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/2016/151871 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/2016/153085 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/2016/143952 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).
WO/2016/143950 METHOD FOR MANUFACTURING ELECTRIC COMPRESSOR AND OIL SEPARATOR FOR ELECTRIC COMPRESSOR||WO||15.09.2016|
||PCT/KR2015/006242||HANON SYSTEMS||LIM, Jae Hoon|
Disclosed is an electric compressor. An electric compressor, according to an embodiment of the present invention, comprises: a rear housing (100) which has formed therein a discharge chamber (102) for discharging of a refrigerant; and an oil separator (200) which has formed thereon a refrigerant inlet hole (201), which is disposed on the discharge chamber and through which the refrigerant flows in, and a foreign material storage portion (210) which is for storing foreign materials comprised in the refrigerant that has flowed in through the refrigerant inlet hole (201).
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/2016/135933 WAVE MOTION GEAR DEVICE||WO||01.09.2016|
||PCT/JP2015/055685||HARMONIC DRIVE SYSTEMS INC.||KOBAYASHI Masaru|
In a wave motion gear device (1), the external teeth (6) of a flexible external tooth gear (4) are elastically deformable in the direction of decreasing tooth thickness. The internal teeth (7, 8) and the external teeth (6) of rigid first and second internal tooth gears (2, 3) are set so as to mesh in an overlapping state, in which the external teeth (6) are elastically deformed and mesh with the internal teeth without any gaps. The internal teeth (7, 8) have a modified tooth shape (7C, 8C) which was modified so that when the teeth are meshing, in the overlapping state, there is no interference between the tooth tip portions of the internal teeth (7, 8) and the tooth root portions of the external teeth (6). The foregoing makes it possible to realize a wave motion gear device that can suppress or eliminate any rattling involved in the meshing of the teeth.
WO/2016/132515 DIGGING BUCKET AND WORKING VEHICLE||WO||25.08.2016|
||PCT/JP2015/054655||KOMATSU LTD.||TANAKA, Daijirou|
This digging bucket (9) is provided with: a bottom surface (21), a rear surface (22), a pair of facing side walls (26a, 26b); teeth (24); a bracket (25); and a target penetration depth indication section (27). The target penetration depth indication section (27) is provided close to the teeth (24) and near ends (26e) of the side walls (26a, 26b) forming the peripheral edges of an opening (28), and the target penetration depth indication section (27) indicates a target penetration depth. The target penetration depth indication section (27) is provided on the inner side of at least one of the pair of side walls (26a,26b) at a position which, when an imaginary line segment S1 connecting the center (O3) of a first hole (51) of the bracket (25) and the tips (24a) of the teeth (24) is defined as a wrist radius (D1) in a side view, is located on the imaginary line segment S1 at a distance from the tips of the teeth (24), the distance being equal to a predetermined proportion α of the wrist radius D1.
WO/2016/125232 WORK VEHICLE AND WORK VEHICLE CONTROL METHOD||WO||11.08.2016|
||PCT/JP2015/052837||KOMATSU LTD.||SHINTANI, Satoru|
A work vehicle comprises a vehicle body, a work machine, an angle sensor, and a work machine controlling unit. The work machine comprises a boom, an arm, and a bucket. The boom can rotate with respect to the vehicle body around a boom axis. The arm can rotate with respect to the boom around an arm axis parallel to the boom axis. The bucket can rotate with respect to the arm around a bucket axis parallel to the arm axis and around a tilt axis perpendicular to the bucket axis. The angle sensor is provided on the bucket and detects the tilt angle of the buck with respect to the horizontal plane. The work machine controlling unit performs work machine control to control at least a portion of work machine operations automatically on the basis of a designed surface showing the target shape that is the goal of the work machine operations. The work machine controlling unit starts work machine control when the bucket tilt angle detected by the angle sensor is less than a first threshold value and does not start work machine control when the bucket tilt angle detected by the angle sensor is equal to or greater than the first threshold value.