1 |
Linear-motion stage |
US15340356 |
2016-11-01 |
US09879974B2 |
2018-01-30 |
Kendall B. Johnson; Gregory R. Hopkins |
A linear-motion stage that is angularly or radially symmetric or asymmetric, or monolithic may be used as the moving mechanism in a Fourier transform spectrometer. In embodiments, a linear-motion stage includes a base; a first multiple-arm linkage extending from the base to a first carriage attachment end; a second multiple-arm linkage extending from the first carriage attachment end to the base; a third multiple-arm linkage extending from the base to a second carriage attachment end; a carriage extending from the first carriage end to the second carriage end. Also in embodiments, the first, second, and third multiple-arm linkages comprise a first arm rotateably connected to a second arm through a flexure, the angular travel of the first arm is configured to be different than an angular travel of the second arm as the carriage moves along the carriage motion line. |
2 |
Linear-motion stage |
US14493545 |
2014-09-23 |
US09513168B2 |
2016-12-06 |
Kendall B. Johnson; Greg Hopkins |
A linear-motion stage that is angularly or radially symmetric or asymmetric, or monolithic may be used as the moving mechanism in a Fourier transform spectrometer. In embodiments, a linear-motion stage includes a base; a first multiple-arm linkage extending from the base to a first carriage attachment piece; and a second multiple-arm linkage extending from the first carriage attachment piece to the base. The first multiple-arm linkage constrains a motion of the first carriage attachment piece to motion in a first plane and the second multiple-arm linkage constrains the first carriage attachment piece to motion in a second plane, the first and second planes intersecting at a plane intersection line. The first and second multiple-arm linkages constrain the motion of the first carriage attachment piece along a carriage motion line. |
3 |
Linear-Motion Stage |
US15340356 |
2016-11-01 |
US20170067731A1 |
2017-03-09 |
Kendall B. Johnson; Gregory R. Hopkins |
A linear-motion stage that is angularly or radially symmetric or asymmetric, or monolithic may be used as the moving mechanism in a Fourier transform spectrometer. In embodiments, a linear-motion stage includes a base; a first multiple-arm linkage extending from the base to a first carriage attachment end; a second multiple-arm linkage extending from the first carriage attachment end to the base; a third multiple-arm linkage extending from the base to a second carriage attachment end; a carriage extending from the first carriage end to the second carriage end. Also in embodiments, the first, second, and third multiple-arm linkages comprise a first arm rotateably connected to a second arm through a flexure, the angular travel of the first arm is configured to be different than an angular travel of the second arm as the carriage moves along the carriage motion line. |
4 |
Linear-Motion Stage |
US14493545 |
2014-09-23 |
US20160084712A1 |
2016-03-24 |
Kendall B. Johnson; Greg Hopkins |
A linear-motion stage that is angularly or radially symmetric or asymmetric, or monolithic may be used as the moving mechanism in a Fourier transform spectrometer. In embodiments, a linear-motion stage includes a base; a first multiple-arm linkage extending from the base to a first carriage attachment piece; and a second multiple-arm linkage extending from the first carriage attachment piece to the base. The first multiple-arm linkage constrains a motion of the first carriage attachment piece to motion in a first plane and the second multiple-arm linkage constrains the first carriage attachment piece to motion in a second plane, the first and second planes intersecting at a plane intersection line. The first and second multiple-arm linkages constrain the motion of the first carriage attachment piece along a carriage motion line. |
5 |
휴대폰용 장식구의 제조방법 및 휴대폰용 장식구 |
KR1020110042761 |
2011-05-06 |
KR1020120124865A |
2012-11-14 |
유관식 |
PURPOSE: A method for manufacturing cellular phone accessories and cellular phone accessories are provided to satisfy a user and to improve the beauty of a cellular phone. CONSTITUTION: A method for manufacturing cellular phone accessories is as follows. An acryl plate is cut to correspond to the size of the side of a cellular phone and a camera through-hole(S10). A transparent film adhered to one side of the acryl plate is peeled off(S20). A desired pattern is printed on photographic paper(S30). A transparent adhesive is evenly coated on the surface of the photographic paper(S40). The acryl plate and photographic paper are matched with each other(S50). The acryl plate and photographic paper are pressed by a roller(S60). The camera through-hole and a boundary line are cut(S70). The transparent film adhered to the other side of the acryl plate is peeled off(S80). A cover holder is injection molded(S90). [Reference numerals] (S10) Cutting step; (S20) Transparent film removing step; (S30) Printing step; (S40) Adhesion step; (S50) Bonding step; (S60) Matching step; (S70) Cutting step; (S80) Peeling step; (S90) Injection-molding step |