公开(公告)号：US10106894B2

公开(公告)日：2018-10-23

申请号：US14827752

申请日：2015-08-17

Applicant: Dynetics, Inc.

Inventor： James L. Maxwell ,  Nicholas Webb ,  James Allen

IPC: C23C16/48 ,  D04H1/4242 ,  C04B35/622 ,  D01F9/127 ,  C23C16/08 ,  C23C16/20 ,  C23C16/50 ,  C23C16/52 ,  D01F8/18 ,  C04B35/58

Abstract: The disclosed methods and apparatus improve the fabrication of solid fibers and microstructures. In many embodiments, the fabrication is from gaseous, solid, semi-solid, liquid, critical, and supercritical mixtures using one or more low molar mass precursor(s), in combination with one or more high molar mass precursor(s). The methods and systems generally employ the thermal diffusion/Soret effect to concentrate the low molar mass precursor at a reaction zone, where the presence of the high molar mass precursor contributes to this concentration, and may also contribute to the reaction and insulate the reaction zone, thereby achieving higher fiber growth rates and/or reduced energy/heat expenditures together with reduced homogeneous nucleation. In some embodiments, the invention also relates to the permanent or semi-permanent recording and/or reading of information on or within fabricated fibers and microstructures. In some embodiments, the invention also relates to the fabrication of certain functionally-shaped fibers and microstructures. In some embodiments, the invention may also utilize laser beam profiling to enhance fiber and microstructure fabrication.

公开(公告)号：US20180105271A1

公开(公告)日：2018-04-19

申请号：US15656295

申请日：2017-07-21

Applicant: Dynetics, Inc.

Inventor： Aaron Wypyszynski ,  Bill Martin ,  John Roy ,  Stephen R. Norris

IPC: B64D1/00 ,  B64C39/02

Abstract: The present disclosure primarily relates to interceptor unmanned aerial systems and methods for countering Unmanned Aerial Systems (UAS), although the inventions disclosed herein are useful for capture of any aerial object. The system utilizes a rigid effector frame, an effector attached directly to the frame, and at least two propulsion elements connected to the effector frame, and is configured to intercept and disable threat UAS. The disclosed systems can be oriented to any virtually any angle to maximize the chances of intercept.

公开(公告)号：US3836982A

公开(公告)日：1974-09-17

申请号：US38175773

申请日：1973-07-23

Applicant: OPTO DYNETICS INC

Inventor： SCHWARTZ J

IPC: G03B9/08 ,  G03B9/58 ,  G03B9/22

CPC classification number: G03B9/08 ,  G03B9/58

Abstract: A low inertial electronic camera shutter is disclosed wherein a ring member coaxially aligned with a bore in a housing pivotally moves a plurality of shutter blades in registry with the bore between open and closed positions for controlling light radiation through the bore. In accordance with the invention, a low inertial means including a longitudinal wire member connected between the ring member and the frame at a pivot point thereon, drives the plurality of shutter blades between the two positions in response to a pulse applied to a solenoid having an armature connected to the wire member at a point thereon to amplify armature movement. The camera shutter includes a flash means including an electrical contact switch actuated by the ring member when the shutter blades are driven into the open position.

Abstract translation: 公开了一种低惯性电子照相机快门，其中与壳体中的孔同轴对准的环构件枢转地移动多个快门叶片，其与打开和关闭位置之间的孔对准，以控制通过该孔的光辐射。 根据本发明，一种低惯性装置，包括在其上的枢轴点处连接在环形构件和框架之间的纵向线构件，响应于施加到螺线管的脉冲而在两个位置之间驱动多个快门叶片，该螺线管具有 衔铁在其上一点处连接到线构件以放大电枢运动。 相机快门包括闪光装置，其包括当快门叶片被驱动到打开位置时由环形构件致动的电接触开关。

公开(公告)号：US20220033999A1

公开(公告)日：2022-02-03

申请号：US17504647

申请日：2021-10-19

Applicant: Dynetics, Inc.

