TH17795B - Co-assembly inflator with sudden pressure flow actuation - Google Patents

Abstract

Co-assembly inflator for a vehicle's inflatable safety system In which, in one form, the inflator consists of a gas collector housing. And gas generator housing Stimulant pellets are contained in a gas generator. And the appropriate pressurized medium is contained in the gas collector housing. In general, the intermediate that Compressed pressure will flow through the gas generator. Or expand when chest goes From the inflator to the air bag / air bag This helps to enhance the mixing of the pressurized medium with the stimulant gas. In addition, the rapidly increasing pressure Of the area near the cover plate The core is used where the fluid pressure is applied directly over the disc to open it, initiating the flow. To the air bag / air bag

Claims (4)

1. An inflator for a safety system that can inflate a car equipped with an inflator housing. Pressurized media contained within the housing of the housing. Inflate the air. The pressurized medium will assemble. With inert gas And a specified amount of oxygen, a gas generator set that is connected with each other with the blister housing Such wind and will It consists of a gas generator housing and a At least one gas generator outlet. Stimulants contained in the housing of such gas generators. Where stimulants sound Namely, injectable stimulants, in which the injectable stimulants are selected from the group containing single-base stimulants. Triple base stimulants And nitramine stimulants and inflation stimulants to work Which media that compresses pressure It will be released 2. The inflator according to claim 1, where the inert gas is argon. 3. The inflator according to Clause 1. Holds the right to Article 1 in which the pressurized medium, depending on the number of molars, is approximately 70% to approximately 90% of the said inert gas and from approximately 10% to approximately 30% of the aforementioned oxygen. According to claim No. 1, which the media that compresses the pressure Depending on the number of molars, which is approximately 85% of the said inert gas and about 15% of the aforementioned oxygen. 5. Inflator according to claim 1, which gas stimulant. And the pressurized media are mixed together to determine the output gas. By gas output as Said containing the number of molars Not more than approximately 20% of the oxygen. 6. Inflator according to claim 1, which the ratio of the weight of the compressed media to such pressure. On the weight of the substance Such urge In the range of approximately 10 to approximately 20 7. Inflator according to claim 1, the ratio of the weight of the compressed medium to the weight of the stimulant. In the range of approximately 14 to approximately 18 8. Inflator according to claim 1, which the ratio of the weight of the compressed media to the said On the weight of the substance Such urge More than 15 9. The inflator according to Clause 1, which gas stimulant is said. And such a pressurized medium is determined, the cumulative export gas and where the gram ratio Pollution of the said output gas The weight in grams of the stimulant ranges from approximately 0.35 to approximately 0.6 1 0. Inflator according to claim 1, where the amount of the stimulant It ranges from approximately 10 grams to approximately 12 grams. 1 1. Inflator according to claim 1, in which the amount of such stimulant Less than about 15 grams 1 2. Inflator according to claim 11, in which the amount of compressed injection stimulant Not more than approx. 15 g and the said oxygen not more than approx 15% of the intermediate. That compresses the pressure Depending on the number Portent Molars 1 3. Inflator according to claim 11, in which the compressed injectable stimulant is nitramine 1 4. Methods for the operation of an inflatable safety system. That contain air bags / airbags And an inflated body that consists of The body of the inflator The pressurized medium contained within the body of the inflator. Main cover sheet address Between the compressed media Such pressure and air bags / airbags And a gas generator connected by the fluid path and the housing of the inflator and will contain a stimulant. Such gas generator Consisting of a room that is connected with each other in the first fluid way And the second room The first room contained the stimulant. Will be positioned between the rooms One such And the aforementioned main cover plate and will be able to interconnect the fluid way with the inflator housing. And cause gas to stimulate As a result of combustion, the provision of a flow path from the said gas generator to the aforementioned main cover, the provision of at least part of the doping gas. From the one mentioned room To the second such room Providing part of the said stimulant gas from the room One such to the body