WO2018153133A1 - Procédé et système de détection d'appareils électroménagers - Google Patents

Procédé et système de détection d'appareils électroménagers Download PDF

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Publication number
WO2018153133A1
WO2018153133A1 PCT/CN2017/113357 CN2017113357W WO2018153133A1 WO 2018153133 A1 WO2018153133 A1 WO 2018153133A1 CN 2017113357 W CN2017113357 W CN 2017113357W WO 2018153133 A1 WO2018153133 A1 WO 2018153133A1
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WO
WIPO (PCT)
Prior art keywords
self
home appliance
test
module
checking
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PCT/CN2017/113357
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English (en)
Chinese (zh)
Inventor
欧阳娣
龚雄辉
Original Assignee
广东美的制冷设备有限公司
美的集团股份有限公司
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Application filed by 广东美的制冷设备有限公司, 美的集团股份有限公司 filed Critical 广东美的制冷设备有限公司
Publication of WO2018153133A1 publication Critical patent/WO2018153133A1/fr

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    • GPHYSICS
    • G01MEASURING; TESTING
    • G01DMEASURING NOT SPECIALLY ADAPTED FOR A SPECIFIC VARIABLE; ARRANGEMENTS FOR MEASURING TWO OR MORE VARIABLES NOT COVERED IN A SINGLE OTHER SUBCLASS; TARIFF METERING APPARATUS; MEASURING OR TESTING NOT OTHERWISE PROVIDED FOR
    • G01D21/00Measuring or testing not otherwise provided for
    • GPHYSICS
    • G01MEASURING; TESTING
    • G01RMEASURING ELECTRIC VARIABLES; MEASURING MAGNETIC VARIABLES
    • G01R31/00Arrangements for testing electric properties; Arrangements for locating electric faults; Arrangements for electrical testing characterised by what is being tested not provided for elsewhere
    • G01R31/01Subjecting similar articles in turn to test, e.g. "go/no-go" tests in mass production; Testing objects at points as they pass through a testing station

Definitions

  • the invention relates to the technical field of self-inspection of home appliances, in particular to a method and system for detecting household appliances.
  • the regular self-test of home appliances is self-test according to the default order of electronic control. Although it can perform self-test according to the order of home appliances, considering the influence of the frequency of home appliances and the environment on the home appliances, the home appliance self-test is still performed in the default order. If the self-checking flexibility is poor and the effect is poor.
  • the main object of the present invention is to provide a method for detecting a household appliance, which aims to solve the problem of the home appliance self-inspection in the prior art, taking into account the influence of the frequency of the home appliance and the environment on the home appliance, and still performing the home appliance in the default order. Inspection, self-checking flexibility and poor performance.
  • the invention provides a method for detecting a household appliance, comprising:
  • Each home appliance is sequentially detected in accordance with the adjusted self-test order of the home appliance.
  • the self-test self-test sequence of the home appliance self-checking table according to the influence parameter includes:
  • the home appliance self-test sequence of the preset home appliance self-checking table is adjusted according to the frequency of use, and the self-test sequence of the high-frequency home appliance is used before the home appliance with a low frequency of use.
  • the self-test self-test sequence of the home appliance self-checking table according to the influence parameter includes:
  • the home appliance self-checking order of the preset home appliance self-checking table is adjusted, and the self-checking order of the home appliances that have a large influence on the home appliance is before the small-sized home appliance.
  • the step of sequentially detecting each home appliance according to the adjusted self-test sequence of the home appliance further includes:
  • the self-test frequency of each of the set home appliances is obtained, and each home appliance is sequentially detected at the self-test frequency.
  • the method includes:
  • the method further includes:
  • each module of the single home appliance is detected in accordance with the adjusted module self-test sequence.
  • the impact factor is weather
  • the self-test sequence of adjusting a single home appliance module according to the impact factor includes:
  • the self-test sequence of the individual home appliance modules is adjusted, and the self-test sequence of the home appliance modules having a large weather influence is before the influence of the small home appliance module.
  • the method further includes:
  • the home appliance self-test sequence is generated and a home appliance self-checking table is formed.
