Flow sensor devices and systems

What is claimed is: 1. A flow rate assembly comprising: a fluid flow interface portion having: a first end; a second end; a front facing wall extending at least partially between the first and second ends of the fluid flow interface portion; a back facing wall extending at least partially between the first and second ends of the fluid flow interface portion opposite the front facing wall of the fluid flow interface portion; an inlet passage within the fluid flow interface portion and extending at least partially between the first and second ends of the fluid flow interface portion, the inlet passage having an upstream end and a downstream end; an outlet passage within the fluid flow interface portion and at least partially separate from the inlet passage, the outlet passage extending at least partially between the first and second ends of the fluid flow interface portion, the outlet passage having an upstream end and a downstream end; at least one inlet aperture extending through the front facing wall of the fluid flow interface portion into the inlet passage, each of the at least one inlet apertures defining an inlet area, wherein a total inlet area is defined as a sum of the inlet areas of the at least one inlet apertures; at least one outlet aperture extending through the back facing wall of the fluid flow interface portion into the outlet passage, each of the at least one outlet apertures defining an outlet area, wherein a total outlet area is defined as a sum of the outlet areas of the at least one outlet apertures; and a sensor body having: a first sensor body end; a second sensor body end configured to connect to the first end of the fluid flow interface portion; a body inlet passage within the sensor body and extending at least partially between the first and second sensor body ends, the body inlet passage having an upstream end and a downstream end; and a body outlet passage within the sensor body and extending at least partially between the first and second sensor body ends, the body outlet passage having an upstream end and a downstream end, the upstream end of the body outlet passage connected to the downstream end of the body inlet passage; wherein the upstream end of the body inlet passage is connected to the downstream end of the inlet passage of the fluid flow interface portion, and wherein the downstream end of the body outlet passage is connected to the upstream end of the outlet passage of the fluid flow interface portion. 2. The flow rate assembly of claim 1 , comprising a moving indicator configured to move in response to fluid flow into the at least one inlet aperture of the fluid flow interface portion. 3. The flow rate assembly of claim 2 , comprising a signal generator connected to the sensor body and configured detect and output signals in response to positioning the moving indicator into or out from a predetermined range between the upstream and downstream ends of the body inlet passage. 4. The flow rate assembly of claim 1 , comprising a float positioned at least partially within the body inlet passage or at least partially within the body outlet passage. 5. The flow rate assembly of claim 4 , wherein the float is configured to move between the upstream and downstream ends of the body inlet passage in response to fluid flow through the at least one inlet aperture of the fluid flow interface portion. 6. The flow rate assembly of claim 4 , wherein a position of the float between the upstream and downstream ends of the body inlet passage indicates a flow rate of fluid into the at least one inlet aperture of the fluid flow interface portion. 7. The flow rate assembly of claim 1 , wherein the sensor body is connected to the fluid flow interface portion without use of fasteners or metal components. 8. The flow rate assembly of claim 1 , comprising a pipe, wherein: the fluid flow interface portion is positioned at least partially within the pipe; the at least one inlet aperture is oriented toward oncoming flow within the pipe; and the at least one outlet aperture is oriented away from oncoming flow within the pipe. 9. The flow rate assembly of claim 1 , wherein the fluid flow interface portion comprises a cavity in the back side of the fluid flow interface assembly, and wherein the assembly includes a plug configured to mate with the cavity in the back side of the fluid flow interface, the plug having a front side forming at least a portion of the inlet passage. 10. A flow rate assembly comprising: a sensor body configured to be positioned at least partially outside of a pipe when the flow rate assembly is installed on the pipe the sensor body having: a first end; a second end opposite the first end; a fluid passage positioned entirely within the sensor body and extending from an inlet in the second end, toward the first end, and back through an outlet in the second end; a fluid flow interface portion connected to the second end of the sensor body and configured to be positioned at least partially within an interior of the pipe when the flow rate assembly is installed on the pipe, the fluid flow interface portion comprising an inlet passage in direct fluid communication with the inlet of the fluid passage of the sensor body, an outlet passage separate from the inlet passage and in direct fluid communication with the outlet of the fluid passage of the sensor body, a plurality of inlet apertures extending through a wall of the fluid flow interface portion into the inlet passage, and an outlet aperture extending through a wall of the fluid flow interface portion on a side of the fluid flow interface portion opposite the inlet apertures into the outlet passage; and a float positioned at least partially within the fluid passage of the sensor body, wherein a position of the float between the first and second ends of the sensor body indicates a flow rate of fluid into the plurality of inlet apertures of the fluid flow interface portion. 11. The flow rate assembly of claim 10 , wherein the fluid flow interface portion comprises not more than one outlet passage. 12. The flow rate assembly of claim 10 , wherein the fluid flow interface portion comprises a total of four inlet apertures. 13. The flow rate assembly of claim 10 , comprising a shut-off signal generator configured to shut off flow through a pipe when the flow rate assembly is installed on a pipe and a flow rate of fluid through the pipe is lower than a predetermined minimum rate or higher than a predetermined maximum rate. 14. The flow rate assembly of claim 13 , wherein the shut-off signal generator is a Hall-effect sensor. 15. The flow rate assembly of claim 13 , wherein the shut-off signal generator is positioned on the sensor body. 16. The flow rate assembly of claim 10 , wherein the flow rate assembly is configured to measure a flow rate of fluid through a pipe within 10% accuracy of the reading in a flow rate range between 2 feet per second and 10 feet per second. 17. The flow rate assembly of claim 16 , wherein the flow rate assembly is configured to measure flow rate of fluid through a pipe within 5% accuracy of the reading in a flow rate range between 2 feet per second and 10 feet per second. 18. The flow rate assembly of claim 10 , wherein the fluid flow interface portion includes a cavity along at least a portion of a length of the back side of the fluid flow interface portion, and wherein the flow rate assembly includes a plug sized and shaped to fit at least partially within the cavity, a portion of the plug defining at least a portion of inlet pas