Pressure detector

The invention claimed is: 1. A pressure detector comprising: a case connectable to a flow route for liquid, and a membrane member attached inside the case and with which a liquid-phase portion to be supplied with the liquid in the flow route and a gas-phase portion to be supplied with gas are separated from each other, the membrane member being displaceable in accordance with a pressure of the liquid supplied to the liquid-phase portion, the pressure detector detecting the pressure of the liquid in the flow route by detecting a pressure in the gas-phase portion, the pressure detector comprising: an inlet port including an inlet connecting portion connectable to the flow route for the liquid, and an inlet flow-route portion through which the liquid flows into an inlet opening of the liquid-phase portion; and an outlet port including an outlet connecting portion connectable to the flow route for the liquid, and an outlet flow-route portion through which the liquid having flowed into the liquid-phase portion is discharged from an outlet opening, wherein at least one of the inlet flow-route portion of the inlet port and the outlet flow-route portion of the outlet port is configured such that an incoming direction or an outgoing direction of the liquid is inclined with respect to an attaching plane defined for the membrane member; and wherein a first virtual line extends along a center portion of the inlet connecting portion to a first center point, and an inlet center line extends through an inlet center portion of the inlet flow-route portion from the first center point at an incline relative to the first virtual line; or wherein a second virtual line extends along a center portion of the outlet connecting portion to a second center point, and an outlet center line extends through an outlet center portion of the outlet flow-route portion from the second center point at an incline relative to the second virtual line. 2. A pressure detector comprising: a case connectable to a flow route for liquid, and a membrane member attached inside the case and with which a liquid-phase portion to be supplied with the liquid in the flow route and a gas-phase portion to be supplied with gas are separated from each other, the membrane member being displaceable in accordance with a pressure of the liquid supplied to the liquid-phase portion, the pressure detector detecting the pressure of the liquid in the flow route by detecting a pressure in the gas-phase portion, the pressure detector comprising: an inlet port including an inlet connecting portion connectable to the flow route for the liquid, and an inlet flow-route portion through which the liquid flows into an inlet opening of the liquid-phase portion, wherein at least the inlet flow-route portion of the inlet port has a diameter gradually reduced toward the liquid-phase portion; and an outlet port including an outlet connecting portion connectable to the flow route for the liquid, and an outlet flow-route portion through which the liquid having flowed into the liquid-phase portion is discharged from an outlet opening, wherein at least one of the inlet flow-route portion of the inlet port and the outlet flow-route portion of the outlet port is configured such that an incoming direction or an outgoing direction of the liquid is inclined with respect to an attaching plane defined for the membrane member; wherein a first virtual line extends along a center portion of the inlet connecting portion to a first center point, and an inlet center line extends through an inlet center portion of the inlet flow-route portion from the first center point at an incline relative to the first virtual line; or wherein a second virtual line extends along a center portion of the outlet connecting portion to a second center point, and an outlet center line extends through an outlet center portion of the outlet flow-route portion from the second center point at an incline relative to the second virtual line. 3. The pressure detector according to claim 1 , wherein the inlet port and the outlet port form a predetermined angle with respect to each other in a circumferential direction of the case. 4. The pressure detector according to claim 1 , wherein the inlet flow-route portion of the inlet port and the outlet flow-route portion of the outlet port are configured such that the incoming direction and the outgoing direction of the liquid are offset from each other. 5. The pressure detector according to claim 1 , wherein the case includes a liquid-phase-portion case defining the liquid-phase portion, and a gas-phase-portion case defining the gas-phase portion; and wherein the attaching plane defined for the membrane member is a virtual plane containing a holding surface where the membrane member is held between the liquid-phase-portion case and the gas-phase-portion case that are mated to each other. 6. The pressure detector according to claim 2 , wherein the first virtual line extends along the center portion of the inlet connecting portion to the first center point, and the inlet center line extends through the inlet center portion of the inlet flow-route portion from the first center point at the incline relative to the first virtual line; and wherein the second virtual line extends along the center portion of the outlet connecting portion to the second center point, and the outlet center line extends through the outlet center portion of the outlet flow-route portion from the second center point at the incline relative to the second virtual line. 7. The pressure detector according to claim 1 , wherein at least the inlet flow-route portion of the inlet port has a diameter gradually reduced toward the liquid-phase portion. 8. The pressure detector according to claim 1 , wherein the inlet port and the outlet port form a predetermined angle with respect to each other in a circumferential direction of the case. 9. The pressure detector according to claim 1 , wherein the inlet flow-route portion of the inlet port and the outlet flow-route portion of the outlet port are configured such that the incoming direction and the outgoing direction of the liquid are offset from each other. 10. The pressure detector according to claim 1 , wherein the case includes a liquid-phase-portion case defining the liquid-phase portion, and a gas-phase-portion case defining the gas-phase portion; and wherein the attaching plane defined for the membrane member is a virtual plane containing a holding surface where the membrane member is held between the liquid-phase-portion case and the gas-phase-portion case that are mated to each other. 11. A blood circuit to which the pressure detector according to claim 1 is connected. 12. A blood circuit to which the pressure detector according to claim 1 is connected. 13. The pressure detector according to claim 1 , wherein at least the inlet flow-route portion of the inlet port has a diameter gradually reduced toward the liquid-phase portion. 14. The pressure detector according to claim 2 , wherein the inlet port and the outlet port form a predetermined angle with respect to each other in a circumferential direction of the case. 15. The pressure detector according to claim 2 , wherein the inlet flow-route portion of the inlet port and the outlet flow-route portion of the outlet port are configured such that the incoming direction and the outgoing direction of the liquid are offset from each other. 16. The pressure detector according to claim 2 , wherein the case includes a liquid-phase-portion case defining the liquid-phase portion, and a gas-phase-portion case defi