Capacitor module having intervening inward facing portion

What is claimed is: 1. A capacitor module comprising: a plurality of capacitors; a capacitor case in which the capacitors are disposed; and a sealing resin with which the capacitor case is filled to seal the capacitors, wherein the capacitor case has inward-facing portions which are formed by portions of an outer wall of the capacitor case and protrude inward between every adjacent two of the capacitors, wherein at least one of the inward-facing portions is an intervening inward-facing portion, and as viewed in a height-wise direction perpendicular both to a direction in which the inward-facing portions protrude and to a direction in which two of the capacitors adjacent each other across one of the inward-facing portions are aligned, the intervening inward-facing portion traverses a line segment passing through center points of the two adjacent capacitors, wherein the plurality of capacitors are all arranged in line, wherein at least two of the plurality of the capacitors are disposed in a first region and at least two others of the plurality of capacitors are disposed in a second region, the first region and the second region being located on the opposite sides of the intervening inward-facing portion, and wherein a same number of the capacitors are disposed in the first region as are disposed in the second region. 2. A capacitor module as set forth in claim 1 , wherein a heat generating member is disposed to face at least one of the two capacitors arranged adjacent each other across the intervening inward-facing portion. 3. A capacitor module as set forth in claim 1 , wherein the intervening inward-facing portion has a dimension which is more than or equal to half a dimension of the capacitor case in the direction in which the intervening inward-facing portion protrudes. 4. A capacitor module as set forth in claim 1 , wherein the capacitor case has a fastening portion which is disposed on an outer surface of the intervening inward-facing portion to fasten the capacitor module to a given member, and wherein the fastening portion has a contacting surface which is placed in contact with the given member. 5. A capacitor module as set forth in claim 4 , wherein the contacting surface is oriented to face in the height-wise direction, and wherein when facing downward in the height-wise direction, the contacting surface is located above centers of the capacitors in the height-wise direction. 6. A capacitor module as set forth in claim 4 , wherein the fastening portion has at least a portion made of a metallic member, wherein the contacting surface has at least a portion made of a surface of the metallic member. 7. A capacitor module as set forth in claim 4 , wherein the contacting surface faces in a direction opposite the intervening inward-facing portion. 8. A capacitor module as set forth in claim 1 , wherein the capacitor case is equipped with a heat dissipating fin disposed outside the intervening inward-facing portion.