WO/2017/015853 REVERSE FOLDING UMBRELLA||WO||02.02.2017|
||PCT/CN2015/085286||LIU, Hao‐ming||LIU, Hao‐ming|
Disclosed is a reverse folding umbrella, including: a main rod (10); a sliding sleeve (20), which is sheathed on the main rod (10) and slides between an unfolding position and a folding position; a first umbrella cloth (30), of which the centre is fixed on the sliding sleeve (20); a second umbrella cloth (40), of which the centre is fixed at the top end of the main rod (10); and an umbrella rib body (80), which is connected to the sliding sleeve (20) and is located between the first umbrella cloth (30) and the second umbrella cloth (40). When the sliding sleeve (20) is located at the unfolding position, the umbrella rib body (80) expands toward the bottom end of the main rod (10) so as to unfold the first umbrella cloth (30) and the second umbrella cloth (40). When the sliding sleeve (20) is located at the folding position, the umbrella rib body (80) retracts toward the top end of the main rod (10) so as to fold the first umbrella cloth (30) and the second umbrella cloth (40), whereby the second umbrella cloth (40) covered with rainwater can be folded within the first umbrella cloth (30) to prevent rainwater from dripping everywhere from the second umbrella cloth (40).
WO/2016/194066 FLAT WAVE GEARING||WO||08.12.2016|
||PCT/JP2015/065630||HARMONIC DRIVE SYSTEMS INC.||KOBAYASHI Masaru|
A flat wave gearing (1) is provided with a mechanism for deterring a flexible externally toothed gear (4) from moving in the direction of a device center axis (1a) relative to rigid internally toothed gears (2, 3). This mechanism is provided with an inner peripheral groove (11) formed in the internal teeth (3a) of the internally toothed gear (3), an outer peripheral groove (12) formed in the external teeth (4a) of the externally toothed gear (4), and a flexible ring (13) fitted between the inner peripheral groove (11) and the outer peripheral groove (12). At positions where the gears (2, 4) mesh, the ring (13) can engage with groove-inner-peripheral side surfaces (11a, 11b, 12a, 12b) from the direction of the device center axis (1a).
WO/2016/187932 LED LIGHT BOARD ASSEMBLY||WO||01.12.2016|
||PCT/CN2015/083177||GLUX VISUAL EFFECTS TECH(SHENZHEN) CO., LTD.||LAN, Ming|
An LED light board assembly comprises a support frame (2) and an LED light board (1). The support frame comprises a hollow frame body (22) and a support member (21). The support member and the hollow frame body are located on a same level. Two ends of the support member are respectively connected to inner sidewalls of the hollow frame body. The LED light board is mounted on the support frame via a positioning column (11) and a positioning hole (23). The LED light board assembly reduces a manufacturing risk by shrinking the LED light board, and has the support member configured on a carbon fiber frame, thereby improving a pressure and impact resistance and adjustability of an LED module, and preventing the LED light board from being mounted on an inaccurate position by providing the positioning column.
WO/2016/189617 SUPPORT DEVICE AND ELECTRICAL DISCHARGE MACHINE||WO||01.12.2016|
||PCT/JP2015/064896||MITSUBISHI ELECTRIC CORPORATION||KATOGI, Hidetaka|
A support device comprising: a gripping section (18) provided with clamps in which an upper plate and a lower plate are superposed to form a V-shaped groove; a gripping section-controlling unit (19) that makes it possible to vary the spacing between the clamps between a spacing of at least the diameter of an electrode holder (24), which has an electrode-feeding mechanism, and a spacing that is the same as the electrode diameter; a gripping section-controlling unit movement shaft motor (17) that makes it possible to vary the height of the gripping section (18) between a height such that the clamps are positioned below the electrode holder edge of the electrode holder (24), which has an electrode-feeding mechanism, that is mounted on an electrode holder-gripping unit (15) and a height such that the clamps raise the electrode holder edge of the electrode holder (24), which has an electrode-feeding mechanism, that is mounted on the electrode holder-gripping unit (15); and an electrode-gripping unit (20) capable of gripping an electrode (8) below the gripping section (18). For one of the pair of clamps, the plates are superposed with the upper plate positioned in front and the lower plate positioned in back, and for the other of the pair of clamps, the plates are superposed with the lower plate positioned in front and the upper plate positioned in back.
