Suction nozzle and fluid recovery apparatus

What is claimed is: 1. A suction nozzle to be connected to a suction pump to suck a fluid while separating solid contaminants from the fluid, the suction nozzle comprising: a hollow nozzle body having a connection port configured to be fluidly connected to the suction pump; a suction opening configured to suck the fluid; a vertical flow path defined in the hollow nozzle body and configured to extend in a vertical direction when the suction nozzle is placed in a position to perform suction; a contaminant precipitation recess defined under the vertical flow path in alignment with a longitudinal axis of the vertical flow path, wherein the contaminant precipitation recess is opened upward to communicate with the vertical flow path; and at least one lateral flow path extending laterally from the vertical flow path at a position above the contaminant precipitation recess, wherein the fluid sucked from the suction opening is led to the vertical flow path through the at least one lateral flow path and flows upward through the vertical flow path to reach the connection port. 2. The suction nozzle of claim 1 , wherein a cross section of the vertical flow path is greater than a cross section of the connection port. 3. The suction nozzle of claim 1 , wherein a cross section of each lateral flow path of the at least one lateral flow path is greater than a cross section of the connection port. 4. The suction nozzle of claim 1 further comprising: a flow path member having the vertical flow path and the at least one lateral flow path, the flow path member being disposed in the hollow nozzle body in a state where the vertical flow path is fluidly connected to the connection port; and a filter disposed in the hollow nozzle body between the suction opening and the at least one lateral flow path in the flow path member, wherein the hollow nozzle body, the flow path member, and the filter are detachably attached to each other. 5. The suction nozzle of claim 4 , wherein an annular space is formed between an inner peripheral surface of the hollow nozzle body and an outer peripheral surface of the flow path member, and the filter has an annular shape and is disposed in the annular space. 6. The suction nozzle of claim 5 , wherein the filter has a lower surface facing the suction opening and a side surface extending upward from a peripheral edge of the lower surface, and the suction nozzle further comprises an annular gap between the side surface and the inner peripheral surface of the hollow nozzle body, the annular gap communicating with the suction opening. 7. The suction nozzle of claim 5 further comprising: a plate-shaped member detachably attached to a lower surface of the flow path member; the flow path member being detachably attached to the hollow nozzle body by threaded engagement; and the plate-shaped member retaining the filter in the hollow nozzle body by supporting the filter from below. 8. The suction nozzle of claim 7 , wherein the plate-shaped member has a multiplicity of circular holes and is disposed to cover the suction opening, such that the fluid sucked from the suction opening passes through the circular holes before reaching the filter. 9. The suction nozzle of claim 1 , wherein the at least one lateral flow path includes a plurality of the lateral flow paths, wherein the plurality of the lateral flow paths are spaced from one another in a circumferential direction of the vertical flow path, each lateral flow path of the plurality of the lateral flow paths extends radially with respect to the vertical flow path. 10. A fluid recovery apparatus comprising: a suction pump; and a suction nozzle connected to the suction pump to suck a fluid while separating solid contaminants from the fluid, the suction nozzle comprising: a hollow nozzle body having a connection port configured to be fluidly connected to the suction pump; a suction opening for sucking the fluid; a vertical flow path defined in the hollow nozzle body and configured to extend in a vertical direction when the suction nozzle is placed in a position to perform suction; a contaminant precipitation recess defined under the vertical flow path in alignment with a longitudinal axis of the vertical flow path, wherein the contaminant precipitation recess is opened upward to communicate with the vertical flow path; and at least one lateral flow path extending laterally from the vertical flow path at a position above the contaminant precipitation recess, wherein the fluid sucked from the suction opening is led to the vertical flow path through the at least one lateral flow path and flows upward through the vertical flow path to reach the connection port. 11. The fluid recovery apparatus of claim 10 , wherein a cross section of the vertical flow path is greater than a cross section of the connection port. 12. The fluid recovery apparatus of claim 10 , wherein a cross section of each lateral flow path of the at least one lateral flow path is greater than a cross section of the connection port. 13. The fluid recovery apparatus of claim 10 further comprising: a flow path member having the vertical flow path and the at least one lateral flow path, the flow path member being disposed in the hollow nozzle body in a state where the vertical flow path is fluidly connected to the connection port; and a filter disposed in the hollow nozzle body between the suction opening and the at least one lateral flow path in the flow path member, wherein the hollow nozzle body, the flow path member, and the filter are detachably attached to each other. 14. The fluid recovery apparatus of claim 13 , wherein an annular space is formed between an inner peripheral surface of the hollow nozzle body and an outer peripheral surface of the flow path member, and the filter has an annular shape and is disposed in the annular space. 15. The fluid recovery apparatus of claim 14 , wherein the filter has a lower surface facing the suction opening and a side surface extending upward from a peripheral edge of the lower surface, and the suction nozzle further comprises an annular gap between the side surface and the inner peripheral surface of the hollow nozzle body, the annular gap communicating with the suction opening. 16. The fluid recovery apparatus of claim 14 further comprising: a plate-shaped member detachably attached to a lower surface of the flow path member; the flow path member being detachably attached to the hollow nozzle body by threaded engagement; and the plate-shaped member retaining the filter in the hollow nozzle body by supporting the filter from below. 17. The fluid recovery apparatus of claim 16 , wherein the plate-shaped member has a multiplicity of circular holes and is disposed to cover the suction opening, such that the fluid sucked from the suction opening passes through the circular holes before reaching the filter. 18. The fluid recovery apparatus of claim 10 , wherein the at least one lateral flow path includes a plurality of the lateral flow paths, wherein the plurality of the lateral flow paths are spaced from one another in a circumferential direction of the vertical flow path, and each lateral flow path of the plurality of the lateral flow paths extends radially with respect to the vertical flow path.