Patents Assigned to Hitachi Appliances, Inc.
  • Patent number: 9766679
    Abstract: The present invention pertains to a power monitoring device configured in such a manner as to make it as easy as possible to perform power monitoring, notification and control for customers in coordination with the power utilization rate of a utility grid. The power monitoring device is provided with: a target power setting unit that receives, from outside, information indicating the power utilization rate of a utility grid by time, and, with regard to time periods in which the power utilization rate is greater than a prescribed threshold value, reduces preset target power consumption levels, and sets target power consumption levels by time; and an assessment and control unit that obtains, from outside, the power usage of power-consuming devices, and performs control in order to save power for the power-consuming devices in time periods in which the obtained power usage exceeds the target power consumption level.
    Type: Grant
    Filed: April 16, 2012
    Date of Patent: September 19, 2017
    Assignee: HITACHI APPLIANCES, INC
    Inventors: Tadayoshi Kosaka, Katsuya Miyata, Hidetoshi Teraoka
  • Patent number: 9651272
    Abstract: A base terminal receives the air-conditioning control information from the server, and on the basis of the received air-conditioning control information, when a power consumption value in a site is greater than the target power value for demand control, the base terminal transmits, to air-conditioning control equipment, a control instruction that sets an air conditioner to OFF, and when the temperature measured in an area is greater than the upper limit temperature when the air conditioner is performing a cooling operation, or when the temperature measured in the area is less than the lower limit temperature when the air conditioner is performing a heating operation, the base terminal transmits a control instruction that sets the air conditioner to ON.
    Type: Grant
    Filed: August 29, 2012
    Date of Patent: May 16, 2017
    Assignee: Hitachi Appliances, Inc.
    Inventors: Yasuhisa Mori, Hideo Tomita, Norikazu Sasaki
  • Publication number: 20170117762
    Abstract: A rotor is formed such that a concave section is formed on the q axis and a gap between the concave section and a tooth of a stator is larger than a gap between an outer circumferential section and the tooth on the d axis. The concave section is formed in a substantially trapezoidal shape and formed such that an opening degree ?p2 on an outer circumference side is large with respect to an opening degree ?p1 on an inner circumference side. The opening degree ?p2 is set within a range of approximately 60 degrees in the electrical angle. A slit is not formed near the d axis on the outer circumference side of the permanent magnet insertion hole and a plurality of slits are formed on left and right both sides a predetermined distance or more apart from the d axis.
    Type: Application
    Filed: March 24, 2015
    Publication date: April 27, 2017
    Applicant: Hitachi Appliances, Inc.
    Inventors: Ryouichi TAKAHATA, Tsenghong LIN, Syuuji HASEGAWA, Satoshi NAKAMURA
  • Publication number: 20170038125
    Abstract: A hot gas bypass circuit that connects a discharge side of the compressor and a portion between the heat source side heat exchanger and the expansion valve, an on-off valve that opens and closes a channel of the hot gas bypass circuit, and a control device performing control to select one of hot gas bypass defrosting and reverse cycle defrosting according to a frosting amount on the heat source side heat exchanger and perform defrosting. The control device controls to open the on-off valve of the hot gas bypass circuit such that a part of a refrigerant discharged from the compressor is supplied to the heat source side heat exchanger via the hot gas bypass circuit and, the control device switches switch the four-way valve such that the refrigerant discharged from the compressor is supplied to the heat source side heat exchanger after passing through the four-way valve.
    Type: Application
    Filed: April 22, 2014
    Publication date: February 9, 2017
    Applicant: Hitachi Appliances, Inc.
    Inventors: Kazuhiko TANI, Koji NAITO, Tatsuya MOCHIDA, Kazumoto URATA, Yoshiyuki AKIYAMA, Masami INABA
  • Publication number: 20160320113
    Abstract: The air conditioning apparatus of the present invention includes a refrigeration cycle device formed by connecting an outdoor unit equipped with a compressor with a plurality of indoor units, the indoor unit performs an air conditioning operation by switching between an thermo-on operation for performing a cooling operation or a heating operation and a thermo-off operation for suspending the cooling operation or the heating operation by using information on temperature difference between a suction air temperature and a set temperature, and shifts to a start-stop suppression operation mode for making any indoor unit perform the thermo-on operation in a case where an indoor unit A has met a thermo-off condition for switching from the thermo-on operation to the thermos-off operation and in a case where there is none of the indoor units is in the thermo-on operation other than the indoor unit A.
    Type: Application
    Filed: July 28, 2014
    Publication date: November 3, 2016
    Applicant: Hitachi Appliances, Inc.