of the aforementioned inflator Increasing the pressure of the fluid within a properly defined area Little part By the aforementioned main cover sheet By using the arrangement of a flow line step. Loud pressure increase It consists of chemically reacting at least part of the said stimulant gas with the pressurized medium. Such a second chamber consists of that area and which joins the surface of the main cover plate, opening the main cover plate using the aforementioned pressure boosting process and making A direct flow to the air bag / airbag after the opening process of the pad, the flow consists of a chemical mixture of the gas, the stimulant and the pressurized intermediate.1 5. Method According to claim 14, which gasification procedures are Cause Toxic stimulant gas, loud chemical mixing process. This will reduce the toxicity of the said stimulant gas and the combustion of the said stimulant gas 1 6. Method of claim 14 in which the gas generators will consist of interconnected chambers. Room fluid One and the second, in which the first such room Will contain such stimulants The second room will be located between the first. And the aforementioned main cover sheet, which contains The area and Articulated With the aforementioned main cover plate And will be able to link between each other in a fluid way With the body of the inflator, however, the method will also consist of steps of Arrangement in which at least part of the aforementioned stimulant gas from the first chamber to the aforementioned second chamber 1 7. An inflator for an inflated safety system consists of a body housing. Inflate Pressurized media It is contained within, at least, the housing of such an inflator, where the pressurized medium contains at least one vital component of oxygen and inert gases. And where the pressurized medium Is the only pressurized liquid contained within the inflator. Before the activation of the inflator, the gas generator is connected to the gas generator housing and will consist of the gas generator housing and at least a gas generator outlet. The stimulant contained in the housing of such a gas generator containing a second explosive. And the grip system Where the stimulant will have a burning rate ranging from approximately 0.1 inch per second (0.25 cm / s) to approximately 1 inch per second (5.0 cm / s) at 4,000 psi (27.6 Mpa). The combustion temperature ranges from approximately 2,000 ํ K to approximately 3,800 ํ K and is stable to Heat for a long time The second explosive was selected from a group consisting of RDX (hexahydroonitroazin), HMX (cyclotetramethylene). Tetranitramine), PETN (pentahydrotol tetranitate) and TAGN (triaminoguanidine nitrate), such binding systems. It was selected from a group containing polymer binders, plasticizers, stabilizers and combinations of these. The binding system consists of at least one type from energetic gyisidyl azide polymer, nitrate ester plasticizer, geyidyl plasticizer. Azides, Nitroglycerin and BDNPA / F (Bis (2,2-dinitropyl) acetol / formol) and an inflatable actuation actuator consist of a point material. Explosions other than substances Such urge Where the compressed medium The pressure is released from the inflator housing and the stimulant is blown up depending on the Starting the work of the inflatable actuator 1 8. Inflator according to claim 17, at least one of the aforementioned inert gas is argon 1. 9. Inflator according to claim 17, which the compressed medium The pressure depends on the number of molars, approximately 70% to approximately 90% of at least one such type of inert gas, and from approximately 10% to 30% of the aforementioned oxygen. 2 0. According to claim No. 17, which the media that compresses the pressure This depends on the number of molars, ie approximately 85% of at least one such type of inert gas and approximately 15% of that oxygen. 2 1. Inflator according to claim 17, which the stimulant gas from the combustion of the Such stimulants And the pressurized media are mixed together to determine the output gas. The gas exported will contain the number of molars. Not more than approximately 25% of the oxygen 2 2. Inflator according to claim 17, the second such explosive consisted of 50 wt% to approximately 90 wt% of the said stimulant. And a loud grip system Accompanying From approximately 10 wt% to approximately 50 wt% of the aforementioned stimulant 2 3. Inflator according to claim 17, the second such explosive containing from approximately 60 wt% to approximately 80 wt% of Such stimulants And a loud grip system Accompanying With from approximately 20 wt% to approximately 40 wt% of the said stimulant 2 4. Inflator according to claim 17, the second such explosive consisted of approximately 70 wt% to approximately 80 wt%. Of such stimulants And a loud grip system Accompanying From approximately 20 wt% to approximately 30 wt% of the said stimulant. 