Inventor： James L. Maxwell ,  Nicholas Webb ,  Ryan Hooper ,  James Allen

IPC: D01F9/12 ,  D01F9/127 ,  C04B35/58 ,  C04B35/583 ,  C04B35/622 ,  C23C16/46 ,  C04B35/584 ,  C23C16/44 ,  C23C16/48 ,  C23C16/30

Abstract: The disclosed materials, methods, and apparatus, provide novel ultra-high temperature materials (UHTM) in fibrous forms/structures; such “fibrous materials” can take various forms, such as individual filaments, short-shaped fiber, tows, ropes, wools, textiles, lattices, nano/microstructures, mesostructured materials, and sponge-like materials. At least four important classes of UHTM materials are disclosed in this invention: (1) carbon, doped-carbon and carbon alloy materials, (2) materials within the boron-carbon-nitride-X system, (3) materials within the silicon-carbon-nitride-X system, and (4) highly-refractory materials within the tantalum-hafnium-carbon-nitride-X and tantalum-hafnium-carbon-boron-nitride-X system. All of these material classes offer compounds/mixtures that melt or sublime at temperatures above 1800° C.—and in some cases are among the highest melting point materials known (exceeding 3000° C.). In many embodiments, the synthesis/fabrication is from gaseous, solid, semi-solid, liquid, critical, and supercritical precursor mixtures using one or more low molar mass precursor(s), in combination with one or more high molar mass precursor(s). Methods for controlling the growth, composition, and structures of UHTM materials through control of the thermal diffusion region are disclosed.

公开(公告)号：US20200331605A1

公开(公告)日：2020-10-22

申请号：US16906405

申请日：2020-06-19

Applicant: Dynetics, Inc.

Inventor： Aaron Wypyszynski ,  Bill Martin ,  John Roy ,  Stephen R. Norris

IPC: B64C39/02 ,  F41H11/04

Abstract: The present disclosure primarily relates to interceptor unmanned aerial systems and methods for countering Unmanned Aerial Systems (UAS), although the inventions disclosed herein are useful for capture of any aerial object. The system utilizes a rigid effector frame, an effector attached directly to the frame, and at least two propulsion elements connected to the effector frame, and is configured to intercept and disable threat UAS. The disclosed systems can be oriented to any virtually any angle to maximize the chances of intercept.

公开(公告)号：US3722403A

公开(公告)日：1973-03-27

申请号：US3722403D

申请日：1969-10-29

Applicant: INT DYNETICS CORP

Inventor： LONGO J

IPC: B09B3/00 ,  B30B9/30 ,  B30B15/16

CPC classification number: B30B9/3057 ,  B09B3/0025 ,  B30B9/3007 ,  B30B9/3014

Abstract: A compactor comprising a compression chamber, ram means for compressing a slug of material, expulsion means for expelling the slug from the chamber and control means for maintaining continuous sequential operation.

Abstract translation: 一种压实机，包括压缩室，用于压缩材料块的压头装置，用于将坯料从室排出的排出装置和用于维持连续顺序操作的控制装置。

公开(公告)号：US3580166A

公开(公告)日：1971-05-25

申请号：US3580166D

申请日：1969-05-08

Applicant: INT DYNETICS CORP

Inventor： LONGO JOSEPH F

IPC: B09B3/00 ,  B30B9/30 ,  B65B63/02 ,  B30B15/16

CPC classification number: B65B63/02 ,  B09B3/0025 ,  B30B9/3007 ,  B30B9/3057 ,  B30B9/3096

Abstract: A waste compactor includes a horizontally extending compacting chamber with a cantilevered open-ended front section closed by an openable first gate and a chute communicating with a rear upper feed opening. A ram is hydraulically motivated along the chamber between advanced, retracted and intermediate positions. An electrical network controls the ram when the first gate is closed and material sensed in the chute ro reciprocate the ram between intermediate and retract positions until the hydraulic pressure exceeds an adjustable value at the intermediate position and to reciprocate the ram between the retracted position and a point rearwardly of the intermediate position when hydraulic pressure exceeds a second predetermined value. Upon opening of the first gate the ram can be fully advanced.

公开(公告)号：US20220074051A1

公开(公告)日：2022-03-10

申请号：US17194839

申请日：2021-03-08

Applicant: Dynetics, Inc.