  • the present invention further provides a home appliance detecting system, including:
  • the parameter obtaining module is configured to obtain an influence parameter of the self-test of the home appliance in the preset home appliance self-checking table;
  • An adjustment module configured to adjust a self-test sequence of the appliance of the preset home appliance self-checking table according to the influence parameter
  • the control module is configured to sequentially detect each home appliance according to the adjusted self-test sequence of the home appliance.
  • the parameter obtaining module includes: a frequency parameter acquiring unit:
  • the frequency parameter acquisition is used to adjust the self-test sequence of the home appliance self-checking table according to the frequency of use, and the self-test sequence of the high-frequency home appliance is used before the home appliance with low frequency of use;
  • the parameter obtaining module includes: an environment parameter acquiring unit:
  • the environmental parameter obtaining unit is configured to adjust the self-test sequence of the home appliance self-checking table according to the environment, and the self-checking order of the home appliances that have a large influence on the home appliance before the home appliance affects the small appliance.
  • control module is further configured to acquire a self-test frequency of each of the set appliances, and sequentially detect each home appliance by the self-test frequency.
  • the method further comprises:
  • a self-test module for obtaining an influence factor of a self-test of the home appliance module
  • the adjustment module is further configured to adjust a self-test sequence of the single home appliance module according to the impact factor.
  • control module is further configured to detect each module of the single home appliance according to the adjusted module self-test sequence when detecting the single home appliance.
  • the self-test module is further configured to adjust a self-test sequence of the single home appliance module according to the weather, and the self-test sequence of the home appliance module having a large weather influence is before the small-sized home appliance module is affected.
  • the system further comprises:
  • a receiving module configured to receive, by using the input interface, an input home appliance that needs self-test
  • the generating module is configured to generate a home appliance self-test sequence according to a preset rule and form a home appliance self-checking table.
  • the invention obtains the influence parameter of the home appliance self-test in the preset home appliance self-checking table; adjusts the home appliance self-checking order of the preset home appliance self-checking table according to the influence parameter; and sequentially detects each home appliance according to the adjusted home appliance self-checking order . It has improved the efficiency and flexibility of self-checking of home appliances, laying a good foundation for extending the life of home appliances and reducing the occurrence of home appliance failures.
  • FIG. 1 is a schematic flow chart of a first embodiment of a method for detecting a household appliance according to the present invention
  • FIG. 2 is a schematic flow chart of a second embodiment of a method for detecting a household appliance according to the present invention
  • FIG. 3 is a schematic flow chart of a third embodiment of a method for detecting a household appliance according to the present invention.
  • FIG. 4 is a schematic diagram of functional modules of a first embodiment of a home appliance detection system of the present invention.
  • FIG. 5 is a schematic diagram of functional modules of a second embodiment of a home appliance detecting system of the present invention.
  • FIG. 6 is a schematic diagram of functional modules of a third embodiment of a home appliance detection system of the present invention.
  • the present invention provides a home appliance detecting method.
  • FIG. 1 is a schematic flow chart of a first embodiment of a method for detecting a household appliance according to the present invention.
  • the method comprises:
  • Step S10 obtaining an influence parameter of the self-test of the home appliance in the preset home appliance self-checking table
  • a smart home appliance having a self-test function and capable of automatically generating a self-checking table generates a home appliance self-checking table of the home appliance when the self-checking function is initialized, and sends the home appliance self-checking table to the home appliance type as a logo to
  • the intelligent terminal that controls the self-test of the home appliance or other electronic device associated with the smart terminal stores the smart device or other electronic device associated with the smart terminal, and when the electronic device self-checking table is received, the smart terminal extracts the stored home appliance Checking the type of the home appliance, and sorting the extracted types of the home appliances according to a preset order to generate a self-checking table for the home appliance; the preset order of the home appliances is arranged, and the order of the home appliance self-checking table is initialized, and the order is arranged to be written in advance.