2. 5. Inflator according to claim 17, the second explosive containing RDX (hexahydrotinito). Riacin) and the binder system consists of (cellulose acetate), TMETN (trimethylolitanetronitrate) and ethyl centralite 2 6. Inflator according to claim 25, which the said stimulant Contains at least approximately 70 wt% of such RDX (hexahydro Trinitroazin), from approximately 5 wt% to approximately 15 wt% cellulose acetate, from approximately 5 wt% to approximately 15 wt. % Of the said TMETN (trimethylosthenrinitrate) and not more than approximately 2 wt% of the said ethyl centralite 2 7. Inflator according to the claim. Article 17 The second explosive contains RDX (Hexahydro Trinitroiazin) and the binder system will consist of GAP (Geyzikylacide Polymer). B) and plasticizer 2 8. Inflator according to claim 17, the second explosive It consists of RDX (Hexahydro Trinitroazin) and the binder system consists of cellulose acetate and GAP (Gyzikylacide Polymer). And plasticizer 2. 9. Inflator according to claim 28, which will contain at least 70 wt% of RDX (hexahydromonitroazin) from approximately 5 wt% to approximately 15. wt% of cellulose acetate and from approximately 5 wt% to approximately 15 wt% of GAP (gyzikylacide polymer) and from approximately 5 wt% to approximately 15 wt% of reagent. Plastics selected from a group containing ATEC (acetyltriethyl citrate and GAP plasticizer) 3 0. The inflator for the vehicle's inflatable safety system consists of an inflator housing. wind Pressurized media Contained within the housing of the body Inflate it The gas generator is connected to the gas generator housing and consists of the gas generator housing and at least a gas generator outlet. The stimulant is contained within the housing of the gas generator, the stimulant consists of a second explosive and a binding system, where the second explosive contains RDX (hexahydroonitone). Riacin) and the binding system will Contains cellulose acetate, TMETN (trimethyloneethenrinitrate) and ethyl centralite, and an inflatable actuator kit. Where the medium that compresses Such pressure will be released. Out of the housing of the said inflator And the stimulant will be exploded depending on the start First work of the inflator stimulator to perform the task 3. 1.The inflator according to claim 30 which consists of At least approximately 70 wt% of such RDX (hexahydro Trinitroazin), from approximately 5 wt% to approximately 15 wt% of amino cellulose. Such cetate and from approximately 5 wt% to approximately 15 wt% of TMETN (trimethylenethenrinitrate) and not more than approximately 2 wt% of ethyl centralite. Such 3 2.The inflatable body for the car's inflatable safety system consists of the inflatable housing. Pressurized media Contained within the housing of the body Inflate it The gas generator is connected to the gas generator housing and consists of the gas generator housing. And at least the channel One channel gas generator outlet The stimulant is contained within the housing of the gas generator, the stimulant consists of a second explosive and a binding system, where the second explosive contains RDX (hexahydroonitone). Riacin), and the binding system consists of GAP (Gyzikylacide Polymer) and a plasticizer and an inflatable actuator. Where the medium that compresses Such pressure will be released. Out of the housing of the said inflator And the stimulant will be exploded Depending on the start First work of the inflator stimulator to perform the task 3. 3.The inflatable body for the car's inflatable safety system consists of the inflatable housing. Pressurized media Contained within the housing of the body Inflate it The gas generator is connected to the gas generator housing and consists of the gas generator housing. And at least the channel One channel gas generator outlet The stimulant is contained within the housing of the gas generator, the stimulant consists of a second explosive and a binding system, where the second explosive contains RDX (hexahydrophilisation). Troacin) and such binding system. It consists of cellulose acetate and GAP (Gyzikylacide Polymer), and a plasticizer and an inflator-activated actuator where the compressed intermediates The pressure is released from the body of the inflator and the stimulant is blown up depending on the start. Early work of the inflatable actuator To do such work 3 4.The inflator according to claim 28 which consists of At least approximately 70 wt% of the said RDX (hexahydro Trinitrotriazin), from approximately 5 wt% to approximately 15 wt% of amino cellulose. The cetate, and from approximately 5 wt% to approximately 15 wt% of such GAP (gyzikylacide polymer), and from approximately 5 wt% to approximately 15 wt% of the plasticizer. Selected From a group containing ATEC (acetyltriethyl citrate) and GAP plasticizer