Inventor： James L. Maxwell ,  Nicholas Webb ,  James Allen

IPC: C23C16/48 ,  C04B35/622 ,  D01F9/127 ,  C04B35/58 ,  D04H1/4242 ,  C23C16/44 ,  C23C16/08 ,  C23C16/20 ,  C23C16/50 ,  C23C16/52 ,  D01F8/18

Abstract: The disclosed methods and apparatus improve the fabrication of solid fibers and microstructures. In many embodiments, the fabrication is from gaseous, solid, semi-solid, liquid, critical, and supercritical mixtures using one or more low molar mass precursor(s), in combination with one or more high molar mass precursor(s). The methods and systems generally employ the thermal diffusion/Soret effect to concentrate the low molar mass precursor at a reaction zone, where the presence of the high molar mass precursor contributes to this concentration, and may also contribute to the reaction and insulate the reaction zone, thereby achieving higher fiber growth rates and/or reduced energy/heat expenditures together with reduced homogeneous nucleation. In some embodiments, the invention also relates to the permanent or semi-permanent recording and/or reading of information on or within fabricated fibers and microstructures. In some embodiments, the invention also relates to the fabrication of certain functionally-shaped fibers and microstructures. In some embodiments, the invention may also utilize laser beam profiling to enhance fiber and microstructure fabrication.

公开(公告)号：US20200332417A1

公开(公告)日：2020-10-22

申请号：US16901421

申请日：2020-06-15

Applicant: Dynetics, Inc.

Inventor： James L. Maxwell ,  Nicholas Webb ,  James Allen

IPC: C23C16/48 ,  C04B35/622 ,  D01F9/127 ,  C04B35/58 ,  D04H1/4242 ,  C23C16/44 ,  C23C16/08 ,  C23C16/20 ,  C23C16/50 ,  C23C16/52 ,  D01F8/18

Abstract: The disclosed methods and apparatus improve the fabrication of solid fibers and microstructures. In many embodiments, the fabrication is from gaseous, solid, semi-solid, liquid, critical, and supercritical mixtures using one or more low molar mass precursor(s), in combination with one or more high molar mass precursor(s). The methods and systems generally employ the thermal diffusion/Soret effect to concentrate the low molar mass precursor at a reaction zone, where the presence of the high molar mass precursor contributes to this concentration, and may also contribute to the reaction and insulate the reaction zone, thereby achieving higher fiber growth rates and/or reduced energy/heat expenditures together with reduced homogeneous nucleation. In some embodiments, the invention also relates to the permanent or semi-permanent recording and/or reading of information on or within fabricated fibers and microstructures. In some embodiments, the invention also relates to the fabrication of certain functionally-shaped fibers and microstructures. In some embodiments, the invention may also utilize laser beam profiling to enhance fiber and microstructure fabrication.

公开(公告)号：US10167555B2

公开(公告)日：2019-01-01

申请号：US14827752

申请日：2015-08-17

Applicant: Dynetics, Inc.

Inventor： James L. Maxwell ,  Nicholas Webb ,  James Allen

IPC: C23C16/48 ,  C23C16/44 ,  C04B35/58 ,  C04B35/622 ,  D04H1/4242 ,  C23C16/08 ,  C23C16/20 ,  C23C16/50 ,  C23C16/52 ,  D01F8/18 ,  D01F9/127

Abstract: The disclosed methods and apparatus improve the fabrication of solid fibers and microstructures. In many embodiments, the fabrication is from gaseous, solid, semi-solid, liquid, critical, and supercritical mixtures using one or more low molar mass precursor(s), in combination with one or more high molar mass precursor(s). The methods and systems generally employ the thermal diffusion/Soret effect to concentrate the low molar mass precursor at a reaction zone, where the presence of the high molar mass precursor contributes to this concentration, and may also contribute to the reaction and insulate the reaction zone, thereby achieving higher fiber growth rates and/or reduced energy/heat expenditures together with reduced homogeneous nucleation. In some embodiments, the invention also relates to the permanent or semi-permanent recording and/or reading of information on or within fabricated fibers and microstructures. In some embodiments, the invention also relates to the fabrication of certain functionally-shaped fibers and microstructures. In some embodiments, the invention may also utilize laser beam profiling to enhance fiber and microstructure fabrication.