公开(公告)号：KR1020090132101A

公开(公告)日：2009-12-30

申请号：KR1020080058190

申请日：2008-06-20

Applicant: 한국표준과학연구원

Inventor： 최인묵 ,  김용규 ,  우삼용 ,  양인석

IPC: H01L35/02 ,  H01L35/00

CPC classification number: G01K7/02 ,  H01L35/02 ,  H01L35/32 ,  H01L35/34

Abstract: PURPOSE: An array-type flexible thin film temperature sensor and a manufacturing method thereof are provided to minimize the number of metal lines by sharing a top electrode and a bottom electrode at a plurality of resistive temperature sensing thin films. CONSTITUTION: A bottom metal line of a string shape is printed on a flexible substrate(S10). A plurality of resistive temperature sensing thin films is printed on the bottom metal line with a fixed gap(S20). A top metal line is printed on the resistive temperature sensing thin film(S30), and is not conducted with the bottom metal line. The top metal line, the resistive temperature sensing thin film, and the bottom metal line are printed by a screen printing method or an inkjet printing method.

Abstract translation: 目的：提供一种阵列型柔性薄膜温度传感器及其制造方法，其通过在多个电阻感温薄膜上共享顶部电极和底部电极来最小化金属线的数量。 构成：将弦状的底部金属线印刷在柔性基板上（S10）。 多个电阻温度感测薄膜以固定的间隙印刷在底部金属线上（S20）。 顶层金属线印在电阻式温度感测薄膜上（S30），不用底部金属线进行。 顶部金属线，电阻温度感测薄膜和底部金属线通过丝网印刷法或喷墨印刷法印刷。

公开(公告)号：KR1020090101530A

公开(公告)日：2009-09-29

申请号：KR1020080026708

申请日：2008-03-24

Applicant: 한국표준과학연구원

Inventor： 우삼용 ,  박연규 ,  송한욱

IPC: A61B5/00 ,  A61B10/00

Abstract: PURPOSE: An apparatus for measuring the skin elasticity and a method thereof are provided to measure the skin elasticity accurately and utilize the measured result as the basic data for determining the Sasang constitution. CONSTITUTION: An apparatus for measuring the skin elasticity includes a pressure vessel(10), a distance detection means(20), a pressure varying means(30), a measurement means(40) and a control means(50). The pressure vessel has an opening(11) which comes in contact with the skin as having opened one side. The distance detection means is installed inside the pressure vessel. The pressure varying means varies the pressure inside the pressure vessel. The measurement means measures the change of distance detected by the distance detection means according to the change of inner pressure.

Abstract translation: 目的：提供一种用于测量皮肤弹性的装置及其方法，用于精确测量皮肤弹性并利用测量结果作为确定Sasang构造的基本数据。 构成：用于测量皮肤弹性的装置包括压力容器（10），距离检测装置（20），压力变化装置（30），测量装置（40）和控制装置（50）。 压力容器具有与皮肤接触打开的一侧的开口（11）。 距离检测装置安装在压力容器内。 压力变化装置改变压力容器内部的压力。 测量装置根据内压的变化来测量由距离检测装置检测的距离的变化。

公开(公告)号：KR100916658B1

公开(公告)日：2009-09-08

申请号：KR1020070044522

申请日：2007-05-08

Applicant: 한국표준과학연구원

Inventor： 우삼용 ,  송한욱 ,  최인묵 ,  김부식

IPC: G01L13/02 ,  G01L27/00

Abstract: 본 발명은 미세압력 발생 및 제어 장치에 관한 것으로서, 압력소스(10)로부터 기체가 공급되는 배관과 연결되고 상기 기체의 압력을 조절하는 적어도 하나 이상의 레귤레이터(20); 상기 레귤레이터(20)에 연결되어 상기 기체를 완충 수용하는 버퍼챔버(30); 상기 버퍼챔버에 연통된 피시험장치 플랫홈(40); 및 상기 버퍼챔버(30)와 연통되며 버퍼챔버내의 압력이 설정된 기준압력보다 큰 경우에 압력을 배출하는 압력 조정수단(100)을 포함하는 것을 특징으로 하며, 기존 미세압력 발생 및 제어 장치에 비해 구조가 간단하고 저가이면서 신뢰도가 높다.
미세압력, 다이아프램, 발생

公开(公告)号：KR100806959B1

公开(公告)日：2008-02-22

申请号：KR1020060083747

申请日：2006-08-31

Applicant: 한국표준과학연구원

Inventor： 우삼용 ,  최인묵 ,  김부식

IPC: G01L1/02 ,  G01L1/00

Abstract: A pressure balance with a non-rotation piston is provided to perform accurate measurement by measuring force while moving a piston up and down. A pressure balance with a non-rotation piston includes a piston(1), a cylinder(2), and a moving unit(3). The piston is provided with a weight-holder(5) to put a weight(4) thereon. The cylinder is supported by a housing(6) and connected to a pressure room(61) supplied with oil pressure or air pressure through a passage. The piston is installed in the cylinder to be movable up and down. The moving unit is installed at one side of the cylinder to move up and down the cylinder, where the moving unit is a piezoelectric disk whose thickness is changed by power supplied through a power connection terminal.

