会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 1. 发明专利
    • 巡回計画策定システム、巡回計画策定方法、及びプログラム
    • PATROL计划制定系统,PATROL计划制定方法和程序
    • JP2015005094A
    • 2015-01-08
    • JP2013129427
    • 2013-06-20
    • 東京瓦斯株式会社Tokyo Gas Co Ltd
    • NAKAYAMA KANAKONAKAI YOHEISHIRAKAWA TATSUYAIKEDA YUNITTA TOSHIHIRO
    • G06Q50/10G06Q50/06
    • 【課題】計画策定時間の短縮、巡回間隔の制約条件の考慮、巡回業務の負荷平準化、及び特別巡回業務の発生量の抑制を実現する。【解決手段】巡回計画策定システムは、巡回管轄区分を集約キーとしてユニットを集約し、集約旧巡回計画情報を作成する(S21)。次に、集約旧巡回計画情報ごとに新巡回予定年月を算出し、新巡回予定年月と集約旧巡回予定年月の差分が所定の条件を満たす集約旧巡回計画情報に係る集約作業量の合計を第1特別巡回発生量とし、総経路距離及び第1特別巡回発生量を含む第1目的関数を最小化する(S24)。次に、旧巡回計画情報ごとに第1新巡回計画に従って巡回する場合の新巡回予定年月を算出し、新巡回予定年月と旧巡回予定年月の差分が所定の条件を満たす旧巡回計画情報に係る作業量の合計を第2特別巡回発生量とし、第2特別巡回発生量を含む第2目的関数を最小化する(S31)。【選択図】図3
    • 要解决的问题:实现缩短计划制定时间,考虑巡视间隔限制条件,巡视业务负载调平,抑制专项巡逻业务发生量。解决方案:巡视计划制定系统总结了一个单位 巡逻司司长作为总结钥匙,生成总结老巡逻计划信息(S21)。 然后,对每个总结旧的巡逻计划信息计算新的巡逻日程表年/月。 通过假设总计与总计旧巡逻计划信息相关的总计工作量,其中新巡逻日程表/月份和总计老巡逻日程表年/月满足预定条件之间的差异作为第一特殊巡视发生量,第一 包括总路径距离和第一特殊巡视发生量的目标功能被最小化(S24)。 然后,按照每个旧巡逻计划信息的第一个新巡逻计划进行巡逻的情况下,计算年度/月份的新巡逻时间表。 通过将与巡视计划的新信息相对应的总计工作量与新的巡视进度表年/月和旧巡逻日程表/月份之间的差分满足预定条件作为第二特殊巡视发生量,包括第 使第二特殊巡视发生量最小化(S31)。
    • 4. 发明专利
    • HOT-WATER SUPPLIER
    • JPH08261449A
    • 1996-10-11
    • JP6324995
    • 1995-03-23
    • TOKYO GAS CO LTD
    • SUZUKI KIWAMUNAKAYAMA KANAKOMORITA SATORU
    • F23N5/12F23N5/02
    • PURPOSE: To detect the trouble of a flame detecting means in a hot-water supplier quickly and properly by a method wherein a means, judging that a flame detecting means is troubled, when a flame detecting signal is not outputted in spite that a temperature, stored in a memory means, has exceeded a pedetermined temperature after a predetermined period of time from the outputting of a flow water detecting signal, is provided. CONSTITUTION: A water tube 6 is provided with a flow water temperature sensor 3, monitoring a water temperature in the water tube 6, a flow water detecting means 2, detecting the flow of water due to the opening of a water cock 23, and a water amount control valve 10. A heating unit temperature sensor 4, detecting the ambient temperature of the heat exchanger 16, is provided near the heat exchanger 16. Decision of whether the burner 17 of a hot-water supplier 1 is ignited actually or not is effected by observing the change of the temperature of water, flowing through the water tube 6 in the hot-water supplier 1, or the ambient temperature of the heat exchanger 16 heated by the bruner 17. When a flame detecting signal from a flame detecting means is not outputted inspite that the ignition is decided to have been effected actually, it is decided that the flame detecting means is troubled.
    • 5. 发明专利
    • HOT WATER SUPPLYING APPARATUS
    • JPH08178423A
    • 1996-07-12
    • JP32595294
    • 1994-12-27
    • TOKYO GAS CO LTD
    • SUZUKI KIWAMUNAKAYAMA KANAKOMORITA SATORU
    • G01F1/00F23N5/02F24H1/10
    • PURPOSE: To enable detecting of a trouble of a running water sensing device quickly and accurately by determining the running water sensor to break down if a running water sensing signal is not outputted within a fixed time before or after an operation in which individual temperatures of running water stored are changed sequentially from the side closer to an intake port to let the temperatures after the change thereof continue for a fixed time. CONSTITUTION: The temperature of running water is detected with temperature sensors 3a and 3b at more than one points in a water pipe 6 and the individual temperatures of the running water detected are stored in time series into a memory 20a of a CPU 20. The temperatures of the running water stored in the memory 20a are changed sequentially from the side closer to an intake port to let the temperatures after the change thereof continue for a fixed time and if no running water sensing signal is outputted within a fixed time before or after the operation, a running water sensing device 2 is determined to break down. The results are displayed on a remote controller 22. This enables detecting of any trouble of the running water sensing device 2 quickly and accurately.
