Fire protection sprinkler having a push-in connection

We claim: 1. A fire protection sprinkler having a push-in connection for being connected to a fluid supply conduit, the fluid supply conduit having an outlet, the outlet having an internal bore with an internal circumferential groove, the fire protection sprinkler comprising: a sprinkler frame having an input end and an output end, and a plurality of grooves at the input end; a frangible element designed to fail at a predetermined temperature so that fluid flows from the fluid supply conduit to the output end of the sprinkler frame; at least one sealing gasket, each of the at least one sealing gasket being located at least partially within a corresponding one of the plurality of grooves in the sprinkler frame; and a retainer also at least partially located within a corresponding one of the grooves in the sprinkler frame, wherein the retainer is oval and has an inner peripheral surface, an upper edge, and a recessed groove, and the retainer connects the fire protection sprinkler to the internal circumferential groove of the internal bore of the outlet of the fluid supply conduit when the fire protection sprinkler is connected to the fluid supply conduit, wherein, when the fire protection sprinkler is inserted into the fluid supply conduit so as to be connected to the fluid supply conduit, the at least one sealing gasket seals against the internal bore of the outlet of the fluid supply conduit. 2. The fire protection sprinkler according to claim 1 , wherein the at least one sealing gasket is a notched gasket having an inner peripheral surface, an outer peripheral surface, and a notch. 3. The fire protection sprinkler according to claim 1 , wherein the at least one sealing gasket has one or more lobes, each lobe including a sealing lobe, a recess, and an inner peripheral surface. 4. The fire protection sprinkler according to claim 1 , wherein the retainer is a spring mechanism having a diameter, the diameter of the retainer being reduced when the fire protection sprinkler is inserted into the internal bore of the outlet of the fluid supply conduit, and the diameter of the retainer expanding to maintain pressure against the internal bore of the outlet when the fire protection sprinkler is installed in the internal bore. 5. The fire protection sprinkler according to claim 4 , wherein the retainer is located at least partially within both the corresponding groove in the sprinkler frame and the internal circumferential groove in the internal bore of the outlet of the fluid supply conduit when the fire protection sprinkler is installed in the internal bore, in order to maintain a positive connection between the fire protection sprinkler and the internal bore. 6. The fire protection sprinkler according to claim 5 , wherein the fire protection sprinkler is removed from the internal circumferential groove of the internal bore of the outlet by compressing the retainer so that the diameter of the retainer is reduced to be less than a diameter of the internal bore of the outlet, allowing the fire protection sprinkler to be pulled from the internal bore of the outlet for removal of the fire protection sprinkler. 7. The fire protection sprinkler according to claim 1 , wherein the at least one sealing gasket is a pressure sealed gasket having one or more sealing fins. 8. The fire protection sprinkler according to claim 7 , wherein one side of each fin contacts the internal bore of the outlet of the fluid supply conduit when the fire protection sprinkler is installed in the internal bore, and another side of each fin is exposed to water or air contained within the fluid supply conduit. 9. The fire protection sprinkler according to claim 8 , wherein, when the water or the air contained within the fluid supply conduit is pressurized, the water or the air presses a respective sealing fin against the internal bore of the outlet of the fluid supply conduit, to seal the fire protection sprinkler. 10. The fire protection sprinkler according to claim 1 , wherein the retainer is a multi-lobe retainer spring mechanism. 11. The fire protection sprinkler according to claim 10 , wherein the multi-lobe retainer spring mechanism has a depending leg, an arcuate segment, and an adjoining arcuate segment. 12. The fire protection sprinkler according to claim 10 , wherein the multi-lobe retainer spring mechanism is made of a material selected from the group consisting of stainless steel, music wire, cold drawn wire, oil tempered wire, and brass. 13. The fire protection sprinkler according to claim 1 , wherein the at least one sealing gasket is an O-ring made of a synthetic rubber or a thermoset material. 14. The fire protection sprinkler according to claim 13 , wherein the synthetic rubber or the thermoset material is selected from the group consisting of butadiene rubber, butyl rubber, chlorosulfonated polyethylene, epichloronhydrin rubber, ethylene propylene diene monomers, ethylene propylene rubber, fluoroelastomers, nitrile rubber, perfluoroelastomer, polyacrylate rubber, polychloroprene, polyisoprene, polysulfide rubber, polytetrafluoroethylene, sanifluor, and silicon rubber. 15. The fire protection sprinkler according to claim 1 , wherein the at least one sealing gasket is an O-ring made of a thermoplastic material. 16. The fire protection sprinkler according to claim 15 , wherein the thermoplastic material is selected from the group consisting of thermoplastic elastomer styrenics, thermoplastic polyolefin LDPE, HDPE, LLDPE, ULDPE, thermoplastic polyurethane polyether or polyester, thermoplastic etheresterelastomer copolyesters, thermoplastic polyamides, melt processible runner, and thermoplastic vulcanizate. 17. A fire protection sprinkler having a push-in connection for being connected to a fluid supply conduit, the fluid supply conduit having an outlet, the outlet having an internal bore with an internal circumferential groove, the fire protection sprinkler comprising: a sprinkler frame having an input end and an output end, and a plurality of grooves at the input end; a frangible element designed to fail at a predetermined temperature so that fluid flows from the fluid supply conduit to the output end of the sprinkler frame; at least one sealing gasket, each of the at least one sealing gasket being located at least partially within a corresponding one of the plurality of grooves in the sprinkler frame and each of the at least one sealing gasket being a notched gasket having an inner peripheral surface, an outer peripheral surface, and a notch; and a retainer also at least partially located within a corresponding one of the grooves in the sprinkler frame, the retainer connecting the fire protection sprinkler to the internal circumferential groove of the internal bore of the outlet of the fluid supply conduit when the fire protection sprinkler is connected to the fluid supply conduit, wherein, when the fire protection sprinkler is inserted into the fluid supply conduit so as to be connected to the fluid supply conduit, the at least one sealing gasket seals against the internal bore of the outlet of the fluid supply conduit. 18. The fire protection sprinkler according to claim 17 , wherein the retainer is oval and has an inner peripheral surface, an upper edge, and a recessed groove. 19. The fire protection sprinkler according to claim 17 , wherein the retainer is a spring mechanism having a diameter, the diameter of the retainer being reduced when the fire protection sprinkler is inserted into the internal bore of the outlet of the fluid supply conduit, and the diameter of