WO/2016/171309 DOUBLE-HEADED SWASHPLATE COMPRESSOR AND METHOD FOR MANUFACTURING CYLINDER BLOCK||WO||27.10.2016|
||PCT/KR2015/005216||HANON SYSTEMS||KIM, Min Gyu|
The present invention relates to a double-headed swashplate compressor in which the gap between the outer peripheral surface of a shaft (20) and the inner peripheral surface of a shaft bore (11) is formed to be larger than the gap between the outer peripheral surface of the shaft (20) and the inner peripheral surface of a journal bearing (30).
WO/2016/153085 ELECTRIC COMPRESSOR INVERTER COOLING DEVICE, AND INVERTER ASSEMBLY COMPRISING SAME||WO||29.09.2016|
||PCT/KR2015/002762||ΗΑΝΟΝ SYSTEMS||PARK, Sung Jun|
The present invention relates to an electric compressor inverter cooling device, comprising: an inverter housing for supporting an inverter which receives power supplied from a vehicle battery and controls the rotation speed of a motor; and a heat dissipation part which is provided on one side of the inverter housing and is provided to be in contact with the outer peripheral surface of a capacitor so as to transfer heat of the capacitor to the housing.
WO/2016/153547 GRILLING DEVICE WITH WARMING CABINET||WO||29.09.2016|
||PCT/US2015/046349||TRAEGER PELLET GRILLS, LLC||COLSTON, Michael|
A grilling device includes an oven section and a warming cabinet in thermal communication with the oven section. The oven section is directly heated by a heating mechanism, but the warming cabinet is heated indirectly by heat transferred from the oven section. The warming cabinet is disposed below the oven section such that heat from the oven section is transferred passively via conduction and radiation into the warming cabinet and is transferred actively via forced air convection as an air moving element forces air past an optional heat sink and/or other heating component(s) and into the warming cabinet. The air moving element also provides air to ignite and maintain a burning fuel source of the heating mechanism. The grill can include a utility shelf disposed below the warming cabinet, the space between the utility shelf and the bottom of the warming cabinet defining a utility space.
WO/2016/151871 DEVICE FOR MEASURING DIFFERENCE BETWEEN DRAFTS ON TWO SIDES OF SHIP||WO||29.09.2016|
||PCT/JP2015/061821||MITSURU, Kouichiro||MITSURU, Kouichiro|
The objective of the invention is to improve the durability and reduce the weight of a device for measuring the difference between the drafts on the two sides of ship, by making it possible to prevent the occurrence of bubbles in a measuring liquid and prevent leakage of the measuring liquid.
In order to measure the difference between the drafts on the two sides of a ship, a measuring device (1) is provided with: two liquid level measuring tubes (11) attached respectively to the port and starboard sides of the ship; a communicating hose (41) which causes the two liquid level measuring tubes (11) to communicate with one another; and a drum (51) to which a central portion of the communicating hose (41) is secured, and onto which a left hose section (41a) and a right hose section (41b) are wound simultaneously. In order to bend the central portion of the communicating hose (41) into a U-shape to catch said central portion, the measuring device (1) includes a hose catching projection (51c) which protrudes from an outer peripheral surface of a shaft member (51a) of the drum (51), and a resin coil spring (42) mounted on the central portion of the communicating hose (41).
WO/2016/143951 ELECTRIC COMPRESSOR||WO||15.09.2016|
||PCT/KR2015/006246||HANON SYSTEMS||AHN, Hyun Seong|
Disclosed is an electric compressor. An electric compressor, according to an embodiment of the present invention, comprises: a rear housing which has formed therein a discharge chamber for discharging of a refrigerant; an oil separator which is placed in the discharge chamber, has formed thereon a refrigerant inlet hole through which the refrigerant flows in, and is eccentrically placed on one side of the rear housing (100); a partition wall which is for partitioning the area inside the discharge chamber into different areas and has communication portions formed on varied positions thereof; and a resonance chamber in which diffusion and flowing in of the refrigerant, which has passed through the communication portions, occur at the same time.
WO/2016/143952 SCROLL COMPRESSOR||WO||15.09.2016|
||PCT/KR2015/006249||HANON SYSTEMS||LIM, Jae Hoon|
Disclosed is a scroll compressor. A scroll compressor, according to an embodiment of the present invention, comprises: an orbiting scroll (100) which is mounted on one side of a main frame (6) and has a plurality of mounting grooves (110) along the circumferential direction; stepped portions (120) which are formed on the mounting grooves (110); ring members (200) which are inserted into the mounting grooves (110) and of which the lower sides come in close contact with the stepped portions (120); and a guide pin (300) of which one end is fixed to the main frame (6) and of which the other end extends in the inner length direction of the ring members (200), wherein the end parts of the guide pin (300) are positioned away from the stepped portions (120).