  • a logic for arranging the self-test sequence of home appliances for example, sorted according to power consumption, air conditioner>water heater>refrigerator>humidifier, etc., or sorted according to conventional frequency, refrigerator>humidifier>air conditioner>water heater;
  • the home appliance self-checking table of the home appliance is arranged in a preset order, and the preset self-checking influence parameter of the home appliance self-checking table is obtained, which is used to adjust the current home appliance self-checking table home appliance sorting order, and then adjust the home appliance self-checking order;
  • the self-test influence parameter of the home appliance is a parameter condition that affects the self-test sequence of the home appliance set by the user in the smart terminal where the home appliance self-checking table is located or other electronic device associated with the smart terminal, and the smart terminal is capable of controlling the home appliance to perform self-test Checking the operation of the intelligent electronic device, and being able to set the self-checking influence parameter of the home appliance and the self-checking table for storing the home appliance; the other electronic device associated with the intelligent terminal is used to set the self-checking influence parameter of the home appliance or the self-checking table for storing the home appliance;
  • the influence parameter of the home appliance self-test is set by the user according to various factors such as the current
  • the self-test self-test sequence of the home appliance self-checking table according to the influence parameter includes:
  • the home appliance self-test sequence of the preset home appliance self-checking table is adjusted, and the self-test sequence of the high-frequency home appliance is used before the home appliance with a low frequency of use;
  • the parameter of the home appliance self-test influence parameter is the home appliance use frequency, that is, the home appliance use frequency is set to optimize the home appliance self-checking table adjustment parameter.
  • the frequency of use of the home appliance in the self-checking table of the home appliance is obtained in the cycle of the target time, and the order of the home appliance is rearranged according to the frequency of use of the home appliance according to the frequency of use of the home appliance, and the order of the home appliance is sorted according to the frequency of use. Adjust the order of home appliances in the current home appliance self-checking table.
  • the target time is a cycle, which is a self-test cycle time of the home appliance set in the home appliance self-checking table, and during this time, the home appliance use frequency of the home appliance self-checking table is calculated.
  • the front of the home appliance having a low frequency of use of the home appliance having a high frequency of use is a home appliance having a high priority for self-checking.
  • the self-test self-test sequence of the home appliance self-checking table according to the influence parameter includes:
  • the home appliance self-checking order of the preset home appliance self-checking table is adjusted, and the self-checking order of the home appliances that have a large influence on the home appliance is before the small-sized home appliance.
  • the parameter of the home appliance self-test influence parameter is an environment, that is, the influence of the environmental change on the home appliance is used as an influence parameter for adjusting the self-test sequence of the home appliance; in this case, according to the home appliance
  • the location is divided into indoor electrical appliances and outdoor electrical appliances.
  • the influence of environmental changes on outdoor electrical appliances is greater than that of indoor electrical appliances.
  • the outdoor electrical appliances are arranged in front of indoor electrical appliances. For example, cold air in the north is bad in winter, and frost is easily generated.
  • the electrical appliance is prone to failure, and the solar water heater is arranged in front of the television, and the solar water heater is prioritized over the television for self-inspection.
  • Step S20 adjusting a self-test sequence of the home appliances of the preset home appliance self-checking table according to the influence parameter
  • the current self-checking order of the home appliance self-checking table is adjusted; in step S10, the influence parameter of the current home appliance self-test is first obtained, and the home appliance self-checking table is rearranged according to the influence parameter.
  • step S30 each home appliance is sequentially detected according to the adjusted self-test order of the home appliance.
  • the self-test of the home appliance is controlled in this order by the order in which the home appliance self-checking table of the home appliance has been adjusted.
  • the self-checking of the control appliance is a self-checking function of the home appliance, and before the home appliance self-checking table is generated, the connection between the home appliance and the smart device where the self-checking table of the home appliance is located or other electronic device associated with the smart terminal where the home appliance self-checking table is located is connected. It is used to control the home appliance through the home appliance self-checking table for self-checking operation.
  • the smart terminal is connected to other electronic devices and home appliances to control the home appliance to perform self-test.
  • the link function is an existing connection function between the home appliance and the smart terminal or other electronic device, for example, a Bluetooth connection, an infrared connection, and the like. This connection method is prior art and will not be described here.
  • the self-checking frequency in the home appliance cycle of the home appliance self-checking table may be set by using the home appliance self-checking list of the home appliance self-checking table to improve the self-checking efficiency and the self-checking effect of the home appliance, for example, according to the acquired cycle.
  • the frequency of internal appliances is used to adjust the self-test frequency of the appliance, that is, to set the number of self-tests of the current home appliance self-checking table in the cycle.
