摘要:
An imaging apparatus (12) for fully automatic screen printer including two stacked light sources (6,7), two stacked beamsplitters (4,5), two stacked optical reflectors (1,2), two stacked imaging lenses (8,10) and two stacked image sensors (9,11), wherein the two stacked optical reflectors and the two stacked light sources are correspondingly disposed on two different sides of the two beamsplitters, the two stacked imaging lenses are disposed on another side of the beamsplitters different from that of the optical reflectors and the light sources, the two stacked image sensors are disposed behind the imaging lenses; the optical reflectors are provided with an upward reflection plane and a downward reflection plane, the optical axes of the imaging lenses are orthogonal to that of the light sources. The apparatus has two independent optical paths which capture the image of the printed circuit board and that of the screen respectively. Furthermore, the apparatus is of compact structure, high acquiring speed and optical paths are easily adjusted.
申请/专利权人:
ECOCEAN CO LTD;ECOCEAN CO.;LTD.;KOREA OCEAN RES DEV INST;E & C TECHNOLOGY INST;KOREA OCEAN RESEARCH AND DEVELOPMENT INSTITUTE;E&C TECHNOLOGY INSTITUTE
申请/专利号:
KR20050103267A
申请时间:
2005-10-31
公开号:
KR100634018(B1)
公开时间:
2006-10-9
摘要:
A device for measuring the quantity of material flown in seawater is provided to accurately measure the quantity of material flown in the seawater from surface sediment by circulating the seawater flown in a parallel direction for uniformly contacting the whole surface of the collected sediment with the seawater. The device comprises: a housing which includes a supply portion(12) through which seawater is supplied, a receiving portion(14) to receive collected sample, discharge portions(16), each of which is formed in sequence by each partition installed at bottom with predetermined height and a cover tool(20) to open and close open upper portion; a circulation pump which supplies the seawater of the discharge portion to the supply portion to compulsorily circulate the seawater, thereby flowing in a parallel direction in the receiving portion; and material measurement sensors which are equipped at the discharge side to measure the quantity of surface sediment flown in the seawater when the seawater passes through the receiving portion in parallel. The device further comprises a collecting tool including a collecting frame(40) which has an open bottom side and through holes at both sides and a lower cover(44) to close the lower portion of the collection frame when the sample is received in the collection frame.
申请/专利权人:
KOREA OCEAN RES DEV INST;E&C TECHNOLOGY INSTITUTE;ECOCEAN CO LTD;KOREA OCEAN RESEARCH AND DEVELOPMENT INSTITUTE;E & C TECHNOLOGY INST;ECOCEAN CO.;LTD.
申请/专利号:
KR20040031077A
申请时间:
2004-5-3
公开号:
KR20050105812(A)
公开时间:
2005-11-8
摘要:
PURPOSE: A benthos sample picking machine with a collection function is provided to reduce the time by collecting sample creatures in a collecting member of a discharge device installed in the picking machine and moving the sample creatures from the picking machine.CONSTITUTION: A benthos sample picking machine with a collection function for picking creatures living in the foreshore and soil consists of a support member(110) formed like a polyhedron of which four sides are opened, and first porous filter members(120) installed at the opened three sides of the support member to filter sample creatures. A first through-hole(123) is formed on one surface of the first filter member. A discharge device is separably combined with the first filter member to pick the sample creatures passing through the first through-hole.漏 KIPO 2006
发明/设计人:
KIM WOONG SEO;KIM;WOONG SEO;KANG;JUNG HOON;...
申请/专利权人:
E&C TECHNOLOGY INSTITUTE;ECOCEAN CO.;LTD.;KOREA OCEAN RES DEV INST;KOREA OCEAN RESEARCH AND DEVELOPMENT INSTITUTE;ECOCEAN CO LTD;E & C TECHNOLOGY INST
申请/专利号:
KR20040112089A
申请时间:
2004-12-24
公开号:
KR20060073712(A)
公开时间:
2006-6-29
摘要:
PURPOSE: A middle size of closed ecosystem structure is provided to determine environmental variation caused by various environmental parameters, and alteration of marine condition without influence to the ecosystem structure by fabricating a closing element coupled to an open end of a screen element for blocking the structure against external environmental parameters.CONSTITUTION: The structure comprises: at least one storage device in which a storage space is formed and a floating body(F) is coupled at one end to float the storage space on the surface of water; at least one valve device which is jointed to the storage device and flows fluid through the device; and a pump device(220) which is connected to one side of the storage device and forcedly transfers the fluid to desired site. The storage device consists of: a screen element(101) for forming an outer wall of the storage device; first closing element(102) detachably combined at one side of the screen element; second closing element(103) that is connected to the other side of the screen element; at least one shaping element(104) that is arranged around the outer side of the screen; and at least one supporting element(105) that is arranged in a length direction and movably coupled to the outer side of the shaping element(104).漏 KIPO 2006
摘要:
PURPOSE: A device for collecting aquatic microscopic-life is provided, thereby reducing the effects of tide and ocean current on the device to minimize damage of the device, and easily handling the device when a user collects the aquatic microscopic-life. CONSTITUTION: The device for collecting aquatic microscopic-life comprises a plurality of collecting vessels(100) having opened upper parts and numerous axis-directed slots in its outer circumference, and containing porous foaming agent; a central supporting shaft(40) having connection portions in its both ends; a lower plate(5) positioned under the central supporting shaft(40), on which the collecting vessels(100) are vertically placed, and a lower frame(10) supporting the bottom of the lower plate(5) and encompassing the border of the lower plate(5); an upper plate(15) positioned in the upper part of the central shaft(40) to have an interval corresponding to the height of collecting vessels(100) from the lower plate(5) and having at least one inlet/outlet hole(17), and an upper frame(20) encompassing the boarder of the upper plate(15), permitting the rotation of the upper plate(15); and a middle disposition plate located between the lower plate(5) and upper plate(15), and having a shape to fix the collecting vessels(100) and numerous fixing holes formed by the disposition rule, and a middle frame(30) encompassing the boarder of the middle plate.