Pneumatic actuating injet valve with delayed shutoff

What is claimed is: 1. An injet for a gas burner, comprising: a first gas orifice; a second gas orifice; an injet body defining an air passage and a gas passage, the first and second gas orifices mounted to the injet body, the first gas orifice spaced from the second gas orifice on the injet body, the gas passage configured for directing gaseous fuel through the injet body to the first and second gas orifices; a pneumatically actuated gas valve adjustable between a closed configuration and an open configuration, the pneumatically actuated gas valve blocking a flow of gaseous fuel through the gas passage to the second gas orifice in the closed configuration, the pneumatically actuated gas valve configured to adjust from the closed configuration to the open configuration in response to a flow of air through the air passage; and a flow restriction body disposed upstream of the pneumatically actuated gas valve, the flow restriction body defining a through hole via which air is flowable to pneumatically actuated gas valve, wherein the pneumatically actuated gas valve is positioned within the injet body. 2. The injet of claim 1 , wherein the flow restriction body is positioned within the injet body in the air passage upstream of the pneumatically actuated gas valve, the flow of air through the air passage passing through the flow restriction body via the through hole. 3. The injet of claim 1 , wherein the pneumatically actuated gas valve comprises: a diaphragm positioned between the air passage and the gas passage within the injet body; a seal mounted to the injet body within the gas passage; and a plug mounted to the diaphragm, the plug positioned against the seal in the closed configuration. 4. The injet of claim 3 , wherein the diaphragm is a circular diaphragm. 5. The injet of claim 3 , wherein the pneumatically actuated gas valve further comprises a spring coupled to the seal, the spring urging the plug towards the seal. 6. The injet of claim 3 , wherein the injet body comprises an injet body base and an injet body cover, the diaphragm clamped between the injet body base and the injet body cover. 7. The injet of claim 6 , wherein the flow restriction body comprises a flow restriction plate, and the flow restriction plate is clamped between the injet body base and the injet body cover. 8. The injet of claim 1 , wherein the flow restriction body is positioned within the injet body, and the flow restriction body is removable from the injet body. 9. An injet for a gas burner, comprising: a first gas orifice; a second gas orifice; an injet body defining an air passage and a gas passage, the first and second gas orifices mounted to the injet body, the first gas orifice spaced from the second gas orifice on the inj et body, the gas passage configured for directing gaseous fuel through the injet body to the first and second gas orifices; a pneumatically actuated gas valve adjustable between a closed configuration and an open configuration, the pneumatically actuated gas valve blocking a flow of gaseous fuel through the gas passage to the second gas orifice in the closed configuration, the pneumatically actuated gas valve configured to adjust from the closed configuration to the open configuration in response to a flow of air through the air passage; and a flow restriction body disposed upstream of the pneumatically actuated gas valve, the flow restriction body defining a through hole via which air is flowable to pneumatically actuated gas valve, wherein a width of the through hole is no less than one hundredth of an inch and no greater than twenty-five thousandths of an inch. 10. A gas burner, comprising: a burner body defining a plurality of naturally aspirated flame ports and a plurality of forced induction flame ports; a first gas orifice; a second gas orifice; an injet body defining an air passage and a gas passage, the gas passage configured for directing gaseous fuel through the injet body to the first and second gas orifices, the first gas orifice mounted to the injet body such that the first gas orifice is oriented for directing gaseous fuel from the gas passage towards the plurality of naturally aspirated flame ports, gaseous fuel from the second gas orifice flowable to the plurality of forced induction flame ports; a pneumatically actuated gas valve adjustable between a closed configuration and an open configuration, the pneumatically actuated gas valve blocking a flow of gaseous fuel through the gas passage to the second gas orifice in the closed configuration, the pneumatically actuated gas valve configured to adjust from the closed configuration to the open configuration in response to a flow of air through the air passage; and a flow restriction body positioned within the injet body, the flow restriction body disposed within the air passage upstream of the pneumatically actuated gas valve, the flow restriction body defining a through hole, the flow of air through the air passage passing through the flow restriction body via the through hole, wherein the pneumatically actuated gas valve is positioned within the injet body. 11. The gas burner of claim 10 , wherein the flow restriction body is positioned within the injet body in the air passage upstream of the pneumatically actuated gas valve, the flow of air through the air passage passing through the flow restriction body via the through hole. 12. The gas burner of claim 10 , wherein the pneumatically actuated gas valve comprises: a diaphragm positioned between the air passage and the gas passage within the injet body; a seal mounted to the injet body within the gas passage; and a plug mounted to the diaphragm, the plug positioned against the seal in the closed configuration. 13. The gas burner of claim 12 , wherein the diaphragm is a circular diaphragm. 14. The gas burner of claim 12 , wherein the pneumatically actuated gas valve further comprises a spring coupled to the seal, the spring urging the plug towards the seal. 15. The gas burner of claim 12 , wherein the injet body comprises an injet body base and an injet body cover, the diaphragm clamped between the injet body base and the injet body cover. 16. The gas burner of claim 15 , wherein the flow restriction body comprises a flow restriction plate, and the flow restriction plate is clamped between the injet body base and the injet body cover. 17. The gas burner of claim 10 , wherein the flow restriction body is positioned within the injet body, and the flow restriction body is removable from the injet body. 18. The gas burner of claim 10 , wherein a width of the through hole is no less than one hundredth of an inch and no greater than twenty-five thousandths of an inch.