  • the rice cooker is frequently used, prompting the user to set the number of self-tests in the rice cooker cycle; when setting the number of self-tests in the appliance cycle, the cycle and the number of times can be customized, for example, setting the rice cooker every month. If the number of inspections is 5, the self-test will be automatically controlled every 6 days in the month according to the number of self-tests in the set rice cooker cycle.
  • the home appliance self-checking influence parameter of the home appliance self-checking table is obtained, and the home appliance self-checking table is adjusted according to the parameter, and the home appliance is sequentially controlled according to the adjusted home appliance self-checking table. Inspection operation; improve the self-checking efficiency of home appliances, and reduce the failure of home appliances and reduce the possibility of accidents. It also improves the intelligent self-checking of home appliances. Further, it can manually adjust the self-test frequency in the appliance cycle through the influence parameters of the home appliance self-test, which improves the user-friendliness of the home appliance self-test.
  • FIG. 2 is a schematic flow chart of a second embodiment of a method for detecting a household appliance according to the present invention.
  • the method includes:
  • Step S40 obtaining an influence factor of the self-test of the home appliance module
  • the influence factor of the preset self-test of the home appliance module is obtained, and the influence factor is an influence factor of the home appliance self-test module preset by the user in the home appliance self-checking table.
  • the order of the self-test modules of the home appliances is adjusted by the influence factor, thereby improving the self-checking efficiency of the home appliances.
  • the self-test sequence of the existing home appliance module is the default self-test sequence of the home appliance module for the self-checking function of the current home appliance. If there is no influence factor of the self-test of the home appliance module, the self-check operation of the home appliance module is performed according to the default self-test sequence of the home appliance module.
  • the impact factor is weather
  • the self-test sequence of adjusting a single home appliance module according to the impact factor includes:
  • the self-test sequence of the individual home appliance modules is adjusted, and the self-test sequence of the home appliance modules having a large weather influence is before the influence of the small home appliance module.
  • the self-test sequence of the home appliance modules is arranged before the self-test sequence of the home appliance module affected by the weather; for example, the current weather is summer, and when the air conditioner performs self-test, since the refrigeration function is used more, the self-test sequence may be: Compressor>Condenser>Throttle valve>Evaporator; when the current weather is winter, the air conditioner heating function is used more, and the self-test sequence is adjusted to: compressor> evaporator> throttle valve> condenser.
  • the order of the home appliance self-test module is adjusted by the weather, and the current climate can be judged by acquiring the outdoor temperature, the relative humidity, and the like.
  • the specific climate judgment method is judged according to the existing climate judgment mode of the smart terminal where the home appliance self-checking table is located or other electronic devices associated with the home appliance self-checking table.
  • the weather determination method is separately set by the user to determine the weather, and the self-test sequence of the individual home appliance modules is adjusted by the change of the weather influence factor.
  • Step S50 adjusting a self-test sequence of the single home appliance module according to the influence factor
  • the module self-test operation is performed on the home appliance through the preset home appliance self-test module influence factor on the current order of the home appliance self-test module.
  • the order of the self-test modules of the home appliance is adjusted according to the influence factor preset by the self-test sequence of the single home appliance module, that is, the order influence factor of the home appliance self-test module is set according to the type of the home appliance, and the order of the modules corresponding to the self-test of the home appliance is adjusted by the influence factor.
  • Step S60 when detecting the single home appliance, detecting the single simple individual modules according to the adjusted module self-test sequence.
  • the home appliance module After the home appliance self-test module is adjusted by the influence factor of the home appliance self-test module, the home appliance module is self-checked according to the sequence.
  • the influence factor of a single home appliance self-test module adjusts the self-test sequence of the current home appliance module. If the current home appliance does not have a self-test module influence factor, the module self-test operation is performed on the current home appliance according to the default home appliance self-test module sequence.
  • FIG. 3 is a schematic flowchart of a third embodiment of a method for detecting a household appliance according to the present invention.
  • the method for obtaining an influence parameter of a home appliance self-test in a preset home appliance self-checking table is performed.
  • Also includes:
  • Step S70 providing an input interface
  • the home appliance self-test input page is provided to add the home appliance into the home appliance self-checking table, thereby controlling the home appliance to perform the self-checking operation.
  • the interface includes input boxes and buttons such as home appliance type and self-test list download.
