TH25033B - Various components and methods for use with explosives. - Google Patents

Abstract

DC60 (04/07/44) A set of equipment and methods was provided to reduce the interference resulting from the To start the explosive device, one type of intervention is the eruptive interference Another type of spurt and interference is pre-impact interference during Slates and explosives, such as a formed catalyst. In order to reduce that interference One or more impact resistance elements are positioned nearby. Against one or more explosives to resist the spread of shocks caused by The detonation of explosives. Such impact resistance elements are included. Porous materials, such as porous liquids or solids. In another arrangement The shock barrier may be positioned between the fuze and the explosive to reduce the risk of shock. Interpolate shocks in advance. In another special feature Enclosures may be provided. Surrounding one or more of these organized eruptions to improve structural support for Better shaped eruptions. A set of equipment and procedures has been provided to reduce the interference resulting from the To start the explosive device, one type of intervention is the eruptive interference Another type of spurt and interference is pre-impact interference during Slates and explosives, such as a formed catalyst. In order to reduce that interference One or more impact resistance elements are positioned nearby. Against one or more explosives to resist the spread of shocks caused by The detonation of explosives. Such impact resistance elements are included. Porous materials, such as porous liquids or solids. In another arrangement The shock barrier may be positioned between the fuze and the explosive to reduce the risk of shock. Interpolate shocks in advance. In another special feature Enclosures may be provided. Surrounding one or more of these organized eruptions to improve structural support for Better shaped eruptions.

Claims (5)

