Float device and solar cell apparatus for use on water

The invention claimed is: 1. A float device comprising a floating body, wherein the floating body includes: a main body part having a first surface, a second surface opposite the first surface, and a first side surface connecting the first surface and the second surface; and a first joining part and a second joining part each located on the first side surface to be opposite to each other in a first direction parallel to a ridge line defined by the first surface and the first side surface, the first joining part and the second joining part each include a first portion located on the first side surface and a second portion connected to the first portion to face the first side surface, the second portion includes an end portion farthest from the first portion, an end portion of the first joining part and an end portion of the second joining part face each other, and a minimum distance D 1 between the end portion of the first joining part and the end portion of the second joining part is greater than twice a maximum width D 2 of a portion including the second portion in each of the first joining part and the second joining part in the first direction, and is smaller than a minimum distance D 3 between the first portion of the first joining part and the first portion of the second joining part. 2. The float device according to claim 1 , wherein the end portion at least partially has a curved surface. 3. The float device according to claim 1 , wherein the floating body further includes a protruding part located on the first side surface to be closer to the second surface than the first joining part and the second joining part are, and a length of the second portion in a second direction perpendicular to the first side surface and the first direction is greater than a distance between the second portion and the protruding part in the second direction, and is smaller than a length of the first portion in the second direction. 4. The float device according to claim 3 , wherein the protruding part comprises two protruding parts located outside a region between the end portion of the first joining part and the end portion of the second joining part in the first direction. 5. The float device according to claim 1 , wherein the main body part has a second side surface opposite the first side surface and connecting the first surface and the second surface, the floating body further includes a third joining part and a fourth joining part each located on the second side surface to be opposite to each other in the first direction parallel to a ridge line defined by the first surface and the second side surface, the third joining part is located on the same axis as the second joining part in a direction parallel to a second direction perpendicular to the first direction, the fourth joining part is located on the same axis as the first joining part in a direction parallel to the second direction, and a configuration of a pair of joining parts including the third joining part and the fourth joining part on the second side surface is as same as a configuration of a pair of joining parts including the first joining part and the second joining part on the first side surface. 6. The float device according to claim 1 , further comprising: a sub-first floating body and a sub-second floating body connected to the floating body; and an attachment member joining the sub-first floating body and the sub-second floating body together along a longitudinal direction in which the sub-first floating body and the sub-second floating body are arranged end to end, wherein the sub-first floating body and the sub-second floating body each include: a sub-main body part having a sub-first surface, a sub-second surface opposite the sub-first surface, a sub-first side surface, and a sub-second side surface opposite the sub-first side surface; a first engagement part including a first recessed portion in which a part of the sub-first surface and a part of the sub-first side surface are recessed continuously; and a second engagement part including a protruding portion located on the sub-second side surface at a position corresponding to a portion opposite the first recessed portion and a groove portion located in an upper surface of the protruding portion, the sub-second floating body is joined to the sub-first floating body with the protruding portion of the sub-second floating body being located above a bottom surface of the first recessed portion of the sub-first floating body, and the attachment member being located in the groove portion, and the attachment member is fixed to the sub-first floating body with a gap between the attachment member and an inner wall of the groove portion. 7. The float device according to claim 6 , wherein the first recessed portion of the first engagement part is located below the attachment member, and the first engagement part further includes second recessed portions located to sandwich the bottom surface of the first recessed portion in the longitudinal direction, and being deeper than the first recessed portion. 8. The float device according to claim 6 , wherein the first recessed portion of the first engagement part includes a first narrow portion located closer to the sub-first side surface and a first non-narrow portion located closer to the sub-second side surface, the protruding portion of the second engagement part includes a second narrow portion located closer to the sub-second side surface and a second non-narrow portion located opposite the second narrow portion, and a maximum width D 1 of the first narrow portion in a transverse direction orthogonal to the longitudinal direction is greater than a maximum width D 2 of the second narrow portion in the transverse direction, and a maximum width D 3 of the first non-narrow portion in the transverse direction is greater than a maximum width D 4 of the second non-narrow portion in the transverse direction. 9. The float device according to claim 8 , wherein a maximum length L 1 of the first narrow portion in the longitudinal direction is smaller than a maximum length L 2 of the second narrow portion in the longitudinal direction, and a maximum length L 3 of the first non-narrow portion in the longitudinal direction is greater than a maximum length L 4 of the second non-narrow portion in the longitudinal direction. 10. A solar cell apparatus for use on water comprising: a plurality of float devices arranged and joined together, and including floating bodies; and solar cell modules located on the float devices, wherein the floating bodies each include: a main body part having a first surface on which a corresponding one of the solar cell modules is located, a second surface opposite the first surface, and a first side surface connecting the first surface and the second surface; and a first joining part and a second joining part each located on the first side surface to be opposite to each other in a first direction parallel to a ridge line defined by the first surface and the first side surface, the first joining part and the second joining part each include a first portion located on the first side surface and a second portion connected to the first portion to face the first side surface, the second portion includes an end portion farthest from the first portion, an end portion of the first joining part and an end portion of the second joining part face each other, and a minimum distance D 1 between the end portion of the first joining part and the end portion of the second joining part is greater than twice a maximum width D 2 of a portion including the second portion in each of the first joining part and the secon