  • the home appliance that needs self-test and has a self-check function generates a self-checking table for the home appliance according to the self-checking function of the self-owned home appliance; the self-checking table of the home appliance generates a self-checking table function for the home appliance; the generated home appliance
  • the self-checking table is transmitted to the smart terminal where the server or the self-checking table of the home appliance is located or other electronic device associated with the smart terminal; the home appliance that needs self-checking and has a self-checking function has a wireless connection function and can be self-checked with the home appliance
  • the smart terminal on which the meter is located or other electronic device associated with the smart terminal is wirelessly connected; the wireless association is related to the self-owned wireless connection mode of the home appliance and the smart terminal or other electronic device; for example, a Bluetooth connection, an infrared connection, etc.
  • the wireless connection mode is prior art, and will not be described here.
  • Step S80 receiving an input home appliance that needs self-test through the input interface
  • the home appliance information that has been input is obtained, that is, the home appliance information added to the home appliance self-checking list.
  • the new operation of the home appliance is manually filled in by the user, and the home appliance self-checking table of the newly added home appliance is obtained for storage, and the self-checking operation of the home appliance module is performed.
  • Step S90 generating a home appliance self-test sequence according to a preset rule and forming a home appliance self-checking table.
  • the types of household appliances that have been added to the self-checking table of the home appliance are arranged according to the preset arrangement rules, and the home appliance self-checking table is formed according to the content of the home appliance arrangement, and the home appliance self-checking table is controlled by the home appliance self-checking table.
  • the preset home appliance sorting order is a default sorting order of the home appliances set before the home appliance self-checking table is generated, and the sorting order can be customized by the user, and is used to be relatively optimized when initializing the home appliance type table.
  • the obtaining of the home appliance type of the home appliance self-checking table further includes:
  • the self-checking table of the home appliance is generated by the self-checking form of the home appliance having the self-checking function and generating the home appliance self-checking table, and then uploaded to the smart terminal where the home appliance self-checking table is located or other electronic device associated with the home appliance self-checking table.
  • the self-checking table for confirming whether the home appliance in the self-checking table of the home appliance is missing the home appliance further includes:
  • the type of home appliance of the home appliance self-checking table and the type of home appliance self-checking table that has been stored in the smart terminal where the home appliance self-checking table is located or other electronic devices associated with the smart terminal, and compares the two to confirm whether there is
  • the type of home appliance is missing corresponding to the self-checking table of home appliances; in this case, in order to avoid the user's self-checking table, there is a user-added type of home appliance, but the home appliance is not submitted to the self-checking table of the home appliance to the server for storage, causing a mistake in the self-test of the home appliance later; or
  • the self-checking data of the home appliance is missing due to data errors, system abnormalities or hardware device damage, which affects the self-checking operation of the home appliance.
  • the home appliance self-checking table indicating that the home appliance is missing is indicated. It is necessary to re-acquire the self-checking list of the appliance.
  • the invention further provides a home appliance detection system.
  • FIG. 4 is a schematic diagram of functional modules of a first embodiment of a home appliance detecting system according to the present invention.
  • the system includes: a parameter acquisition module 10, an adjustment module 20, and a control module 30.
  • the parameter obtaining module 10 is configured to obtain an influence parameter of the self-test of the home appliance in the preset home appliance self-checking table;
  • a smart home appliance having a self-test function and capable of automatically generating a self-checking table generates a home appliance self-checking table of the home appliance when the self-checking function is initialized, and sends the home appliance self-checking table to the home appliance type as a logo to
  • the intelligent terminal that controls the self-test of the home appliance or other electronic device associated with the smart terminal stores the smart device or other electronic device associated with the smart terminal, and when the electronic device self-checking table is received, the smart terminal extracts the stored home appliance Checking the type of the home appliance, and sorting the extracted types of the home appliances according to a preset order to generate a self-checking table for the home appliance; the preset order of the home appliances is arranged, and the order of the home appliance self-checking table is initialized, and the order is arranged to be written in advance.