    Inventors: Sachio SEKIYA, Masanao KOTANI, Shigeyuki SASAKI
  • Publication number: 20160273794
    Abstract: An air conditioning apparatus suppresses an increase in power consumption associated with a reduction in start-stop frequency of a compressor. The air conditioning apparatus includes an outdoor unit equipped with a compressor and a plurality of indoor units connected with the outdoor unit and has a control device that performs thermo-off and thermo-on control such that a suction air temperature of the indoor unit falls within a predetermined temperature range with a set temperature defined as a reference. The control device detects the suction air temperatures of the indoor units, and, in a case where a sum total of air conditioning capacities of the indoor units, the suction air temperatures of which are between the set temperature and the thermo-off temperature, is at least a predetermined value, makes at least one indoor unit, the suction air temperatures of which are between the set temperature and the thermo-off temperature, forcedly thermo-off.
    Type: Application
    Filed: June 30, 2014
    Publication date: September 22, 2016
    Applicant: HITACHI APPLIANCES, INC.
    Inventors: Masanao KOTANI, Sachio SEKIYA, Shigeyuki SASAKI
  • Patent number: 9353751
    Abstract: A suction chamber and the oil injection port are linked, under a certain range of revolution angle, via a suction working chamber formed in the radially outer side by a orbiting scroll outer curve and a fixed scroll inner curve under a certain range of revolution angle. An opening of the oil injection port is provided on a bottom surface between teeth of the fixed scroll so that the suction working chamber formed, in a radially inner side, by a orbiting scroll inner curve and a fixed scroll outer curve and the suction chamber are positioned not to be linked with the oil injection port.
    Type: Grant
    Filed: October 30, 2013
    Date of Patent: May 31, 2016
    Assignee: Hitachi Appliances, Inc.
    Inventors: Masao Shiibayashi, Yasushi Izunaga, Takamasa Adachi
  • Publication number: 20160075928
    Abstract: Provided is a working medium of the present invention for absorption refrigerators is a mixture that is to contact a carbon steel or a copper alloy that is a structural material of any one of the absorption refrigerators, and includes water and 1,4-dioxane, and further includes a corrosion inhibitor. The corrosion inhibitor includes one or more selected from the group consisting of respective hydroxides of any alkali metal and any alkaline earth metal, and respective oxoates. Thus, corrosion of the structural material of the absorption refrigerator can be restrained.
    Type: Application
    Filed: September 10, 2015
    Publication date: March 17, 2016
    Applicants: HITACHI APPLIANCES, INC., HITACHI, LTD.
    Inventors: Katsumi MABUCHI, Tatsuo FUJII, Nobuyuki TAKEDA
  • Patent number: 9239053
    Abstract: In the hermetically sealed scroll compressor, an injection pipe for injecting a fluid to a compression chamber is connected to an injecting port of a fixed scroll. The injecting port includes a first injecting port which is provided in the vicinity of a fixed scroll inner curve and injects the fluid to an orbiting outer compression chamber, and a second injecting port 22b which is provided in the vicinity of a fixed scroll outer curve and injects the fluid to a orbiting inner compression chamber 8b. The second injecting port is placed in parallel in a radius direction with respect to the first injecting port and is placed so that an orbiting scroll wrap does not practically communicate with the orbiting outer compression chamber in the state in which the orbiting scroll wrap is in contact with the outer side of a fixed scroll wrap.
    Type: Grant
    Filed: November 20, 2009
    Date of Patent: January 19, 2016
    Assignee: HITACHI APPLIANCES, INC.
    Inventors: Masao Shiibayashi, Kenji Tojo, Yasushi Izunaga
  • Patent number: 9181945
    Abstract: The lap shapes of a fixed scroll and an orbiting scroll are configured in an asymmetric tooth profile. In the bed plate of an orbiting scroll, a fluid effluence channel communicating with an external line side compression room of an orbiting scroll lap and another fluid effluence channel communicating with an internal line side compression room are formed, and the outlet side opening of each fluid effluence channel opens in the lap tooth bottom of the orbiting scroll, and inlet side openings are formed in a face of the bed plate that is in sliding contact with the bed plate face of the fixed scroll. In the face of the bed plate, a communicating section control groove that lets the inlet side openings of the two fluid effluence channels and the back pressure room intermittently communicate with each other.
    Type: Grant
    Filed: February 11, 2013
    Date of Patent: November 10, 2015
    Assignee: Hitachi Appliances, Inc.
