Switching device and a liquid level detection apparatus employing the switching device

What is claimed is: 1. A switching device, comprising: a first enclosure, containing a switch; a second enclosure, having a second end connected to the first enclosure, the second enclosure having a rod shape; a detector unit, disposed in the second enclosure, including a first position sensor located at a first position, a second position sensor located at a second position, and detection circuit coupled to the first position sensor, the second position sensor and the switch; and a float, disposed around an exterior of the second enclosure, and configured to move along the second enclosure; wherein as the float moves from a first end of the second enclosure toward the second end of the second enclosure, when the float enters a first position range, the first position sensor is configured to sense the float and transmits a first sensing signal to the detection circuit; when the float enters a second position range, the second position sensor is configured to sense the float and transmits a second sensing signal to the detection circuit; wherein the detection circuit is configured to close the switch in response to the second sensing signal; wherein the first position range is a sensing range of the first position sensor, and the first position is within the first position range, and wherein the second position range is a sensing range of the second position sensor, and the second position is within the second position range. 2. The switching device of claim 1 , wherein as the float moves from the second end of the second enclosure toward the first end of the second enclosure, when the float has moved away from the second position range and has not entered the first position range, the detection circuit is configured to keep the switch closed; wherein when the float enters the first position range, the first position sensor is configured to sense the float and transmits the first sensing signal to the detection circuit, and wherein the detection circuit is configured to open the switch in response to the first sensing signal. 3. The switching device of claim 1 , wherein the first position is near the first end of the second enclosure and the second position is near the second end of the second enclosure. 4. The switching device of claim 1 , further comprising: a power supply circuit, disposed in the first enclosure and coupled to the switch and the detector unit; and a power plug assembly, having a first end coupled to the power supply circuit and the switch, a second end configured to be coupled to an external power source, and a third end configured to be coupled to an external appliance; wherein the power plug assembly and the power supply circuit supply power to the switch and the detector unit, respectively, and whereby the switch controls the external appliance via the power plug assembly. 5. The switching device of claim 1 , wherein the float includes: an enclosure, disposed around the exterior of the second enclosure and configured to move along the second enclosure; a groove formed on the enclosure; and a magnetic component retained in the groove; wherein when the float moves along the second enclosure, the first position sensor and the second position sensor are configured to sense a magnetic field of the magnetic component to generate the first and second sensing signals, respectively. 6. The switching device of claim 1 , further comprising: a stop member connected to the first end of the second enclosure, configured to limit a range of motion of the float along the second enclosure. 7. The switching device of claim 5 , wherein the magnetic component has a ring shape, and the groove has a shape that matches the ring shape of the magnetic component. 8. The switching device of claim 1 , wherein the first position sensor and the second position sensor are magnetoresistance sensors. 9. The switching device of claim 2 , wherein the detection circuit includes: a first operational amplifier, having an inverting input terminal coupled to an output of the first position sensor, and a non-inverting input terminal coupled to a threshold voltage; a second operation amplifier, having an inverting input terminal coupled to another threshold voltage, a non-inverting input terminal coupled to an output of the second position sensor and an output terminal of the first operational amplifier, and an output terminal coupled to its non-inverting input terminal and the switch; and a unidirectional conducting element, having an input terminal coupled to the non-inverting input terminal of the second operational amplifier, and an output terminal coupled to the output terminal of the first operational amplifier. 10. The switching device of claim 9 , wherein as the float moves from the first end of the second enclosure toward the second end of the second enclosure: when the float enters the first position range, the first position sensor transmits the first sensing signal to the inverting input terminal of the first operational amplifier, causing the first operational amplifier to output a low voltage; and when the float enters the second position range, the second position sensor transmits the second sensing signal to the non-inverting input terminal of the second operational amplifier, causing the second operational amplifier to output a high voltage which closes the switch. 11. The switching device of claim 9 , wherein as the float moves from the second end of the second enclosure toward the first end of the second enclosure: when the float has moved away from the second position range and has not entered the first position range, neither the first position sensor nor the second position sensor transmits the sensing signals to the detection circuit, and wherein the second operational amplifier outputs a high voltage to keep the switch closed; when the float enters the first position range, the first position sensor transmits the first sensing signal to the inverting input terminal of the first operational amplifier, causing the first operational amplifier to output a low voltage, and wherein the output low voltage of the first operation amplifier causes the second operational amplifier to output a low voltage, which opens the switch. 12. The switching device of claim 4 , wherein the power supply circuit further includes: a voltage converter, having an input end coupled to the power plug assembly and an output end coupled to the switch to supply power to the switch; and a voltage regulator, having an input end coupled to the output end of the voltage converter and an output end coupled to the detector unit to supply power to the detector unit. 13. A liquid level detection apparatus, comprising the switching device of claim 1 .