Measurement unit and flow rate meter

The invention claimed is: 1. A measurement unit comprising: an inlet to let a fluid flow in; an outlet to let the fluid flow out; a single flow path connecting the inlet with the outlet; a plurality of partition boards being disposed between facing side surfaces of the flow path and being disposed along a current of the fluid, the partition boards defining M flow path segments (where M is an integer of 2 or greater) between the facing side surfaces; and a measuring instrument to measure a flow rate of the fluid flowing through N successively adjacent flow path segments (where N is an integer of 1 or greater and less than M). 2. The measurement unit according to claim 1 , wherein the measuring instrument measures the flow rate of the fluid by using ultrasonic waves. 3. The measurement unit according to claim 2 , wherein the measuring instrument includes a first transmitter-receiver and a second transmitter-receiver that are each capable of sending and receiving ultrasonic waves, the first transmitter-receiver is disposed on an upstream side of the partition boards, the second transmitter-receiver is disposed on a downstream side of the partition boards, the first transmitter-receiver receives ultrasonic waves sent from the second transmitter-receiver, and the second transmitter-receiver receives ultrasonic waves sent from the first transmitter-receiver. 4. The measurement unit according to claim 3 , wherein the plurality of partition boards are disposed at intervals that are substantially equal to one another, and the measuring instrument comprises: a control circuit to control sending and receiving ultrasonic waves at the first and the second transmitters-receivers; and an arithmetic circuit to calculate a flow rate of the fluid flowing through the flow path by measuring the flow rate of the fluid flowing through the N flow path segments through use of signals of ultrasonic waves received, respectively, by the first and the second transmitters-receivers and correcting the measured flow rate by a coefficient verified in advance. 5. The measurement unit according to claim 1 , wherein the single flow path has a cross-sectional area such that a volume of the fluid passing through the flow path is at least 10 cubic meters per hour. 6. The measurement unit according to claim 1 , wherein 24 flow path segments (M=24) are defined by 23 partition boards in the flow path, and the measuring instrument measures a flow rate of the fluid flowing through 4 flow path segments (N=4). 7. A flow rate meter that is connected to piping for distributing a fluid and measures a flow rate of the fluid passing through the piping, the flow rate meter comprising: an upstream port connected to an upstream pipe; a downstream port connected to a downstream pipe; at least one measurement unit according to claim 1 ; an inlet chamber that guides the fluid flowing from the upstream port to the inlet of the at least one measurement unit; and an outlet path that guides the fluid discharging from the outlet of the at least one measurement unit to the downstream port. 8. The flow rate meter according to claim 7 , wherein the upstream port, the inlet chamber, the at least one measurement unit, the outlet path, and the downstream port are disposed in a U-shape. 9. The flow rate meter according to claim 7 , wherein the upstream port, the inlet chamber, the at least one measurement unit, the outlet path, and the downstream port are disposed linearly. 10. The flow rate meter according to claim 7 , wherein the inlet chamber further includes a rectifier flow path to reduce an imbalance in distribution of velocities of the fluid flowing from the upstream port. 11. The flow rate meter according to claim 10 , wherein the rectifier flow path alters a course of the fluid at least once. 12. The flow rate meter according to claim 10 , wherein the at least one measurement unit is composed of two measurement units, and the measurement units are in contact with each other.