Flow meter

We claim: 1. A flow meter, comprising: a lower shell; an upper shell disposed on the lower shell; a running water cavity disposed between the lower shell and the upper shell; an impeller disposed in the running water cavity, the impeller comprising: an installation positioning hole disposed at a bottom portion of the impeller; and a rotating positioning hole disposed at a top portion of the impeller; an installation positioning shaft extending upward from the lower shell and configured to be inserted into the installation positioning hole; and a rotating positioning shaft extending downward from the upper shell and configured to be inserted into the rotating positioning hole. 2. The flow meter according to claim 1 , wherein a radius of the rotating positioning hole is smaller than a radius of the installation positioning hole, and wherein a radius of the rotating positioning shaft is smaller than a radius of the installation positioning shaft. 3. The flow meter according to claim 1 , wherein a gap between the rotating positioning shaft and a hole wall of the rotating positioning hole is smaller than a gap between the installation positioning shaft and a hole wall of the installation positioning hole. 4. The flow meter according to claim 1 , wherein when the impeller is in a non-floating state, the installation positioning shaft is in clearance fit with the installation positioning hole, and the rotating positioning shaft suspends above the rotating positioning hole, and wherein when the impeller is in a floating state, the rotating positioning shaft is in clearance fit with the rotating positioning hole, the installation positioning shaft is in clearance fit with the installation positioning hole, and the rotating positioning shaft is a pivotal shaft of the impeller. 5. The flow meter according to claim 1 , wherein the rotating positioning hole is coaxially arranged with the installation positioning hole. 6. The flow meter according to claim 4 , further comprising: a guide hole disposed at the top portion of the impeller and coaxially arranged with the rotating positioning hole, wherein the guide hole is disposed above the rotating positioning hole, wherein a radius of the guide hole gradually increases in a direction from a bottom of the guide hole to a top of the guide hole, and wherein when the impeller is in the non-floating state, a lower end of the rotating positioning shaft is disposed in the guide hole, and a minimum gap between the rotating positioning shaft and a hole wall of the guide hole is greater than the gap between the installation positioning shaft and the hole wall of the installation positioning hole. 7. The flow meter according to claim 1 , wherein the impeller comprises a central cylinder and a plurality of blades disposed on the central cylinder, wherein the installation positioning hole is disposed in a lower portion of the central cylinder, and wherein the rotating positioning hole is disposed in an upper part of the central cylinder. 8. The flow meter according to claim 1 , wherein the rotating positioning shaft is integrally formed with the upper shell, and wherein the installation positioning shaft is integrally formed with the lower shell. 9. The flow meter according to claim 1 , wherein a magnet is disposed at the top portion of the impeller and disposed outside the rotating positioning hole. 10. The flow meter according to claim 9 , wherein the upper shell and the lower shell are welded or connected via a positioning bulge of the upper shell and a positioning groove of the lower shell, wherein a sensor disposed on the upper shell and configured to measure an amount of water flow by monitoring a magnetic flux of the magnet. 11. A flow meter, comprising: a lower shell; an upper shell comprising: a shell body disposed on the lower shell, the shell body comprising a top opening; and a shell top lid detachably disposed on the top opening; a running water cavity disposed between the shell body and the lower shell; an impeller disposed in the running water cavity, the impeller comprising: an installation positioning hole disposed at a bottom portion of the impeller; and a rotating positioning hole disposed at a top portion of the impeller and coaxially arranged with the installation positioning hole; an installation positioning shaft extending upward from the lower shell and configured to be inserted into the installation positioning hole; and a rotating positioning shaft extending downward from the shell top lid and configured to be inserted into the rotating positioning hole. 12. The flow meter according to claim 11 , wherein a radius of the rotating positioning hole is smaller than a radius of the installation positioning hole, and wherein a radius of the rotating positioning shaft is smaller than a radius of the installation positioning shaft. 13. The flow meter according to claim 11 , wherein a gap between the rotating positioning shaft and a hole wall of the rotating positioning hole is smaller than a gap between the installation positioning shaft and a hole wall of the installation positioning hole. 14. The flow meter according to claim 11 , wherein the rotating positioning shaft is in clearance fit with the rotating positioning hole, wherein the installation positioning shaft is in clearance fit with the installation positioning hole, and wherein the rotating positioning shaft is a pivotal shaft of the impeller when water is supplied into the running water cavity to raise and rotate the impeller. 15. The flow meter according to claim 11 , wherein a guide hole is disposed at the top portion of the impeller and coaxially arranged with the rotating positioning hole, wherein the guide hole is disposed above the rotating positioning hole, wherein a radius of the guide hole gradually increases in a direction from a bottom of the guide hole to a top of the guide hole, and wherein the rotating positioning shaft is inserted into the rotating positioning hole through the guide hole. 16. The flow meter according to claim 9 , further comprising: a magnet disposed at the top portion of the impeller; and a sensor disposed on the upper shell and configured to measure an amount of water flow by monitoring a magnetic flux of the magnet. 17. A method for assembling a flow meter, the method comprising: forming a running water cavity by connecting a lower shell and an upper shell; installing an impeller in the running water cavity by inserting an installation positioning shaft extending upward from the lower shell into an installation positioning hole disposed at a bottom portion of the impeller; and in response to a non-floating state of the impeller, suspending a rotating positioning shaft extending downward from the upper shell above a rotating positioning hole disposed at a top portion of the impeller, wherein a radius of the rotating positioning hole is smaller than a radius of the installation positioning hole, and wherein a radius of the rotating positioning shaft is smaller than a radius of the installation positioning shaft. 18. The method according to claim 17 , further comprising supplying water into the running water cavity; raising and rotating, by the water, the impeller so that the rotating positioning shaft is in clearance fit with the rotating positioning hole, the installation positioning shaft is in clearance fit with the installation positioning hole, and the impeller rotates around the rotating positioning shaft, wherein a ga