Flow path switching valve

What is claimed is: 1. A flow path switching valve configured for use in an engine water cooling system, configured for mounting on a mounting surface of an engine, and configured for switching a flow path of a cooling water by an operation of the flow path switching valve, the engine water cooling system having: a block jacket, which is a water jacket formed on a cylinder block, and a head jacket, which is a water jacket formed on a cylinder head, the block jacket and the head jacket are connected via a communication passage, the flow path switching valve configured as follows: the cooling water flowing in from an inlet of the block jacket flows into an inlet port of the flow path switching valve from an outlet of the head jacket via the communication passage, and the flow path switching valve has an inflow barrier plate provided therein that closes a part of a leak path side at the inlet port to suppress an inflow of the cooling water from the block jacket via a leak path made in the cylinder block and the cylinder head. 2. The flow path switching valve of claim 1 , wherein a seal member is provided at a position between an end face of the inflow barrier plate and the mounting surface of the engine, the seal member separating a space that allows communication from the head jacket to the inlet port and a space that allows communication from the leak path to the inlet port. 3. The flow path switching valve of claim 1 , wherein the flow path switching valve switches the flow path of the cooling water by rotating a valve body, and the inflow barrier plate is provided integrally with a bearing member that bears one end of a shaft that serves as a rotation shaft of the valve body. 4. The flow path switching valve of claim 1 , wherein the flow path switching valve switches the flow path of the cooling water by rotating a valve body, and the inflow barrier plate is provided separately from a bearing member that bears one end of a shaft that serves as a rotation shaft of the valve body. 5. A flow path switching valve configured to mount to an engine, and comprising: a housing configured to mount to a mounting surface of the engine; a shaft; a valve body configured to rotate about a valve axis; a bearing member configured to hold a bearing and including: (i) an inlet port configured to receive and pass unleaked cooling water from an outlet of a head jacket of the engine, such that the unleaked cooling water enters the valve body, and (ii) an end surface facing the mounting surface, and wherein at least a portion of the end surface forms an inflow barrier plate that is an integral part of the bearing member, and wherein the inflow barrier plate is configured to suppress a flow of leaked cooling water into the valve body. 6. The flow path switching valve of claim 5 , further comprising: an annular gasket, wherein a circumference of the bearing member is configured to contact an inner surface of the housing, and wherein the housing includes a gasket groove that is open facing the engine mounting portion, and that is configured to hold the annular gasket. 7. The flow path switching valve of claim 6 , wherein the bearing member includes: a peripheral portion extending semi-circularly about the valve axis, a central portion, and at least three ribs extending radially outwardly from the central portion towards the peripheral portion. 8. A flow path switching valve configured to mount to an engine, and comprising: a housing configured to mount to a mounting surface of the engine; a shaft; a valve body configured to rotate about a valve axis; a bearing member configured to hold a bearing and including: (i) a central portion, (ii) a circular peripheral portion, and (iii) ribs extending radially from the central portion to the circular peripheral portion, wherein the central portion, the circular peripheral portion, and the ribs define orifices; and an inflow barrier plate that is distinct from the bearing member, wherein the inflow barrier plat includes a substantially semi-circular window portion configured to receive and pass unleaked cooling water from an outlet of a head jacket of the engine, such that the unleaked cooling water further passes through at least one of the orifices and enters the valve body, and wherein the inflow barrier plate is configured to suppress leaked cooling water from entering the valve body. 9. The flow path switching valve of claim 8 , wherein a circumferential outer surface of the bearing member and contacts a first inner surface of the housing, wherein a circumferential outer surface of the inflow barrier plate contacts or is integrally formed with an annular gasket, and wherein the annular gasket contacts a second inner surface of the housing. 10. The flow path switching valve of claim 9 , wherein the first inner surface has a first diameter, wherein the second inner surface has a second diameter, and wherein the first diameter is smaller than the second diameter. 11. The flow path switching valve of claim 8 , wherein at least some of the ribs include stepped portions extending towards the inflow barrier plate, and configured to at least partly support the inflow barrier plate. 12. The flow path switching valve of claim 11 , wherein the housing includes a gasket groove shaped to hold the annular gasket, wherein the gasket groove is partially defined by a gasket groove inner wall, wherein the gasket groove inner wall has a radial internal surface with the first diameter, and has a radial external surface with the second diameter, wherein the gasket groove inner wall is configured to at least partly support the inflow barrier plate. 13. The flow path switching valve of claim 8 , further comprising a crossing portion integrally formed with, or adjacent to, the annular gasket to form a θ-shaped gasket, and wherein the crossing portion is configured to suppress leaked cooling water from entering the valve body.