Abstract translation: 提供与非旋转活塞的压力平衡，以在上下移动活塞时测量力来执行精确的测量。 与非旋转活塞的压力平衡包括活塞（1），气缸（2）和移动单元（3）。 活塞设有重物架（5），以在其上放置重物（4）。 气缸由壳体（6）支撑并连接到通过通道供给油压或气压的压力室（61）。 活塞安装在气缸中可上下移动。 移动单元安装在气缸的一侧，以在气缸上下移动，移动单元是压电盘，其厚度由通过电源连接端子提供的功率而改变。

公开(公告)号：KR1020060117576A

公开(公告)日：2006-11-17

申请号：KR1020050039510

申请日：2005-05-11

Applicant: 한국표준과학연구원

Inventor： 우삼용 ,  최인묵 ,  김부식

IPC: G01L27/00

Abstract: An automatic weight transfer apparatus and an automatic weight transfer pressure calibration system therewith are provided to lift up and down weights accurately according to the desired weight by operating an input unit one time. An automatic weight transfer pressure calibration system includes an input unit inputting a selection signal selecting mass of weights(700) or a release signal releasing the selection signal, a weight transfer control unit gripping and lifting the rest weights by leaving the weights according to the selection signal and returning the weights according to the release signal, a gripping unit holding the weights by the weight transfer control unit, and a vertical transfer unit moving up and down the gripping unit. The griping unit has an air cylinder(410) and a fitting sill(420) attached to an end of a piston of the air cylinder. The vertical transfer unit has a lead screw(510) penetrating the gripping unit, a fixing bar(520) arranged in parallel with the lead screw by penetrating the gripping unit, an upper plate(540) fixing the lead screw and the fixing bar, and a rotating unit turning the lead screw.

Abstract translation: 提供自动重量传送装置和自动重量传送压力校准系统，以通过一次操作输入单元来根据期望的重量精确地升降重量。 一种自动重量转移压力校准系统，包括输入选择权重（700）的选择信号的输入单元或释放所述选择信号的释放信号;重量传递控制单元，通过根据所述选择留下所述权重来夹持和提升所述其余的重量 信号并根据释放信号返回重物，由重量传递控制单元保持重物的夹持单元以及沿着夹持单元上下移动的垂直传送单元。 夹紧单元具有附接到气缸的活塞的端部的气缸（410）和安装孔（420）。 垂直传送单元具有穿过夹持单元的导螺杆（510），穿过夹持单元与导螺杆平行布置的固定杆（520），固定导螺杆和固定杆的上板（540） 以及旋转单元转动导螺杆。

公开(公告)号：KR1020040097836A

公开(公告)日：2004-11-18

申请号：KR1020030030338

申请日：2003-05-13

Applicant: 한국표준과학연구원

Inventor： 우삼용 ,  최인묵 ,  김부식

IPC: G01L21/00 ,  B82Y15/00 ,  B82Y25/00 ,  B82Y35/00

Abstract: PURPOSE: A vacuum gauge using carbon nanometer tubes is provided to exactly measure a vacuum pressure by allowing electrons to be emitted. CONSTITUTION: A vacuum gauge using carbon nanometer tubes includes a vacuum vessel(100), a base, a carbon tube layer(300), a grid(400), and a collector. The vacuum vessel(100) has a connection port in such a manner that gas molecular is introduced. The base is formed on an inner surface of the vacuum vessel(100). The carbon tube layer(300) has a plurality of carbon nano-tubes and emits electrons according to applying negative voltage. The collector is arranged on the grid(400) by a predetermined interval and collects positive ions stemmed from impact of electrons.

Abstract translation: 目的：提供使用碳纳米管的真空计，通过允许发射电子来精确测量真空压力。 构成：使用碳纳米管的真空计包括真空容器（100），基底，碳管层（300），网格（400）和收集器。 真空容器（100）具有引入气体分子的连接口。 底座形成在真空容器（100）的内表面上。 碳管层（300）具有多个碳纳米管，并且根据施加的负电压发射电子。 集电器以预定的间隔布置在电网（400）上，并收集源于电子冲击的正离子。

公开(公告)号：KR1020040039605A

公开(公告)日：2004-05-12

申请号：KR1020020067732

申请日：2002-11-04

Applicant: 한국표준과학연구원

Inventor： 우삼용 ,  강시홍

IPC: G01L11/02

Abstract: PURPOSE: An apparatus for generating and measuring micro pressure is provided to generate the micro pressure due to a height difference between pressure vessels by connecting the pressure vessels with a ball screw and a stepping motor. CONSTITUTION: An apparatus for generating and measuring micro pressure includes a first pressure vessel(11) and a second pressure vessel(12), a driving unit, a micro manometer(70), a float(20), a laser diode(31), a photo detector(32), and a digital display panel(81). Herein, the first pressure vessel(11) and the second pressure vessel(12) contain the same liquid having a predetermined liquid pillar and have a coupling hose allowing the liquid to move such that the height difference between liquid pillars of the first pressure vessel(11) and the second pressure vessel(12) is adjusted. Also, the micro manometer is connected to corresponding ports of upper parts of the first pressure vessel(11) and the second pressure vessel(12) in order to detect and display the micro pressure. The laser diode(31) applies laser to a weight balance(21) of the float(20). The photo detector(32) detects a height difference of the float(20) of the first pressure vessel(11) and the second pressure vessel(12). The digital display panel(81) displays the height difference of the float(20).

