公开(公告)号：KR1020150104364A

公开(公告)日：2015-09-15

申请号：KR1020140026009

申请日：2014-03-05

Applicant: 국방과학연구소

Inventor： 유영준 ,  공덕규 ,  임재완

IPC: B64D1/16 ,  A62C3/02

CPC classification number: B64D1/16 ,  A62C3/02

Abstract: 본 발명의 비접근 지역 긴급 화재진압 장치에는 발사통제컴퓨터(110)와 다양한 종류의 발사대(120)로 이루어진 발사통제장비(10)가 적용되고, 탐색센서(201), 유도조종장치(202), 구동장치(203), 추진기관(204), 소화탄두(205), 신관(206), 통신장치(Telemetry)(207)를 갖추고 화재지역으로 비행하는 소화 유도탄(20)으로 구성됨으로써 소화 유도탄(20)이 내장된 화재 발생지역(위치)로 자동으로 비행할 수 있고, 발사통제장비(10)는 소화 유도탄(20)에서 제공된 실시간 영상을 이용하여 수동으로 화재진압 지역을 지정하거나 변경할 수 있다. 그러므로, 본 발명의 비접근 지역 긴급 화재진압 장치는 혼잡한 교통 또는 좁은 도로사정으로 인해 소방차의 접근이 곤란한 도심지역에 화재가 발생한 경우, 해상의 선박에서 화재가 발생한 경우, 고가 사다리차의 접근이 어려운 고층 건물에서 화재가 발생한 경우, 폭발위험성이 있는 각종 중화학 플랜트에서 화재가 발생한 경우, 기타 접근이 어려운 산악지형에 산불이 발생한 경우 등 통상적인 방법으로는 신속한 화재 진압이 어려운 경우에 정밀 유도탄 기술을 활용함으로써 화재 진압이 가능한 특징을 갖는다.

Abstract translation: 一种用于不可接近区域的应急消防设备包括：发射控制单元（10），包括发射控制计算机（110）和各种发射器（120）; 以及包括搜索传感器（201），引导控制装置（202），驱动装置（203），推进单元（204），消防弹头（205），消防弹头 保险丝（206）和遥测（207），并飞向射击区域。 消防导弹（20）可以自动飞到发火区（位置），发射控制单元（10）可以使用火灾导弹（10）提供的实时图像手动分配和更换灭火区域， 战斗导弹（20）。 因此，无法进入的区域的应急消防设备可以通过使用精确的导弹技术来扑灭火灾，因为在通常的方法中很难快速扑灭火灾，例如在市区的火灾情况下， 由于交通繁忙和道路狭窄，消防车无法进入，高层建筑物的二分之一的火灾无法进入，各种可能爆炸的重型化工厂发生火灾，还有一起案件 的森林火灾在无法访问的山脉。

公开(公告)号：KR1020130062757A

公开(公告)日：2013-06-13

申请号：KR1020110129186

申请日：2011-12-05

Applicant: 국방과학연구소

Inventor： 진상욱 ,  유영준 ,  이형주 ,  조봉수

IPC: F16C32/06 ,  F16C27/02

CPC classification number: F16C32/0614 ,  F16C17/024 ,  F16C27/02 ,  F16C2360/45

Abstract: PURPOSE: A journal foil bearing with a noncorrugated bump foil and a motor with the same are provided to form the bump foil with the small difference of out-of-roundness using the noncorrugated bump foil. CONSTITUTION: A journal foil bearing comprises a holding member(110), a top foil(120), and a bump foil(130). The holding member comprises a cylindrical opening part(101) for receiving a shaft and is extended in one direction. The top foil is received in the cylindrical opening part and is formed along the inner circumference of the holding member. The bump foil without corrugation is arranged between the top foil and the holding member to surround the top foil.

Abstract translation: 目的：提供带有非波纹凸块箔的轴承箔轴承和具有该凸起箔的电机，以使用非波纹凸块箔形成具有小的不圆度差的凸块箔。 构成：包括保持构件（110），顶部箔（120）和凸块（130）的日志箔片轴承。 保持构件包括用于容纳轴并沿一个方向延伸的圆柱形开口部分（101）。 顶箔被容纳在圆柱形开口部分中并且沿着保持构件的内圆周形成。 没有波纹的凸起箔布置在顶部箔片和保持构件之间以围绕顶部箔片。

公开(公告)号：KR1020130053316A

公开(公告)日：2013-05-23

申请号：KR1020110119076

申请日：2011-11-15

Applicant: 국방과학연구소

Inventor： 백낙곤 ,  유영준 ,  이재윤 ,  박기범

IPC: F16K1/18 ,  F16K37/00

Abstract: PURPOSE: A position detecting device and a flow rate control valve including the same are provided to easily sense a maximum opening angle and a maximum closing angle of a disc in a narrow space and to simultaneously limit rotation of the disc. CONSTITUTION: A flow rate control valve including a position detecting device(200) comprises a body(100), a disc(120), a control device(130), and the position detecting device. The disc is rotatably installed in order to selectively open an internal space(110) of the flow rate control valve. The position detecting device comprises a position limiting unit and a limit switch. The position detecting device generates an opening signal of the disc and detects a rotation degree of the disc using the signal. The position limiting unit rotates with the disc, and the limit switch is pressurized by the position limiting unit to be switched.