  • a logic for arranging the self-test sequence of home appliances for example, sorted according to power consumption, air conditioner>water heater>refrigerator>humidifier, etc., or sorted according to conventional frequency, refrigerator>humidifier>air conditioner>water heater;
  • the home appliance self-checking table of the home appliance is arranged in a preset order, and the preset self-checking influence parameter of the home appliance self-checking table is obtained, which is used to adjust the current home appliance self-checking table home appliance sorting order, and then adjust the home appliance self-checking order;
  • the self-test influence parameter of the home appliance is a parameter condition that affects the self-test of the home appliance set by the user in the smart terminal where the home appliance self-checking table is located or other electronic device associated with the smart terminal, and the smart terminal is capable of controlling the home appliance for self-test
  • the intelligent electronic device is operated, and can set the self-checking influence parameter of the home appliance and the self-checking table for storing the home appliance; the other electronic device associated with the smart terminal is used to set the self-checking influence parameter of the home appliance or the self-checking table for storing the home appliance;
  • the influence parameters of the self-test of the home appliance are set by the user according to various factors such as the current home appliance usage,
  • the parameter obtaining module includes: a frequency parameter obtaining unit 101, and an environment parameter obtaining unit 102:
  • the frequency parameter obtaining unit 101 is configured to adjust a self-test sequence of the home appliance self-checking table according to the frequency of use, and the self-test sequence of the high-frequency home appliance is used before the home appliance with a low frequency of use;
  • the parameter of the home appliance self-test influence parameter is the home appliance use frequency, that is, the home appliance use frequency is set to optimize the home appliance self-checking table adjustment parameter.
  • the frequency of use of the home appliance in the self-checking table of the home appliance is obtained in the cycle of the target time, and the order of the home appliance is rearranged according to the frequency of use of the home appliance according to the frequency of use of the home appliance, and the order of the home appliance is sorted according to the frequency of use. Adjust the order of home appliances in the current home appliance self-checking table.
  • the target time is a cycle, which is a self-test cycle time of the home appliance set in the home appliance self-checking table, and during this time, the home appliance use frequency of the home appliance self-checking table is calculated.
  • the front of the home appliance having a low frequency of use of the home appliance having a high frequency of use is a home appliance having a high priority for self-checking.
  • the environmental parameter obtaining unit 102 is configured to adjust the home appliance self-checking order of the preset home appliance self-checking table according to the environment, and the self-checking order of the home appliances that have a large influence on the home appliance is before the home appliance having a small influence.
  • the parameter of the home appliance self-test influence parameter is an environment, that is, the influence of the environmental change on the home appliance is used as an influence parameter for adjusting the self-test sequence of the home appliance; in this case, according to the home appliance
  • the location is divided into indoor electrical appliances and outdoor electrical appliances.
  • the influence of environmental changes on outdoor electrical appliances is greater than that of indoor electrical appliances.
  • the outdoor electrical appliances are arranged in front of indoor electrical appliances. For example, cold air in the north is bad in winter, and frost is easily generated.
  • the electrical appliance is prone to failure, and the solar water heater is arranged in front of the television, and the solar water heater is prioritized over the television for self-inspection.
  • the adjusting module 20 is configured to adjust a self-test sequence of the home appliance of the preset home appliance self-checking table according to the influence parameter;
  • the current self-checking order of the home appliance self-checking table is adjusted; in the parameter obtaining module 10, the influence parameter of the current home appliance self-test is first obtained, and the home appliance self-checking is rearranged according to the influence parameter.
  • the order of the home appliances in the table is adjusted; in the parameter obtaining module 10, the influence parameter of the current home appliance self-test is first obtained, and the home appliance self-checking is rearranged according to the influence parameter. The order of the home appliances in the table.
  • the control module 30 is configured to sequentially detect each home appliance according to the adjusted home appliance self-test sequence.
  • the self-test of the home appliance is controlled in this order by the order in which the home appliance self-checking table of the home appliance has been adjusted.
  • the self-checking of the control appliance is a self-checking function of the home appliance, and before the home appliance self-checking table is generated, the connection between the home appliance and the smart device where the self-checking table of the home appliance is located or other electronic device associated with the smart terminal where the home appliance self-checking table is located is connected. It is used to control the home appliance through the home appliance self-checking table for self-checking operation.
  • the smart terminal is connected to other electronic devices and home appliances to control the home appliance to perform self-test.
  • the link function is an existing connection function between the home appliance and the smart terminal or other electronic device, for example, a Bluetooth connection, an infrared connection, and the like. This connection method is prior art and will not be described here.
