Flame arrestor screw

1 - 23 . (canceled) 24 . A solenoid operated gas admission valve (SOGAV) having a sealing element in a housing sealing solenoid coil leads from a gas in the SOGAV, comprising: a leak detection passage within the housing receiving a gas leak around or through the sealing element; a flame arrestor screw; wherein the leak detection passage receives the flame arrestor screw creating a circumferential gap between the leak detection passage and a portion of the flame arrestor screw to channel the gas into a through hole of flame arrestor. 25 . The SOGAV of claim 24 , wherein the circumferential gap is defined between a cylindrical outermost surface of a solid portion of the flame arrestor screw and a cylindrical wall surface of the housing defining the leak detection passage, the circumferential gap permitting the gas to pass along a longitudinal extension of the solid portion into the through hole. 26 . The SOGAV of claim 24 , wherein the flame arrestor screw is threadingly received into the leak detection passage. 27 . (canceled) 28 . The SOGAV of claim 24 , wherein the flame arrestor screw comprises: a screw body having a first end and an open end; a first gas passage extending from the open end along a longitudinal axis of the screw body and terminating at a terminal end within the screw body; the through hole extending through the screw body transverse to the first gas passage and in fluid communication with the first gas passage. 29 . The SOGAV of claim 28 , wherein the screw body has a screw body length extending from the open end to the first end, a distance from the open end to a center axis of the through hole being less than half of the screw body length. 30 . SOGAV of claim 28 , wherein the screw body includes a solid cylindrical portion that extends from the first end toward the open end to the first gas passage. 31 . The SOGAV of claim 30 , wherein the solid cylindrical portion extending between 30 and 70 percent of a screw body length, the screw body length extending from the open end to the first end. 32 . The SOGAV of claim 30 , wherein the screw body has a first cylindrical portion that includes the solid cylindrical portion, wherein the first cylindrical portion and the solid cylindrical portion have a first outermost diameter, and wherein the first cylindrical portion extends from the first end toward the open end and terminates at a first interface between the first portion and a second portion of the screw body. 33 . The SOGAV of claim 32 , wherein the second portion of the screw body has a second outermost diameter that is greater than the first outermost diameter. 34 . The SOGAV of claim 32 , wherein the first interface is a first circumferential chamfer transitioning the first outermost diameter to the second outermost diameter. 35 . The SOGAV of claim 32 , wherein the second portion extends from the first interface toward the open end to a head portion circumscribed by threads. 36 . The SOGAV of claim 28 , wherein the gas passage has a passage length extending from the open end to the terminal end that is 30 to 70 percent of a screw body length extending from the open end to the first end. 37 . The SOGAV of claim 28 , wherein the first gas passage has a first passage cylindrical portion having a first passage inner diameter, wherein the first passage cylindrical portion extends from the terminal end toward the open end to a first transition area between the first passage cylindrical portion and an engagement portion. 38 . The SOGAV of claim 37 , wherein the engagement portion has an engagement inner diameter that is greater than the first passage inner diameter. 39 . The SOGAV of claim 38 , wherein the engagement portion is shaped to cooperate with a tool that may be inserted therein to permit clockwise and counter clockwise rotation of the screw body to permit tightening and loosening of the screw body when received into a threaded gas passage. 40 . The SOGAV of claim 37 , wherein the engagement portion has an outlet to permit passage of a gas from the gas passage to a manifold passage and to sensors for detecting the gas. 41 . The SOGAV of claim 30 , wherein the screw body has a first cylindrical portion that includes the solid cylindrical portion, wherein the first cylindrical portion and the solid cylindrical portion have a first outermost diameter, and wherein the first cylindrical portion extends from the first end toward the open end and terminates at drive head. 42 . The SOGAV of claim 41 , wherein the first cylindrical portion has a threaded region between the solid cylindrical portion and the drive head, and the drive head is free of threads. 43 . The SOGAV of claim 41 , wherein the drive head has a second outermost diameter greater than the first outermost diameter. 44 . The SOGAV of claim 41 , wherein the drive head includes an engagement portion of the gas passage, the engagement portion including an outlet to permit passage of the gas from the first gas passage to a manifold passage and to sensors for detecting the gas. 45 . The SOGAV of claim 28 , wherein the first end is a closed end. 46 . The SOGAV of claim 28 , wherein the first end is a second open end. 47 . The SOGAV of claim 46 , wherein a second gas passage within the screw body is separated from the first gas passage within the screw body by a solid portion of the screw body such that the first and second gas passage portions are not fluidly connected. 48 . The SOGAV of claim 47 , wherein the second gas passage extends longitudinally from the second open end to a second through hole, the second through hole extending through the screw body transverse to the longitudinal extension of the second gas passage. 49 . The SOGAV of claim 48 , wherein a drive head at the open end of the screw body includes an engagement portion of the first gas passage, the engagement portion including an outlet to permit passage of the gas from the first gas passage to a manifold passage and to sensors for detecting the gas. 50 . The SOGAV of claim 47 , wherein a threaded region surrounds at least a portion of the screw body surrounding the second gas passage. 51 . A method for detecting the gas leak in the SOGAV of claim 24 , comprising the steps of: receiving a flow of the leaked gas into the leak detection passage of the housing of the SOGAV; passing the flow along the circumferential gap defined between the portion that is a solid cylindrical wall of the flame arrestor screw and a cylindrical wall of the leak detection passage, the circumferential gap having a length configured to arrest a flame that may result from an explosion of the gas within the housing; receiving the flow into the through hole extending through the solid cylindrical wall of the flame arrestor screw; passing the flow from the through hole to a gas passage of the flame arrestor screw; passing the flow from the gas passage to a sensor outside of the flame arrestor screw; sensing the flow passed to the sensor.