RPM control method for inducer for gas furnace

What is claimed is: 1. A revolutions per minute (RPM) control method for an inducer for a gas furnace that induces a flow of combustion gas produced in a burner from a heat exchanger to an exhaust pipe, the RPM control method comprising: (a) initiating a heating operation for the gas furnace; (b) determining whether an operation time during which the heating operation is performed is equal to or longer than a first time period; (c) if it is determined that the operation time is equal to or longer than the first time period, detecting whether a pressure switch is turned OFF; (d) if the pressure switch is detected as turned OFF, increasing the RPM of the inducer by a first value; (e) if the pressure switch is detected as turned ON, determining whether the operation time is equal to or longer than a second time period which is longer than the first time period; and (f) if it is determined that the operation time is equal to or longer than the second time period, decreasing the RPM of the inducer by a second value, wherein the first value is a value corresponding to 3 to 7% of a maximum RPM of the inducer, and the second value is a value corresponding to 0.5 to 1.5% of the maximum RPM of the inducer. 2. The RPM control method of claim 1 , wherein the pressure switch is turned ON if a pressure at an intake end of the inducer is equal to or lower than a predetermined value and turned OFF if the pressure at the intake end of the inducer exceeds the predetermined value. 3. The RPM control method of claim 1 , wherein, if it is determined that the operation time is shorter than the first time period in the step (b) or that the operation time is shorter than the second time period in the step (e), the flow returns to the step (a). 4. The RPM control method of claim 1 , wherein the second time period is 15 to 45 times longer than the first time period. 5. The RPM control method of claim 1 , wherein the first value is a value corresponding to 250 to 350 RPM of the inducer, and the second value is a value corresponding to 25 to 75 RPM of the inducer. 6. The RPM control method of claim 2 , wherein the pressure switch comprises a plurality of pressure switches with different predetermined values, and wherein the step (c) comprises: (c1) detecting a capacity for the heating operation; and (c2) determining whether a pressure switch corresponding to the heating operation capacity, among the plurality of pressure switches, is turned OFF. 7. The RPM control method of claim 6 , wherein the plurality of pressure switches comprise a low-pressure switch with a first predetermined value, a mid-pressure switch with a second predetermined value lower than the first predetermined value, and a high-pressure switch with a third predetermined value lower than the second predetermined value, and wherein the step (c2) comprises determining whether the low-pressure switch is turned OFF if the heating operation capacity is within a first capacity range, determining whether the mid-pressure switch is turned OFF if the heating operation capacity is within a second capacity range greater than the first capacity range, and determining whether the high-pressure switch is turned OFF if the heating operation capacity is within a third capacity range greater than the second capacity range. 8. A revolutions per minute (RPM) control method for an inducer for a gas furnace that induces a flow of combustion gas produced in a burner from a heat exchanger to an exhaust pipe, the RPM control method comprising: (a) initiating a heating operation for the gas furnace; (b) determining whether an operation time during which the heating operation is performed is equal to or longer than a first time period; (c) if it is determined that the operation time is equal to or longer than the first time period, detecting whether a pressure switch is turned OFF; (d) if the pressure switch is detected as turned OFF, increasing the RPM of the inducer by a first value; (e) if the pressure switch is detected as turned ON, determining whether the operation time is equal to or longer than a second time period which is longer than the first time period; and (f) if it is determined that the operation time is equal to or longer than the second time period, decreasing the RPM of the inducer by a second value, wherein the second time period is 15 to 45 times longer than the first time period. 9. The RPM control method of claim 8 , wherein the pressure switch is turned ON if a pressure at an intake end of the inducer is equal to or lower than a predetermined value and turned OFF if the pressure at the intake end of the inducer exceeds the predetermined value. 10. The RPM control method of claim 9 , wherein the pressure switch comprises a plurality of pressure switches with different predetermined values, and wherein the step (c) comprises: (c1) detecting a capacity for the heating operation; and (c2) determining whether a pressure switch corresponding to the heating operation capacity, among the plurality of pressure switches, is turned OFF. 11. The RPM control method of claim 10 , wherein the plurality of pressure switches comprise a low-pressure switch with a first predetermined value, a mid-pressure switch with a second predetermined value lower than the first predetermined value, and a high-pressure switch with a third predetermined value lower than the second predetermined value, and wherein the step (c2) comprises determining whether the low-pressure switch is turned OFF if the heating operation capacity is within a first capacity range, determining whether the mid-pressure switch is turned OFF if the heating operation capacity is within a second capacity range greater than the first capacity range, and determining whether the high-pressure switch is turned OFF if the heating operation capacity is within a third capacity range greater than the second capacity range. 12. The RPM control method of claim 8 , wherein, if it is determined that the operation time is shorter than the first time period in the step (b) or that the operation time is shorter than the second time period in the step (e), the flow returns to the step (a). 13. A revolutions per minute (RPM) control method for an inducer for a gas furnace that induces a flow of combustion gas produced in a burner from a heat exchanger to an exhaust pipe, the RPM control method comprising: (a) initiating a heating operation for the gas furnace; (b) determining whether an operation time during which the heating operation is performed is equal to or longer than a first time period; (c) if it is determined that the operation time is equal to or longer than the first time period, detecting whether a pressure switch is turned OFF; (d) if the pressure switch is detected as turned OFF, increasing the RPM of the inducer by a first value; (e) if the pressure switch is detected as turned ON, determining whether the operation time is equal to or longer than a second time period which is longer than the first time period; and (f) if it is determined that the operation time is equal to or longer than the second time period, decreasing the RPM of the inducer by a second value, wherein the first value is a value corresponding to 250 to 350 RPM of the inducer, and the second value is a value corresponding to 25 to 75 RPM of the inducer. 14. The RPM control method of claim 13 , wherein the pressure switch is turned ON if a pressure at an intake end of the inducer is equal to or lower than a predetermined value and turned OFF if the pressure at the intake end of the inducer exceeds the predetermined value. 15. The RPM control method of claim 14 , where