    • 6. 发明专利
    • AIR CONDITIONER USING ABSORPTION TYPE REFRIGERATOR
    • JPH08145495A
    • 1996-06-07
    • JP28213594
    • 1994-11-16
    • TOKYO GAS CO LTD
    • TANAKA TAKASHIFURUKAWA HIDEKINAKAYAMA KANAKO
    • F25B15/00
    • PURPOSE: To provide an air conditioner in which the feeding of liquid refrigerant to an evaporator is stabilized even when a condenser outlet temperature is continuously lowered while an air-woling fan is rotated with the minimum capacity for a predetermined time or more or stopped or the deviation of condenser outlet temperature from the target temperature is not eliminated. CONSTITUTION: An air conditioner using an absorption type refrigerator comprises an evaporator 10, an absorber 20, a regenerator 12, and a condenser 16 to feed a refrigerant from the condenser to the evaporator according to the pressure difference between the condenser and the evaporator, to directly cool the indoor air by the evaporation of the refrigerant in the evaporator, to supply the cooled air into a room to cool. Accordingly, even if the fan 17 is rotated with the minimum capacity for a predetermined time or more or stopped, when the condenser outlet temperature is continuously lowered, or when the difference between the condenser outlet temperature and the suitable condenser outlet temperature does not become a predetermined value or less, a control means for increasing the gas supply amount to a burner 13 is provided.
    • 9. 发明专利
    • AIR CONDITIONER
    • JPH0875273A
    • 1996-03-19
    • JP23045794
    • 1994-08-31
    • TOKYO GAS CO LTD
    • TANAKA TAKASHIFURUKAWA HIDEKIKANEKO ISAOSUZUKI KIWAMUFUJISAWA KAZUYAMASUKO TOKUSHIGENAKAYAMA KANAKOKOMAKI MICHINORIMORITA SATORU
    • F25B1/00F25B13/00
    • PURPOSE: To realize the favorable air-conditioning in the severe cold by providing a means to switch the inflow of the refrigerant between an air heat exchanger to achieve the heat exchange between the refrigerant from a pressure loss part to reduce the pressure of the refrigerant and the outdoor air and an auxiliary heat exchanger to achieve the heat exchange between the refrigerant and the other heat source. CONSTITUTION: An air heat exchanger 1 achieves the heat exchange between the refrigerant and the outdoor air to vaporize the coolant. A gas-fired heat exchanger 3 achieves the heat exchange between the refrigerant and the other heat source through the gas combustion by a burner 5. A compressor 7 changes the vaporized refrigerant through the heat exchange into the gas of high temperature and high pressure. An indoor unit 9 heats up the indoor air by liquefying the refrigerant gas of high temperature and high pressure to achieve the indoor heating. A pressure loss part 11 reduces the pressure of the refrigerant for expansion. A controller 13 controls a switching valve 15 based on the temperature information to be transmitted from a temperature sensor 12, and switches the refrigerant flow passage to the air heat exchanger 1 and the gas-fired heat exchanger 3.
    • 10. 发明专利
    • AIR CONDITIONER
    • JPH0875272A
    • 1996-03-19
    • JP23045694
    • 1994-08-31
    • TOKYO GAS CO LTD
    • TANAKA TAKASHIFURUKAWA HIDEKIKANEKO ISAOSUZUKI KIWAMUFUJISAWA KAZUYAMASUKO TOKUSHIGENAKAYAMA KANAKOKOMAKI MICHINORIMORITA SATORU
    • F25B1/00F25B13/00
    • PURPOSE: To realize the favorable air-conditioning in the severe cold by achieving the heat exchange between the refrigerant from an air heat exchanger and the other heat source by an auxiliary heat exchanger when the heat exchange by the air heat exchanger to achieve the heat exchange between the refrigerant from a pressure loss part to reduce the pressure of the refrigerant from an indoor unit and the outdoor air is insufficient. CONSTITUTION: An air heat exchanger 1 achieves the heat exchange between the refrigerant and the outdoor air to vaporize the refrigerant. A gas-fired heat exchanger 3 achieves the heat exchange between the refrigerant and the outer air in a similar manner to the air heat exchange by the gas from a burner 5. A compressor 7 changes the vaporized refrigerant through the heat exchange into the gas of high temperature and high pressure. An indoor unit 9 heats up the indoor air by liquefying the refrigerant gas of high temperature and high pressure to achieve the indoor heating. A pressure loss part 11 reduces the pressure of the refrigerant for expansion. A temperature sensor 13 measures the temperature of the refrigerant vaporized by the air heat exchanger 1. A controller 15 controls the burner 5 to operate the gas-fired heat exchanger 3 when the temperature measured by the temperature sensor 13 is lower than the prescribed value.