Method of manufacturing lithium-ion secondary battery electrode sheet

The invention claimed is: 1. A method of manufacturing a lithium-ion secondary battery electrode sheet, comprising the steps of: preparing a current collector strip; preparing a powder material of granulated particles containing active material particles and a first binder; storing the powder material of the granulated particles in a container, preparing a binder solution containing a second binder in a solvent; coating the current collector with the binder solution; conveying the current collector coated with the binder solution; feeding, using a guide member that extends from at least from under a discharge port to a gap between an outer circumferential surface of a squeegee member and the current collector, the powder material of the granulated particles onto the current collector at a position between the outer circumferential surface of the squeegee member and the current collector, and shaping the powder material of the granulated particles fed on the current collector, by using the squeegee member; wherein a lower portion of the container has the discharge port covered by a mesh, and attached to the container is a brush rotator disposed above the mesh, wherein the discharge port is arranged above the conveyed current collector coated with the binder solution, and wherein in the step of feeding the powder material of the granulated particles, the powder material of the granulated particles is gradually fed from under the discharge port to the gap between the current collector and the squeegee member by the guide member arranged below the discharge port. 2. The method according to claim 1 , wherein: the guide member includes a guide surface, and wherein in the step of feeding the powder material of granulated particles, a height of the guide surface of the guide member gradually lowers from the discharge port toward the gap, and the powder material of the granulated particles is fed along the guide surface. 3. The method according to claim 1 , wherein an amount of the powder material passing through the discharge port is adjusted according to an amount of the powder material that has remained before the squeegee member. 4. The method according to claim 1 , wherein: the squeegee member is a cylindrical roller member and is disposed so that its outer circumferential surface faces the current collector; and the guide member guides the powder material of the granulated particles from under the discharge port to the gap between the roller member and the current collector. 5. The method according to claim 1 , wherein: in the step of feeding the powder material of granulated particles, when viewed from an upstream side of a conveying direction of the current collector, the powder material of the granulated particles is fed to the position located within 5 cm upstream from a position at which the gap between the current collector and the squeegee member is narrowest. 6. The method according to claim 5 , wherein: in the step of feeding the powder material of granulated particles, when viewed from an upstream side of a conveying direction of the current collector, the powder material of the granulated particles is fed to the position located within 3 cm upstream from a position at which the gap between the current collector and the squeegee member is narrowest. 7. The method according to claim 2 , wherein the powder material of the granulated particles is transferred from the discharge port toward the gap by vibrating the guide surface.