    Inventors: Hiromu Takeda, Masashi Miyake, Masatsugu Chikano, Masaru Ohtahara, Shoji Matsumura
  • Patent number: 9169840
    Abstract: A screw compressor includes a valve hole formed at a discharge side end surface of a discharge casing and at a position opening to a compression work chamber; a bypass flow path having the valve hole and a discharge chamber communicate with each other; and a valve body arranged in the valve hole. The screw compressor also includes cylinder chambers provided on a rear surface side of the valve body; a piston reciprocally moving in the cylinder chambers; a rod connecting the piston and the valve body; communication paths for introducing a fluid on a discharge side into the cylinder chamber on a side opposite to a valve body side of the piston and on the valve body side; a pressure discharge path; a plurality of valve means; and a controller controlling the plurality of valves means.
    Type: Grant
    Filed: January 10, 2012
    Date of Patent: October 27, 2015
    Assignee: Hitachi Appliances, Inc.
    Inventors: Ryuichiro Yonemoto, Eisuke Kato, Masayuki Urashin, Shinichiro Yamada
  • Publication number: 20150300662
    Abstract: Provided is an air conditioner which comprises multiple outdoor units, the air conditioner being configured so that, with the use of a low cost configuration, required refrigeration machine oil is supplied to all the outdoor units through refrigerant piping and so that the air conditioner has increased reliability. An air conditioner is provided with multiple indoor units and with four outdoor units which are connected to the multiple indoor units through refrigerant piping. A line of first refrigerant piping leading from the multiple indoor units is branched into two lines of second refrigerant piping, each of the two lines of second refrigerant piping is branched into two lines of third refrigerant piping, and the four lines of third refrigerant piping are respectively connected to the four outdoor units.
    Type: Application
    Filed: February 9, 2012
    Publication date: October 22, 2015
    Applicant: Hitachi Appliances, Inc.
    Inventors: Koji NAITO, Yasutaka YOSHIDA, Kazumoto URATA, Hiroyuki KAWAGUCHI, Yuki FURUTA, Kazuhiko TANI
  • Patent number: 9091266
    Abstract: A scroll compressor includes a crankshaft, a suction chamber, a back pressure chamber, a communication path, a back pressure control means, and a base plate. The base plate intermittently connects the communication path by opening and closing an opening on a back pressure chamber side of the communication path. The crankshaft drives an orbiting scroll, and mutually engages a stationary scroll having a whirlpool shape and the orbiting scroll.
    Type: Grant
    Filed: March 29, 2011
    Date of Patent: July 28, 2015
    Assignee: Hitachi Appliances, Inc.
    Inventors: Kouichi Imada, Mutsunori Matsunaga, Takeshi Tsuchiya, Shuji Hasegawa, Yoshihiro Fukaya, Hiromu Takeda, Masatsugu Chikano
  • Patent number: 9010281
    Abstract: Disclosed is a hot water supply system provided with a tank which holds a high-temperature liquid, and a heating means for generating the high-temperature liquid which is stored in the aforementioned tank. In the lower portion of the aforementioned tank is provided a water-heating heat exchanger which heats the water to be supplied to a hot water terminal by means of the liquid present in the lower portion of the aforementioned tank. Further, a hot water supply circuit is provided which conducts water to the aforementioned hot water supply terminal. The aforementioned hot water supply circuit splits into a water-heating path passing through the aforementioned water-heating heat exchanger, and a bypass path bypassing the aforementioned water-heating heat exchanger, and is provided with a hot water supply circuit control mechanism which controls the circulation state of the water in the aforementioned water-heating path and the aforementioned bypass path.
    Type: Grant
    Filed: December 15, 2010
    Date of Patent: April 21, 2015
    Assignee: Hitachi Appliances, Inc.
    Inventors: Takayuki Fushiki, Hidekatsu Fujita
  • Patent number: 8992188
    Abstract: In a revolution type compressor using a balance weight for balancing a rotating mass, the effect of oil churn reduction is enhanced, and compressor input is reduced. A balance weight fixed to a drive shaft between a rotor of an electric motor 4 and a compression mechanism includes a weight portion in a substantially semicircular column shape for balancing a rotating mass, a cover portion which is substantially semi-cylindrical and has an opening in the vicinity of a top and bottom at an opposite side in a radial direction from the weight portion, and a hollow space surrounded by the weight portion and the cover portion. Further, a space for discharging oil is provided between the balance weight and the rotor. By the structure, reduction in oil churn, and reduction in input of the compressor are realized, and the compressor with less power consumption is obtained.
    Type: Grant
    Filed: December 15, 2009
    Date of Patent: March 31, 2015
    Assignee: Hitachi Appliances, Inc.