  • the self-checking frequency in the home appliance cycle of the home appliance self-checking table may be set by using the home appliance self-checking list of the home appliance self-checking table to improve the self-checking efficiency and the self-checking effect of the home appliance, for example, according to the acquired cycle.
  • the frequency of internal appliances is used to adjust the self-test frequency of the appliance, that is, to set the number of self-tests of the current home appliance self-checking table in the cycle.
  • the rice cooker is frequently used, prompting the user to set the number of self-tests in the rice cooker cycle; when setting the number of self-tests in the appliance cycle, the cycle and the number of times can be customized, for example, setting the rice cooker every month. If the number of inspections is 5, the self-test will be automatically controlled every 6 days in the month according to the number of self-tests in the set rice cooker cycle.
  • the home appliance self-checking influence parameter of the home appliance self-checking table is obtained, and the home appliance self-checking table is adjusted according to the parameter, and the home appliance is sequentially controlled according to the adjusted home appliance self-checking table. Inspection operation; improve the self-checking efficiency of home appliances, and reduce the failure of home appliances and reduce the possibility of accidents. It also improves the intelligent self-checking of home appliances. Further, it can manually adjust the self-test frequency in the appliance cycle through the influence parameters of the home appliance self-test, which improves the user-friendliness of the home appliance self-test.
  • FIG. 5 is a schematic diagram of functional modules of a second embodiment of a home appliance detecting system according to the present invention.
  • the system includes a self-test module 40.
  • the self-test module 40 is configured to obtain an influence factor of the self-test of the home appliance module
  • the influence factor of the preset self-test of the home appliance module is obtained, and the influence factor is an influence factor of the home appliance self-test module preset by the user in the home appliance self-checking table.
  • the order of the self-test modules of the home appliances is adjusted by the influence factor, thereby improving the self-checking efficiency of the home appliances.
  • the self-test sequence of the existing home appliance module is the default self-test sequence of the home appliance module for the self-checking function of the current home appliance. If there is no influence factor of the self-test of the home appliance module, the self-check operation of the home appliance module is performed according to the default self-test sequence of the home appliance module.
  • the self-test module 40 is further configured to adjust the self-test sequence of the single home appliance module according to the weather, and the self-test sequence of the home appliance module having a large weather influence is before the small-sized home appliance module is affected.
  • the self-test sequence of the home appliance modules is arranged before the self-test sequence of the home appliance module affected by the weather; for example, the current weather is summer, and when the air conditioner performs self-test, since the refrigeration function is used more, the self-test sequence may be: Compressor>Condenser>Throttle valve>Evaporator; when the current weather is winter, the air conditioner heating function is used more, and the self-test sequence is adjusted to: compressor> evaporator> throttle valve> condenser.
  • the order of the home appliance self-test module is adjusted by the weather, and the current climate can be judged by acquiring the outdoor temperature, the relative humidity, and the like.
  • the specific climate judgment method is judged according to the existing climate judgment mode of the smart terminal where the home appliance self-checking table is located or other electronic devices associated with the home appliance self-checking table.
  • the weather determination method is separately set by the user to determine the weather, and the self-test sequence of the individual home appliance modules is adjusted by the change of the weather influence factor.
  • the adjustment module 20 is further configured to adjust a self-test sequence of the single home appliance module according to the impact factor;
  • the module self-test operation is performed on the home appliance through the preset home appliance self-test module influence factor on the current order of the home appliance self-test module.
  • the order of the self-test modules of the home appliance is adjusted according to the influence factor preset by the self-test sequence of the single home appliance module, that is, the order influence factor of the home appliance self-test module is set according to the type of the home appliance, and the order of the modules corresponding to the self-test of the home appliance is adjusted by the influence factor.
  • the control module 30 is further configured to detect the single simple individual modules according to the adjusted module self-test sequence when detecting the single home appliance.
  • the home appliance module After the home appliance self-test module is adjusted by the influence factor of the home appliance self-test module, the home appliance module is self-checked according to the sequence.
  • the influence factor of a single home appliance self-test module adjusts the self-test sequence of the current home appliance module. If the current home appliance does not have a self-test module influence factor, the module self-test operation is performed on the current home appliance according to the default home appliance self-test module sequence.
  • FIG. 6 is a schematic diagram of functional modules of a third embodiment of a home appliance detecting system of the present invention.
