Patent ID: 9476590
Filing Date: 2016-10-25
CPC Classification: F23K,F23N

Claim Text:
1. A method of testing gas supply of a residential gas appliance, wherein the residential gas appliance has a control unit storing an ideal range of gas flow rate, and wherein a pipeline is connected to the gas appliance to supply gas to the gas appliance, the method comprising the steps of: controlling a cross section of the pipeline with an adjustable gas regulator; monitoring a flow rate of the gas flowing through the cross section of the pipeline, while the cross section of the pipeline remains unchanged due to control of the gas regulator, to generate a detected gas flow rate; comparing the detected gas flow rate with the ideal range of gas flow rate; providing an alarm when the detected gas flow rate is higher than a high limit of the ideal range or is lower than a low limit of the ideal range of gas flow rate, wherein the alarm is provided in response to the detected gas flow being outside of the ideal range; reducing the flow rate of the gas flow in the pipeline if the detected gas flow rate is higher than the high limit of the ideal range of gas flow rate, or raising the flow rate of the gas flow in the pipeline if the detected gas flow rate is lower than the low limit of the ideal range of gas flow rate until the detected gas flow rate falls back into the ideal range of gas flow rate; wherein the pipeline is provided with a sensor between the gas regulator and an outlet of the pipeline to monitor the flow rate of the gas flow; wherein a gas supply in the pipeline is determined to be abnormal if the detected gas flow rate is higher than the high limit of the ideal range or is lower than the low limit of the ideal range of gas flow rate; wherein the alarm informs a user that the gas supply is under an abnormal condition, which is not happening inside the residential gas appliance; wherein the flow rate of the gas flow in the pipeline is changed by providing the gas regulator a voltage to control the gas regulator changing a size of a cross section of the pipeline according to the voltage; wherein, after the detected gas flow rate falls back into the ideal range of gas flow rate, the size of the cross section of the pipeline remains unchanged; wherein, while reducing the flow rate of the gas flow in the pipeline, the flow rate is always greater than 0, and the cross section of the pipeline is never completely closed.