallic containers, and wherein the inside diameter of the main body of the first metallic container or the inside diameter of the main-circuit branch tube, multiplied by 1/e, where e is the base of natural logarithm, is greater than the outside diameter of the first main circuit conductor and smaller than the maximum outside diameter of the shield. 6. The gas insulated bus according to claim 1 , wherein a bottom branch tube is provided on the bottom of the main body of the first metallic container and branches off downward at a position apart from the end of the first metallic container along the first direction than the position of the main-circuit branch tube. 7. The gas insulated bus according to claim 6 , wherein three phases of the first main circuit conductors and second main circuit conductors are respectively housed as one entity in the first and second metallic containers. 8. The gas insulated bus according to claim 7 , wherein either of the arrangements of three phases of the first main circuit conductors and second main circuit conductors in the first and second metallic containers forms an equilateral triangle. 9. The gas insulated bus according to claim 1 , wherein an embedded electrode on the shield side is embedded in the other end of the insulating spacer; the other end of the insulating spacer is attached to the shield at the recess; and at least part of the embedded electrode on the shield side is placed in the recess. 10. The gas insulated bus according to claim 1 , wherein the end of the first main circuit conductor is inserted into the shield through the first opening; the end of the second main circuit conductor is inserted into the shield through the second opening; the end of the first main circuit conductor is connected with a first contact maker slidable along the first direction in the shield; and the end of the second main circuit conductor is connected with a second contact maker slidable along the second direction in the shield. 11. The gas insulated bus according to claim 10 , wherein an adaptor conductor that has a first arm extending in the first direction and a second arm extending in the second direction and that is fixed to the other end of the insulating spacer via the shield, is placed inside the shield; the end of the first main circuit conductor and the first arm are connected by the first contact maker; and the end of the second main circuit conductor and the second arm are connected by the second contact maker. 12. The gas insulated bus according to claim 10 , wherein the outside diameter of the end of the first main circuit conductor to be connected with the first contact maker is smaller than the outside diameter of part other than the end of the first main circuit conductor, and wherein the outside diameter of the end of the second main circuit conductor to be connected with the second contact maker is smaller than the outside diameter of part other than the end of the second main circuit conductor. 13. The gas insulated bus according to claim 10 , wherein the diameter of the first opening is greater than the outside diameter of the first main circuit conductor, and wherein the diameter of the second opening is greater than the outside diameter of the second main circuit conductor.