  • the system further includes a providing module 50, a receiving module 60, and a generating module 70.
  • the home appliance self-test input page is provided to add the home appliance into the home appliance self-checking table, thereby controlling the home appliance to perform the self-checking operation.
  • the interface includes input boxes and buttons such as home appliance type and self-test list download.
  • the home appliance that needs self-test and has a self-check function generates a self-checking table for the home appliance according to the self-checking function of the self-owned home appliance; the self-checking table of the home appliance generates a self-checking table function for the home appliance; the generated home appliance
  • the self-checking table is transmitted to the smart terminal where the server or the self-checking table of the home appliance is located or other electronic device associated with the smart terminal; the home appliance that needs self-checking and has a self-checking function has a wireless connection function and can be self-checked with the home appliance
  • the smart terminal on which the meter is located or other electronic device associated with the smart terminal is wirelessly connected; the wireless association is related to the self-owned wireless connection mode of the home appliance and the smart terminal or other electronic device; for example, a Bluetooth connection, an infrared connection, etc.
  • the wireless connection mode is prior art, and will not be described here.
  • the receiving module 60 is configured to receive, by using the input interface, an input home appliance that needs self-test;
  • the home appliance information that has been input is obtained, that is, the home appliance information added to the home appliance self-checking list.
  • the new operation of the home appliance is manually filled in by the user, and the home appliance self-checking table of the newly added home appliance is obtained for storage, and the self-checking operation of the home appliance module is performed.
  • the generating module 70 is configured to generate a home appliance self-test sequence according to a preset rule and form a home appliance self-checking table.
  • the types of household appliances that have been added to the self-checking table of the home appliance are arranged according to the preset arrangement rules, and the home appliance self-checking table is formed according to the content of the home appliance arrangement, and the home appliance self-checking table is controlled by the home appliance self-checking table.
  • the preset home appliance sorting order is a default sorting order of the home appliances set before the home appliance self-checking table is generated, and the sorting order can be customized by the user, and is used to be relatively optimized when initializing the home appliance type table.
  • the obtaining of the home appliance type of the home appliance self-checking table further includes:
  • the self-checking table of the home appliance is generated by the self-checking form of the home appliance having the self-checking function and generating the home appliance self-checking table, and then uploaded to the smart terminal where the home appliance self-checking table is located or other electronic device associated with the home appliance self-checking table.
  • the self-checking table for confirming whether the home appliance in the self-checking table of the home appliance is missing the home appliance further includes:
  • the type of home appliance of the home appliance self-checking table and the type of home appliance self-checking table that has been stored in the smart terminal where the home appliance self-checking table is located or other electronic devices associated with the smart terminal, and compares the two to confirm whether there is
  • the type of home appliance is missing corresponding to the self-checking table of home appliances; in this case, in order to avoid the user's self-checking table, there is a user-added type of home appliance, but the home appliance is not submitted to the self-checking table of the home appliance to the server for storage, causing a mistake in the self-test of the home appliance later; or
  • the self-checking data of the home appliance is missing due to data errors, system abnormalities or hardware device damage, which affects the self-checking operation of the home appliance.
  • the home appliance self-checking table indicating that the home appliance is missing is indicated. It is necessary to re-acquire the self-checking list of the appliance.

Abstract

L'invention concerne un procédé de détection d'appareils électroménagers consistant : à acquérir des paramètres d'influence d'auto-détection d'appareils électroménagers dans une table d'auto-détection d'appareils électroménagers prédéfinie (S10) ; à régler la séquence d'auto-détection d'appareils électroménagers dans la table d'auto-détection d'appareils électroménagers prédéfinie en fonction des paramètres d'influence (S20) ; et à détecter successivement chaque appareil électroménager en fonction de la séquence réglée d'auto-détection d'appareils électroménagers (S30). L'invention concerne également un système de détection d'appareils électroménagers. Le procédé et le système permettent d'obtenir une efficacité et une flexibilité élevées d'auto-détection d'appareils électroménagers, la durée de vie des appareils électroménagers est prolongée et l'apparition de défaillances et d'accidents est réduite.
PCT/CN2017/113357 2017-02-24 2017-11-28 Procédé et système de détection d'appareils électroménagers WO2018153133A1 (fr)

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