Linear conveyor and relay unit

What is claimed is: 1. A linear conveyor comprising: a plurality of modules that has rails and linear motor stators, respectively, the plurality of modules including individual modules that are connected to each other in a row to constitute a conveyance path; a slider that includes a linear motor mover and travels along the conveyance path; a bridge support member that supports a set of modules adjacent to each other at a connecting position of the set of modules; and a relay unit that is provided in the bridge support member and disposed across the set of modules in the connecting position, wherein the plurality of modules are configured such that each of the plurality of modules has first and second module-side connection sections provided on identical surfaces at both ends in a direction along the conveyance path, the plurality of modules being connected in a row in a state that the first module-side connection sections are located on one side in the direction along the conveyance path, and the relay unit includes a first unit-side connection section that is provided in a position opposite to the second module-side connection section in one of the set of modules and is electrically and directly connected to the second module-side connection section, a second unit-side connection section that is provided in a position opposite to the first module-side connection section in the other of the set of modules and is electrically and directly connected to the first module-side connection section, and a first circuit unit that electrically connects the first and second unit-side connection sections to each other. 2. The linear conveyor according to claim 1 , wherein the conveyance path has an end, the relay unit is further disposed at an end part on an opposite side of the end module from a connecting side, the end module being located at the end of the conveyance path, and the relay unit further includes a third unit-side connection section that is provided in a position opposite to the first module-side connection section at the end part on the opposite side of the end module from the connecting side and is electrically and directly connected to the first module-side connection section in a state where the relay unit is disposed at the end part on the opposite side of the end module from the connecting side, a fourth unit-side connection section for external connection, and a second circuit unit that electrically connects the third and fourth unit-side connection sections to each other. 3. The linear conveyor according to claim 2 , further comprising a power supply device connected to the fourth unit-side connection section of the relay unit disposed at the end part on the opposite side of the end module from the connecting side. 4. The linear conveyor according to claim 3 , wherein the conveyance path includes a first conveyance path constituted by the plurality of modules, and a second conveyance path constituted by the plurality of modules and is provided in parallel and back-to-back with respect to the first conveyance path, connecting positions of the modules in the first conveyance path and connecting positions of the modules in the second conveyance path are set to identical positions in the direction along the conveyance path, and the relay unit includes the first and second unit-side connection sections and the first circuit unit associated with the modules in the first conveyance path, and the first and second unit-side connection sections and the first circuit unit associated with the modules in the second conveyance path back-to-back. 5. The linear conveyor according to claim 2 , wherein the first circuit unit includes a switching member capable of switching the first unit-side connection section and the second unit-side connection section between a connected state and a disconnected state, the switching member includes a power supply connection section capable of connecting a power supply device to any one of the first and second unit-side connection sections in the disconnected state, and in at least one of the plurality of relay units disposed on the connecting positions, the switching member selects the disconnected state, and the power supply device is connected to the power supply connection section. 6. The linear conveyor according to claim 2 , wherein the conveyance path includes a first conveyance path constituted by the plurality of modules, and a second conveyance path constituted by the plurality of modules and is provided in parallel and back-to-back with respect to the first conveyance path, connecting positions of the modules in the first conveyance path and connecting positions of the modules in the second conveyance path are set to identical positions in the direction along the conveyance path, and the relay unit includes the first and second unit-side connection sections and the first circuit unit associated with the modules in the first conveyance path, and the first and second unit-side connection sections and the first circuit unit associated with the modules in the second conveyance path back-to-back. 7. The linear conveyor according to claim 1 , wherein the first circuit unit includes a switching member capable of switching the first unit-side connection section and the second unit-side connection section between a connected state and a disconnected state, the switching member includes a power supply connection section capable of connecting a power supply device to any one of the first and second unit-side connection sections in the disconnected state, and in at least one of the plurality of relay units disposed on the connecting positions, the switching member selects the disconnected state, and the power supply device is connected to the power supply connection section. 8. The linear conveyor according to claim 7 , wherein the conveyance path includes a first conveyance path constituted by the plurality of modules, and a second conveyance path constituted by the plurality of modules and is provided in parallel and back-to-back with respect to the first conveyance path, connecting positions of the modules in the first conveyance path and connecting positions of the modules in the second conveyance path are set to identical positions in the direction along the conveyance path, and the relay unit includes the first and second unit-side connection sections and the first circuit unit associated with the modules in the first conveyance path, and the first and second unit-side connection sections and the first circuit unit associated with the modules in the second conveyance path back-to-back. 9. The linear conveyor according to claim 1 , wherein the conveyance path includes a first conveyance path constituted by the plurality of modules, and a second conveyance path constituted by the plurality of modules and is provided in parallel and back-to-back with respect to the first conveyance path, connecting positions of the modules in the first conveyance path and connecting positions of the modules in the second conveyance path are set to identical positions in the direction along the conveyance path, and the relay unit includes the first and second unit-side connection sections and the first circuit unit associated with the modules in the first conveyance path, and the first and second unit-side connection sections and the first circuit unit associated with the modules in the second conveyance path back-to-back. 10. The linear conveyor according to claim 9 , wherein the relay unit is disposed at the end part on the opposite side of the end module from the connecting side, and the relay unit further includes the third and fourth unit-side connection sections and