Roll member, coating device, separator production device, and secondary battery production device

1 . A method for producing separator using a separator production device for producing a separator in which a heat-resistant layer is laminated over a substrate, the separator production device comprising: a coating device for coating a film member with a coating liquid, the coating device comprising: a roll member rotatably arranged around a central axis, the roll member having an outer circumferential surface in which a plurality of grooves are formed, wherein the plurality of grooves are arranged at an angle relative to a direction parallel to a central axis of the roll member; in the outer circumferential surface of the roll member, there are provided a processing region where the plurality of grooves are formed and a non-processing region where the plurality of grooves are not formed; a plurality of rows of the processing region and a plurality of rows of the non-processing region are arranged alternately along the direction parallel to the central axis; the plurality of rows of the non-processing region is arranged at a direction orthogonal to the direction parallel to the central axis; the processing region has a first processing region provided in one end portion in a width direction of the processing region parallel to the central axis, a second processing region provided in the other end portion in the width direction of the processing region, and a third processing region that is a processing region other than the first and second processing regions; grooves in the third processing region are even in depth; grooves in the first processing region are smaller in depth than the grooves in the third processing region; the depth of the grooves in the first processing region gradually decreases as the distance from the one end portion in the width direction of the processing region decreases; grooves in the second processing region are smaller in depth than the grooves in the third processing region; the depth of the grooves in the second processing region gradually decreases as the distance from the other end portion in the width direction of the processing region decreases; and a first length that is the length of the first processing region in the direction parallel to the central axis is different from a second length that is the length of the second processing region in the direction parallel to the central axis; a supplier for supplying the coating liquid to an outer circumferential surface of the roll member; and a blade member for scraping a surplus of the coating liquid that has attached to the outer circumferential surface of the roll member, wherein the blade member is configured to come into contact with the processing region and the non-processing region of the roll member, thereby scraping a surplus of the coating liquid that has attached to the processing region, and further scraping the coating liquid that has attached to the non-processing region to remove the whole of the coating liquid in the non-processing region; and a drying device for drying a coating liquid containing a material for forming the heat-resistant layer and transferred to a film member that is to become the substrate with the coating device. 2 . The method for producing a separator according to claim 1 , wherein a tip portion of the blade member, the tip portion being to come into contact with the roll member, is in the form of a straight line parallel to the central axis. 3 . The method for producing a separator according to claim 1 , wherein the blade member is smaller in elastic modulus than the roll member. 4 . The method for producing a separator according to claim 3 , wherein the roll member is made of a metallic material, and the blade member is made of a resin material. 5 . The method for producing a separator according to claim 1 , wherein the roll member satisfies the following expression (1): 50/3≦( L/d )≦1000/3  (1) wherein d represents the depth of a groove formed in the first processing region and located farthest away from the one end portion of the first processing region, and L represents the length of the first processing region in the direction parallel to the central axis. 6 . A method for producing a secondary battery using a secondary battery production device for producing a secondary battery comprising a positive electrode plate, a negative electrode plate, and a pair of separators that sandwich the positive electrode plate or the negative electrode plate therebetween, the secondary battery production device comprising: a separator production device comprising: a coating device for coating a film member with a coating liquid, the coating device comprising: a roll member rotatably arranged around a central axis, the roll member having an outer circumferential surface in which a plurality of grooves are formed, wherein the plurality of grooves are arranged at an angle relative to a direction parallel to a central axis of the roll member; in the outer circumferential surface of the roll member, there are provided a processing region where the plurality of grooves are formed and a non-processing region where the plurality of grooves are not formed; a plurality of rows of the processing region and a plurality of rows of the non-processing region are arranged alternately along the direction parallel to the central axis; the plurality of rows of the non-processing region is arranged at a direction orthogonal to the direction parallel to the central axis; the processing region has a first processing region provided in one end portion in a width direction of the processing region parallel to the central axis, a second processing region provided in the other end portion in the width direction of the processing region, and a third processing region that is a processing region other than the first and second processing regions; grooves in the third processing region are even in depth; grooves in the first processing region are smaller in depth than the grooves in the third processing region; the depth of the grooves in the first processing region gradually decreases as the distance from the one end portion in the width direction of the processing region decreases; grooves in the second processing region are smaller in depth than the grooves in the third processing region; the depth of the grooves in the second processing region gradually decreases as the distance from the other end portion in the width direction of the processing region decreases; and a first length that is the length of the first processing region in the direction parallel to the central axis is different from a second length that is the length of the second processing region in the direction parallel to the central axis; a supplier for supplying the coating liquid to an outer circumferential surface of the roll member; and a blade member for scraping a surplus of the coating liquid that has attached to the outer circumferential surface of the roll member, wherein the blade member is configured to come into contact with the processing region and the non-processing region of the roll member, thereby scraping a surplus of the coating liquid that has attached to the processing region, and further scraping the coating liquid that has attached to the non-processing region to remove the whole of the coating liquid in the non-processing region; and a drying device for drying a coating liquid containing a material for forming the heat-resistant layer and transferred to a film member that is to become the substrate with the coating device; a stacking device which sandwiches the positive electrode plate or the negative electrode plate between the pair of separators produced with the separator production device; and a heating device which heats peripheral edge portions of the pair of separ