1.Explosive devices for use in well-drilled wells environments Containing Support structure with ribbed belt A number of formed polymorphisms transported by streak strips. And composition For impact resistance, one or more pieces are transported. By strip conveyor and coming close to A number of polymorphisms are organized to provide resistance to shock wave propagation. In the borehole environment formed by igniting a formed spurt. Where each piece of the impact element, one or more, consists of a number of hollow structured porous solids 2. Explosive devices according to claim 1, where the porous solid Such contain The materials selected were from the group consisting of honeycomb and foam materials of metal. 3. Explosive devices according to claim 1, where such porous solids are Contains epoxy blended into different shells, each containing an It can be compressed. 4. Explosive devices according to claim 1, where the elements for resistance to force One or more shocks consist of a material having approximately 2% more porosity. 5. Explosive devices according to claim 1, where the resistive element One or more shocks consist of a material having approximately 5% more porosity. 6. Explosive devices according to claim 1, where the resistive element One or more shocks consist of a material having approximately 10% more porosity. 7. Explosive devices according to claim 1, where the resistive element One or more shocks consist of a material having approximately 20% more porosity. 8. Explosive devices according to claim 1, where the resistive elements are One or more shocks consist of a porous material ranging from approximately 2% to approximately 90%. 9. Explosives device according to claim 1, where the impact resistance element is used for the impact resistance. One or more of them encapsulates the 1 0. Explosive device in accordance with claim 1, where the shock-resistant element One or more enclosures that are formed from shock-resistant materials to Encapsulate at least part of the streak band and the eruption that has been shaped 1 1. Explosive device according to claim 10, where the supporting structure consists of ear pads. The twisted elephant with a support ring to receive a shaped eruption 1 2. Explosives device according to claim 1, where the hollow structure in solid The spherical spheres are composed of a comma 1 3. Explosives device according to claim 1, where the formed spheres are arranged in Spiral design 1 4. Explosive devices for use in borehole environments consisting of Support structure A certain amount of explosives transported by one or more supporting structures and shock resistance elements transported by the structure. It supports and approaches a number of explosives to provide resistance to the spread of the The impact force in the borehole environment caused by the detonation of explosives. Where each or more of the impact resistance elements are Contains porous solids. Where the porous solid consists of material selected from the group containing cement that Were mixed with different shells, each containing a compressible component and epoxy Each shell was mixed with a different shell, each containing a compressed component. 1 5. Explosive devices according to claim 14, where the compressed elements The aforementioned consists of gas and vacuum, either. 1 6. Explosive devices according to claim 14, where the shells consist of. Comma 1 7. Explosives device according to claim 14, where explosives consist of blasted fuel. Arrange the shapes that are arranged in a spiral pattern 1. 8. Explosive devices are used in the drilling hole environment. Containing A number of explosives and one or more impact resistance elements near the explosives. A number of measures to provide resistance to the propagation of shock waves in an environment of A borehole formed by detonating explosives. Where one or more impact resistance elements consist of Compounds including hollow fill materials, heavy powders and binders 1 9. Explosives devices according to claim 18, where the binder is selected from the group. It consists of polymers, cement-based compounds, metals and elastic substances. 2 0. Explosive devices according to claim 18, where the binder is selected from the group. It consists of a solid binder, a liquid binder, and a gel binder. 2 1. Explosive devices according to claim 18, where the hollow filler is formed. It consists of various shells containing compressible elements with volumetric values. 2. 2. Explosive devices according to claim 18, where heavy powders have a total density of approximately 0.5 g / cm3. Claim 18 where the heavier powders have a total density of approximately 1.0 g / cm3. 2 4. Explosive devices according to claim 18, where the heavier powders have density. The total range is between approximately 0.5 and 10 grams per cubic centimeter. 2. 5. Explosive devices for use in borehole environments. Containing A number of explosives One or more impact resistance elements near explosives. To provide a certain resistance to the wave propagation of the first shock in the environment of A borehole formed by detonating explosives and streaked drilling guns. Where the explosives consist of an eruption that is Connected with one or more anti-impact strips and elements consisting of A porous material encapsulated at least part of the streak band and capsule eruption 2 6. Explosives device according to claim 25, where the capsule eruption is arranged in Helical style 2. 7. Explosives device for use in borehole environments. Containing A number of explosives and one or more impact resistance elements near the explosives. A number of measures to provide resistance to the propagation of shock waves in an environment of A borehole formed by detonating explosives, where explosives consist of a bore gun with a hollow carrier and a container, and where the explosives contain a mounted, shapely-formed spigot. To the filling tube And one or more impact resistance components, consisting of porous material inside the containment tube. 2. 8. Explosive devices for use in the well-borehole environment that include: A number of explosives and one or more impact resistance elements near the explosives. A number of measures to provide resistance to the propagation of shock waves in an environment of A borehole formed by detonating explosives, pipelines where explosives consist of a zigzag-shaped eruption inside the pipeline and one or more impact resistance elements, consisting of hole material. porous Located inside the pipeline and the strip on which the transport pipe is installed. 2. 9. Explosive devices for use in the well-borehole environment. Containing A number of explosives and one or more impact resistance elements near the explosives. A number of measures to provide resistance to the propagation of shock waves in an environment of A borehole formed by detonating explosives. Where one or more impact resistance elements consist of a layer A number of components are formed from different types of porous materials surrounding at least parts of the explosive 3 0. An assembly containing explosives and porous materials. Near the explosives to resist the shocks caused by the detonation of the explosives Where the porous material is loaded with a hollow filler to obtain porosity. That was predetermined Where the porous material is also packed with a heavy powder to achieve accurate density. Preset 3 1. Kit according to claim 30, where the porous material is also enclosed with a binder 3. 2. The equipment set according to claim 30, where the hollow inserts are also packed. Volume one 3 3. Equipment set according to claim 32, where the hollow inserts are also packed. Vacuum, volume one 3 4. A set of equipment that includes Conveyor belt A number of explosive materials Which at least some sets of explosives It is installed on one or more anti-impact strips and elements that come into contact with a number of explosives, each of one or more impact resistance elements being formed. It is made up of a porous material to resist shocks that occur. By detonating explosives 3 5. Set of equipment according to claim 34, where one impact element Or rather contains enclosures Surrounding explosive material