    Inventors: Satoshi Nakamura, Mutsunori Matsunaga, Takeshi Tsuchiya, Masatsugu Chikano
  • Patent number: 8937422
    Abstract: The magnetic iron core includes an amorphous foil strip wound to form the magnetic iron core. Preferably, the magnetic iron core is filled with resin, the resin being disposed by using a spacer between pluralities of windings of the amorphous foil strip. Preferably, the magnetic iron core is covered with resin integrated with and continuous to the resin disposed between pluralities of windings of the amorphous foil strip.
    Type: Grant
    Filed: October 22, 2010
    Date of Patent: January 20, 2015
    Assignees: Hitachi Industrial Equipment Systems Co., Ltd., Hitachi Appliances, Inc.
    Inventors: Yuji Enomoto, Zhuonan Wang, Ryoso Masaki, Hiromitsu Itabashi
  • Patent number: 8888476
    Abstract: The inside of a sealed container (50) of a horizontal scroll compressor is partitioned by a partition plate (80) into a space in which a compressor mechanism section and an electric motor are contained and into a discharge space (84) in which a discharge pipe (52) and an oil supply pump (70) are contained. An upper communication path (85) and a path guide member (81) are provided in the upper part of the partition plate, and a refrigerant gas passes through the upper communication path (85). The path guide member is located below the discharge pipe (52), is extended to a position near a side surface of the sealed container, and has a path area greater than the path area of the discharge pipe. The construction causes the refrigerant gas to collide with the side surface of the sealed container, promoting separation of oil, and even if the oil is re-dispersed by a gas flow, the construction reduces flow directly leading to the discharge pipe.
    Type: Grant
    Filed: June 29, 2009
    Date of Patent: November 18, 2014
    Assignee: Hitachi Appliances, Inc.
    Inventors: Shuji Hasegawa, Mutsunori Matsunaga, Masashi Miyake
  • Patent number: 8888475
    Abstract: A scroll compressor is provided in which the amount of lubricant oil supply is appropriately controlled over a low to high rotational frequency range of the scroll compressor. The scroll compressor has an oil supply unit and an oil supply passage. The oil supply unit includes a small hole with a diameter not exceeding a seal ring width of the sealing part and a groove which are formed on the end plate of the boss portion on the back side of the orbiting scroll. As the orbiting scroll orbitally moves, oil in the high pressure hydraulic chamber pools in the small hole to be discharged, across the seal ring, into the back pressure chamber. The oil supply passage communicates between the high pressure hydraulic chamber and the back pressure chamber.
    Type: Grant
    Filed: August 10, 2010
    Date of Patent: November 18, 2014
    Assignee: Hitachi Appliances, Inc.
    Inventors: Yuichi Yanagase, Eiji Sato, Isamu Tsubono, Mutsunori Matsunaga, Satoshi Nakamura, Masatsugu Chikano
  • Patent number: 8847534
    Abstract: A converter includes three AC reactors, a three-phase diode bridge, a plurality of smoothing capacitors connected in series between a DC output side of the three-phase diode bridge and a DC load, two flywheel diodes connected to positive and negative terminals on the DC side of the three-phase diode bridge, respectively. A reactor is inserted between the midpoint of the two flywheel diodes and the midpoint of the smoothing capacitors, three both-way energizing switches are arranged between the AC side of the three-phase diode bridge and the midpoint of the two flywheel diodes. The three both-way energizing switches are controlled to reduce higher harmonic components of power source current, and by the reactor interposed between the midpoint of the two flywheel diodes and the midpoint of the smoothing capacitors, reverse recovery currents of the three-phase diode bridge during turn-on of the three both-way energizing switches are suppressed.
    Type: Grant
    Filed: March 31, 2010
    Date of Patent: September 30, 2014
    Assignees: Hitachi Appliances, Inc., Hitachi Industrial Equipment Systems Co., Ltd.
    Inventors: Dongsheng Li, Yasuo Notohara
  • Patent number: 8836192
    Abstract: In the axial gap rotating electrical machine, the rotor includes a rotor yoke that is formed by wrapping amorphous ribbon wound toroidal core, which is obtained by winding an amorphous magnetic metal ribbon into a toroidal core. Magnets having plural poles are circumferentially disposed on a stator-facing surface of the amorphous ribbon wound toroidal core.
    Type: Grant
    Filed: December 28, 2010
    Date of Patent: September 16, 2014
    Assignees: Hitachi Industrial Equipment Systems Co., Ltd., Hitachi Metals, Ltd., Hitachi Appliances, Inc.
    Inventors: Zhuonan Wang, Yuji Enomoto, Ryoso Masaki, Hiromitsu Itabashi, Tomio Yoshikawa