Abstract translation: 目的：提供一种位置检测装置和包括该位置检测装置的流量控制阀，以容易地感测狭窄空间中的盘的最大开启角度和最大关闭角度，并同时限制盘的旋转。 构成：包括位置检测装置（200）的流量控制阀包括主体（100），盘（120），控制装置（130）和位置检测装置。 盘被可旋转地安装以选择性地打开流量控制阀的内部空间（110）。 位置检测装置包括位置限制单元和限位开关。 位置检测装置产生盘的打开信号，并使用该信号检测盘的旋转度。 位置限制单元与盘旋转，并且限位开关由位置限制单元加压以进行切换。

公开(公告)号：KR101248462B1

公开(公告)日：2013-03-28

申请号：KR1020110100889

申请日：2011-10-04

Applicant: 국방과학연구소

Inventor： 이형주 ,  유영준 ,  최희주

IPC: F02N15/00 ,  F25B49/02

Abstract: PURPOSE: An apparatus for improving starting performance, a cooling machine and a cooling system equipped with the same are provided to use a bypass path and a check valve, thereby quickly completing starting under inlet/outlet pressure conditions for the wide range of cooling machines and systems applied with an air bearing. CONSTITUTION: An apparatus(100) for improving starting performance includes a compressor(130), a turbine(140), a fluid bearing, a bypass path(210), and a check valve(220). The apparatus is connected to a cooling machine. The turbine is connected to the compressor by a flow path. The fluid bearing bears a rotary shaft at the turbine. The bypass path is branched from the inlet of the compressor and is connected to the flow path so that a fluid is directly supplied to the turbine by skipping the compressor when starting the cooling machine. The check valve is placed on the bypass path. The apparatus is equipped with first and second inlets(214,213) and first and second outlets in order to form the bypass path. A first heat exchanger(110) is mounted on the inlet of the compressor. The fluid flows in the first heat exchanger so that heat exchange between the fluid and a coolant is implemented in the first heat exchanger. A second heat exchanger(160) is placed on the flow path with which the compressor and the turbine are connected to each other. [Reference numerals] (110,160) Heat exchanger; (130) Compressor; (140) Turbine

Abstract translation: 目的：提供一种用于提高起动性能的装置，冷却机和具有该装置的冷却系统，以使用旁通路径和止回阀，从而在宽范围的冷却机器的入口/出口压力条件下快速完成启动， 系统应用于空气轴承。 构成：用于改善启动性能的装置（100）包括压缩机（130），涡轮机（140），流体轴承，旁路路径（210）和止回阀（220）。 该设备连接到冷却机。 涡轮通过流路连接到压缩机。 流体轴承在涡轮机处承载旋转轴。 旁路路径从压缩机的入口分支并且连接到流动路径，使得当启动冷却机时，通过跳过压缩机将流体直接供应到涡轮机。 止回阀放置在旁路通路上。 该装置配备有第一和第二入口（214,213）以及第一和第二出口以形成旁路路径。 第一热交换器（110）安装在压缩机的入口上。 流体在第一热交换器中流动，使得流体和冷却剂之间的热交换在第一热交换器中实现。 第二热交换器（160）被放置在压缩机和涡轮机彼此连接的流动路径上。 （附图标记）（110,160）热交换器; （130）压缩机; （140）涡轮机

公开(公告)号：KR100813522B1

公开(公告)日：2008-03-17

申请号：KR1020070033220

申请日：2007-04-04

Applicant: 국방과학연구소

Inventor： 임진식 ,  유영준

IPC: F25B9/06 ,  F25B11/02 ,  F25B11/00 ,  F25B41/06

Abstract: A device for controlling gas temperature precisely is provided to control gas in a predetermined temperature range by a flow rate control valve and a cooling unit in spite of the change of the temperature and pressure of the gas, thereby supplying the controlled gas to a target space for controlling gas temperature in the target space precisely without any influence of the change of pressure. A device for controlling gas temperature precisely includes a compressor(15), and a flow rate control valve(20) for controlling an area of a path for controlling a flow rate of gas supplied from the compressor. A cooling unit(30) insulates and expands the gas supplied from the compressor via the flow rate control valve to lower temperature of the gas. A target space(10) is to be controlled internal temperature thereof by the gas of low temperature supplied from the cooling unit. Temperature sensors(S1,S2) are mounted in the target space and an outlet of the flow rate control valve for measuring temperature of the gas. A controller(50) controls the flow rate control valve according to the temperature data measured by the temperature sensors.

Abstract translation: 提供用于精确控制气体温度的装置，以便尽管气体的温度和压力的变化，通过流量控制阀和冷却单元来控制预定温度范围内的气体，从而将受控气体供应到目标空间 用于精确地控制目标空间中的气体温度，而不受压力变化的任何影响。 用于控制气体温度的装置精确地包括压缩机（15）和用于控制用于控制从压缩机供应的气体的流量的路径的面积的流量控制阀（20）。 冷却单元（30）通过流量控制阀将从压缩机供给的气体绝缘并膨胀，使气体的温度降低。 目标空间（10）将通过从冷却单元供应的低温气体来控制其内部温度。 温度传感器（S1，S2）安装在目标空间和用于测量气体温度的流量控制阀的出口。 控制器（50）根据由温度传感器测量的温度数据来控制流量控制阀。