Physical quantity measurement device

The invention claimed is: 1. A physical quantity measurement device that measures a physical quantity of a fluid, comprising: a passage flow channel that has an inflow port and an outflow port, the fluid entering the passage flow channel through the inflow port and exiting the passage flow channel through the outflow port; a branch flow channel that branches off from the passage flow channel, the branch flow channel discharging the fluid having flowed into the branch flow channel from the passage flow channel through a branch outflow port; and a physical quantity detector that detects a physical quantity of the fluid in the branch flow channel, wherein an imaginary line connecting a center of the inflow port and a center of the branch outflow port and including at least a part of a center line of the passage flow channel and a center line of the branch flow channel is defined as a flow channel center line, a boundary between the passage flow channel and the branch flow channel is defined as a flow channel boundary portion, a pair of opposing passage surfaces in an inner peripheral surface of the passage flow channel face each other across the flow channel boundary portion and the inflow port, a direction along which the pair of opposing passage surfaces are arranged is defined as a lateral direction, a direction along which the flow channel center line extends is defined as a flow channel direction, a direction orthogonal to both the lateral direction and the flow channel direction is defined as a vertical direction, an inflow region extending from the inflow port along the flow channel center line in the flow channel direction and a lateral region laterally arranged with respect to the inflow region in the lateral direction without extending from the inflow port are included in at least one of the passage flow channel and the branch flow channel, the physical quantity detector is disposed in the lateral region in the branch flow channel, and a guiding surface that guides away from the lateral region in the lateral direction foreign matter entering through the inflow port together with the fluid is included in at least one of the inner peripheral surface of the passage flow channel and an inner peripheral surface of the branch flow channel at a position upstream of the lateral region. 2. The physical quantity measurement device according to claim 1 , wherein the guiding surface extends over the pair of opposing passage surfaces. 3. The physical quantity measurement device according to claim 1 , wherein the guiding surface is disposed in the inflow region in the passage flow channel. 4. The physical quantity measurement device according to claim 1 , wherein the guiding surface is disposed in the inflow region in the branch flow channel. 5. The physical quantity measurement device according to claim 1 , wherein the inflow region is included in both the passage flow channel and the branch flow channel by extending across the flow channel boundary portion in the flow channel direction, and the lateral region is disposed at a position downstream of the flow channel boundary portion to be included only in the branch flow channel. 6. The physical quantity measurement device according to claim 1 , wherein the inner peripheral surface of the branch flow channel has a pair of opposing branch surfaces facing each other in the lateral direction, one of the pair of opposing branch surfaces includes a width increasing surface that is gradually away from the other of the pair of opposing branch surfaces as approaching the physical quantity detector in the flow channel direction so that a lateral dimension of the branch flow channel in the lateral direction is increased, and the lateral region is at a position downstream of the width increasing surface in the flow channel direction. 7. The physical quantity measurement device according to claim 1 , further comprising a cover portion that covers the physical quantity detector from an upstream side of the detector in the branch flow channel, wherein the lateral region is at a position downstream of the cover portion in the flow channel direction. 8. The physical quantity measurement device according to claim 1 , wherein the branch flow channel includes: an upstream branch pass extending downstream from the flow channel boundary portion; a downstream branch pass at least a part of which is at a position overlapping the upstream branch pass in the lateral direction, the downstream branch pass extending upstream from the branch flow channel; and an intermediate branch pass disposed between the upstream branch pass and the downstream branch pass in the flow channel direction, the intermediate branch pass connecting the upstream branch pass and the downstream branch pass, a partition wall portion that partitions the upstream branch pass and the downstream branch pass is disposed between the upstream branch pass and the downstream branch pass in the lateral direction, and the lateral region is included in the intermediate branch pass. 9. A physical quantity measurement device that measures a physical quantity of fluid, comprising: a passage flow channel that has an inflow port and an outflow port, the fluid entering the passage flow channel through the inflow port and exiting the passage flow channel through the outflow port; a branch flow channel that branches off from the passage flow channel, the branch flow channel discharging the fluid having flowed in the branch flow channel from the passage flow channel through a branch outflow port; and a physical quantity detector that detects a physical quantity of the fluid in the branch flow channel, wherein an imaginary line connecting a center of the inflow port and a center of the branch outflow port and including at least a part of a center line of the passage flow channel and a center line of the branch flow channel is defined as a flow channel center line, a boundary between the passage flow channel and the branch flow channel is defined as a flow channel boundary portion, a pair of opposing surfaces in an inner peripheral surface of the passage flow channel face each other across the flow channel boundary portion and the inflow port, a direction along which the pair of opposing surfaces are arranged is defined as a lateral direction, a direction along which the flow channel center line extends is defined as a flow channel direction, and a direction orthogonal to both the lateral direction and the flow channel direction is defined as a vertical direction, an inflow region extending from the inflow port along the flow channel center line in the flow channel direction and a lateral region laterally arranged with respect to the inflow region in the lateral direction without extending from the inflow port are included in at least one of the passage flow channel and the branch flow channel, the physical quantity detector is disposed in the lateral region in the branch flow channel, a cover portion that covers the physical quantity detector from an upstream side of the detector is disposed in the branch flow channel, the lateral region is disposed at a position downstream of the cover portion in the flow channel direction, and a guiding surface that guides toward the cover portion in the lateral direction foreign matter entering through the inflow port together with the fluid is included in at least one of the inner peripheral surface of the passage flow channel and an inner peripheral surface of the branch flow channel at a position upstream of the lateral region. 10. A physical quantity measurement device that measures a physical quantity of fluid, comprising: a passage flow channel t