Abstract translation: 目的：提供一种用于产生和测量微压力的装置，以通过用滚珠丝杠和步进电机连接压力容器，由于压力容器之间的高度差产生微压。 构成：用于产生和测量微压的装置包括第一压力容器（11）和第二压力容器（12），驱动单元，微型压力计（70），浮子（20），激光二极管（31） ，光检测器（32）和数字显示面板（81）。 这里，第一压力容器（11）和第二压力容器（12）包含具有预定液柱的相同液体，并且具有允许液体移动的联接软管，使得第一压力容器的液柱之间的高度差 11）和第二压力容器（12）。 此外，微压力计连接到第一压力容器（11）和第二压力容器（12）的上部的相应端口，以便检测和显示微压。 激光二极管（31）将激光施加到浮子（20）的重量平衡（21）上。 光检测器（32）检测第一压力容器（11）和第二压力容器（12）的浮子（20）的高度差。 数字显示面板（81）显示浮子（20）的高度差。

公开(公告)号：KR100430559B1

公开(公告)日：2004-05-10

申请号：KR1020020023074

申请日：2002-04-26

Applicant: 한국표준과학연구원

Inventor： 우삼용 ,  강시홍 ,  최종운

IPC: G01L27/00

Abstract: PURPOSE: A weight changing device and a method for calibrating measuring instrument by using the same are provided to effectively change weights in a pressure vessel so as to correct and test the gauge by generating various measuring pressure. CONSTITUTION: An upper fixing plate(20), a lower fixing plate(40), a weight conveying plate(30), and weights(45) are installed in a pressure vessel(10). The upper fixing plate(20) has an annular shape and a driving screw(62) is coupled to a lower portion of the upper fixing plate(20). A belt correcting device is installed at one side of the upper fixing plate(20). A driving screw coupling connected to the driving screw(62) is installed at one side of the upper fixing plate(20). The driving screw(62) is rotated by a step motor(68) installed on the upper fixing plate(20). The step motor(68) has a rotating shaft inserted into a hole formed at one end of the driving screw coupling.

Abstract translation: 目的：提供一种用于校准测量仪器的重量改变装置和方法，以有效地改变压力容器中的重量，从而通过产生各种测量压力来校正和测试仪器。 组成：压力容器（10）中安装有上固定板（20），下固定板（40），重物传送板（30）和重物（45）。 上固定板（20）具有环形形状，并且驱动螺杆（62）联接到上固定板（20）的下部。 皮带修正装置安装在上固定板（20）的一侧。 连接到驱动螺杆（62）的驱动螺杆联接器安装在上固定板（20）的一侧。 驱动螺杆（62）通过安装在上固定板（20）上的步进电机（68）旋转。 步进电机（68）具有旋转轴，该旋转轴插入形成在驱动螺钉联接器的一端处的孔中。

公开(公告)号：KR1020040033461A

公开(公告)日：2004-04-28

申请号：KR1020020062556

申请日：2002-10-14

Applicant: 한국표준과학연구원

Inventor： 최인묵 ,  우삼용 ,  김부식

IPC: G01L1/26

Abstract: PURPOSE: A force compensating apparatus having a dual coil structure is provided to maximally utilize mechanical characteristics by precisely compensating for an error generated during a measurement process. CONSTITUTION: A force compensating apparatus includes a magnetic force generation module(30) having a first coil(32) and a second coil(33). Current is applied to the first and second coils(32,33) through an open-loop and a control loop, respectively. A leverage(20), which is varied depending on load applied to a weight pan(10), is compensated by means of magnetic force generated from the first coil(32). A main rod is fixed at a lower portion of the weight pan(10). One end of the leverage(20) linked to a side of the main load. First and second support rods(11,12) are positioned at upper and lower portions of the leverage(20) in parallel to each other.

Abstract translation: 目的：提供具有双线圈结构的力补偿装置，以通过精确补偿在测量过程中产生的误差来最大限度地利用机械特性。 构成：力补偿装置包括具有第一线圈（32）和第二线圈（33）的磁力产生模块（30）。 电流分别通过开环和控制回路施加到第一和第二线圈（32,33）。 借助于从第一线圈（32）产生的磁力来补偿根据施加到配重盘（10）的负载而变化的杠杆（20）。 主杆固定在配重盘（10）的下部。 杠杆的一端（20）连接到主负载的一侧。 第一和第二支撑杆（11,12）彼此平行地定位在杠杆（20）的上部和下部。

公开(公告)号：KR101962026B1

公开(公告)日：2019-07-18

申请号：KR1020170107273

申请日：2017-08-24

Applicant: 한국표준과학연구원

Inventor： 우삼용 ,  송한욱 ,  양태헌

IPC: F16K3/03 ,  F16K3/314 ,  F16K31/08 ,  F16K51/02