Busbar module

The invention claimed is: 1. A busbar module comprising: a busbar holding plate comprising: a busbar holding face for holding a busbar; and a bearing including a hole extending in an axial direction parallel to the busbar holding face and at least one wall to define the hole; and a busbar cover attached to the busbar holding plate for covering the busbar, wherein the busbar cover comprises two protrusions protruding toward each other in the axial direction at positions corresponding to the hole, the protrusions are opposed to each other with a gap less than a dimension of the hole in the axial direction, the protrusions are disposed in the hole of the bearing to rotate the busbar cover about the protrusions between a covering position to cover the busbar and an uncovering position to uncover the busbar, and the busbar cover is flexible to deform such that the gap between the protrusions expands in the axial direction to allow the at least one wall of the bearing to pass through the gap during attachment of the busbar cover to the busbar holding plate and restores an original shape of the busbar cover when passing of the at least one wall through the gap is complete. 2. The busbar module according to claim 1 , wherein flexibility of the busbar cover is defined such that a gap between edges of the protrusions the closest to each other expands equal to or larger than the dimension of the hole in the axial direction. 3. The busbar module according to claim 2 , wherein the busbar cover includes a top wall and side walls that extend from one of side edges of the top wall, the side walls are separated from each other in the axial direction, the protrusions are included in the side walls, respectively, and the top wall includes a cutout in a section of the one of side edges between the side walls. 4. The busbar module according to claim 1 , wherein the bearing comprises: a first vertical wall extending in a direction normal to the busbar holding face adjacent to the busbar; a first horizontal wall and a second horizontal wall extending from the vertical wall in a direction parallel to the busbar holding face and being separated from each other; and a second vertical wall connected between distal ends of the first horizontal wall and the second horizontal wall, and the hole is defined by the vertical wall, the first horizontal wall, the second horizontal wall, and the second vertical wall. 5. The busbar module according to claim 4 , wherein the first horizontal wall of the bearing has a rectangular frustum shape including a base closer to the busbar holding face, a top farther from the busbar holding face and smaller than the base, and bearing-side slopes between the top and the base and separated from each other in the axial direction, the busbar cover is attached to the busbar holding plate in the direction normal to the busbar holding face. 6. The busbar module according to claim 1 , wherein the protrusions include protrusion-side slopes that are opposed to each other and angled relative to the axial direction, the protrusion side slopes include first edges that are separated from each other in the axial direction with a first gap therebetween and second edges that are separated from each other in the axial direction with a second gap therebetween, the first gap is less than the dimension of the hole in the axial direction, and the second gap is greater than the first gap. 7. The busbar module according to claim 1 , wherein the busbar holding plate comprises: a first stopper contacting the busbar cover in the covering position to restrict the busbar cover from being removed from the busbar holding plate; and a second stopper contacting the bulbar cover in the uncovering position to restrict the busbar cover from being removed from the busbar holding plate. 8. The bulbar module according to claim 7 , wherein the bearing comprises: a first vertical wall extending in a direction normal to the busbar holding face adjacent to the busbar; a first horizontal wall and a second horizontal wall extending from the vertical wall in a direction parallel to the busbar holding face and being separated from each other; and a second vertical wall connected between distal ends of the first horizontal wall and the second horizontal wall, the second horizontal wall has a dimension in the axial direction greater than a dimension of the first horizontal wall in the axial direction, the first stopper includes the second horizontal wall, the first vertical wall has a dimension in the axial direction greater than a dimension of the second vertical wall in the axial direction, and the second stopper includes the first vertical wall. 9. The busbar module according to claim 1 , wherein the busbar cover includes a locking portion engaged with the busbar holding plate when the busbar cover is in the covering position, and the locking portion is located at another edge of the busbar cover opposite from the one of the edges at which the protrusions are provided. 10. The busbar module according to claim 1 , wherein the busbar cover includes an over rotation restriction portion that contacts the busbar holding plate when the busbar cover is in the uncovering position to restrict the busbar cover from rotating any further. 11. The busbar module according to claim 10 , wherein the over rotation restriction portion is configured such the busbar cover is rotatable with an angle of rotation equal to or greater than 90 degrees. 12. The busbar module according to claim 1 , wherein the busbar holding plate is made of material having rigidity greater than rigidity of material of the busbar cover.