Case of structure

The invention claimed is: 1. A case of an automatic transmission in which a mechanical element including an oil pump configured to discharge oil, frictional engagement elements arranged at intervals in a first direction and a valve control unit configured to adjust a discharge pressure of the oil is stored, the case comprising: a wall surface portion which forms an outer surface of the case; and a skeleton portion which bulges inward and outward of the case from the wall surface portion, the skeleton portion being integrally formed with the wall surface portion, wherein the skeleton portion includes a first skeleton portion extending in the first direction and a second skeleton portion extending in a second direction so that the second skeleton portion intersects the first skeleton portion, the first skeleton portion having a first porous portion in which first holes are formed to extend in the first direction, and a first skin layer without the first holes, the first skin layer surrounding the first porous portion, wherein a cross-sectional area of each of the first holes is set in a cross-section intersecting the first direction so as to become larger from an outer circumferential surface of the first skeleton portion toward a center of the first skeleton portion, wherein at least one of the first holes forms a flow path through which the oil is supplied from the oil pump to the frictional engagement elements to drive the frictional engagement elements, wherein the second skeleton portion includes a second porous portion in which second holes are formed to extend in the second direction, and a second skin layer without the second holes, the second skin layer surrounding the second porous portion, and wherein at least one of the second holes forms another flow path for flowing the oil to be supplied from the oil pump to the frictional engagement elements through the valve control unit and the flow path. 2. A case of an automatic transmission in which a mechanical element including an oil pump configured to discharge oil, frictional engagement elements arranged at intervals in a first direction and a valve control unit configured to adjust a discharge pressure of the oil is stored, the case comprising: a wall surface portion which forms an outer surface of the case; and a skeleton portion which bulges inward and outward of the case from the wall surface portion, the skeleton portion being integrally formed with the wall surface portion, wherein the skeleton portion includes a first skeleton portion extending in the first direction and second skeleton portions extending in a second direction so that the second skeleton portions intersects the first skeleton portion, the first skeleton portion having a first porous portion in which first holes are formed to extend in the first direction, and a first skin layer without the first holes, the first skin layer surrounding the first porous portion, and wherein a cross-sectional area of each of the first holes is set in a cross-section intersecting the first direction so as to become larger from an outer circumferential surface of the first skeleton portion toward a center of the first skeleton portion, wherein at least one of the first holes forms a flow path through which the oil is supplied from the oil pump to the frictional engagement elements to drive the frictional engagement elements, wherein each of the second skeleton portions includes a second porous portion in which second holes are formed to extend in the second direction, and a second skin layer without the second holes, the second skin layer surrounding the second porous portion, wherein the frictional engagement elements are arranged in correspondence to the second skeleton portions, and wherein at least one of the second holes of each of the second skeleton portions forms another flow path for flowing the oil to be supplied from the oil pump to a corresponding frictional engagement element through the valve control unit and the flow path. 3. The case according to claim 2 , wherein the flow path formed by the first skeleton portion extends in the first direction above the frictional engagement elements, and wherein the flow path formed by each of the second skeleton portions extends upward from the valve control unit situated at a bottom portion of the case, the flow path formed by each of the second skeleton portions being connected to the corresponding frictional engagement element at a height position between the flow path extending in the first direction and the valve control unit.