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CN-118963442-B - Intelligent control method and device of ice making module and ice making module

CN118963442BCN 118963442 BCN118963442 BCN 118963442BCN-118963442-B

Abstract

The invention relates to the field of intelligent control of equipment, and discloses an intelligent control method and device of an ice making module and the ice making module, wherein by implementing the intelligent control method and device, the current running condition/state of the ice making module can be detected before a module control instruction is detected and responded, and after the preset running condition of the module is confirmed to be met, a first control operation is executed on the ice making module, so that the ice making module can respond to the module control instruction in an adaptive target module state, and the response accuracy and the instruction execution efficiency of the module control instruction are improved; further, after the ice making module is adjusted to the target module state or the pre-operation condition of the module is not met, the second control operation can be executed on the ice making module according to the instruction details and the corresponding detail types, and the water sources corresponding to ice making, cold water making and warm water making in the module functions corresponding to the executed second control operation are heated hot water, so that the safety of the ice making module for outputting drinking water/ice cubes is improved.

Inventors

  • YANG XIANGRONG

Assignees

  • 中山市美扬电器有限公司

Dates

Publication Date
20260508
Application Date
20240726

Claims (10)

  1. 1. An intelligent control method of an ice making module is characterized in that the method is applied to the ice making module, the ice making module comprises a first water temperature control component and a second water temperature control component, and the method comprises the following steps: When a module control instruction aiming at the ice making module is detected, analyzing the module control instruction to obtain an instruction detail corresponding to the module control instruction and a detail type corresponding to the instruction detail, wherein the detail type comprises any one of an ice making type, a refrigerating water type, a heating water type and a heating water type; Judging whether the ice making module meets a module pre-operation condition according to the instruction details and the detail types, and executing a first control operation on the ice making module to obtain a first control result aiming at the ice making module when judging that the ice making module meets the module pre-operation condition; And when the ice making module does not meet the module pre-operation condition, or after the first control result is determined to indicate that the ice making module is adjusted to the target module state, executing a second control operation on the ice making module according to the instruction details and the detail types to obtain a second control result aiming at the instruction module, wherein the second control operation is used for executing a module function corresponding to the detail types, and besides the module function corresponding to the water heating type, the water sources used by the module functions corresponding to the detail types are water sources heated by the first water temperature control component.
  2. 2. The intelligent control method of the ice making module according to claim 1, wherein the first water temperature control part comprises a water boiling part, the second water temperature control part comprises a refrigerating part, a synchronous motor, a first water pumping part, a second water pumping part and a third water pumping part, the refrigerating part comprises a compressor and an ice box, and the ice box is provided with an ice container; the first control operation is performed on the ice making module to obtain a first control result for the ice making module, including: Heating control is carried out on the water heating component so as to heat the water stored in the water heating component to a preset water heating temperature, and meanwhile, the compressor is switched to a refrigeration starting state, and the synchronous motor is controlled to run to a first limit within a first preset duration; controlling a plurality of pre-operation components to execute pre-operation according to the module pre-operation condition to obtain a first control result aiming at the ice making module, wherein all the pre-operation components comprise the first water pumping component and the ice box; The method for controlling the plurality of pre-operation components to execute the pre-operation according to the module pre-operation condition to obtain a first control result aiming at the ice making module comprises the following steps: Controlling the first water pumping component to enter the ice box, and executing water delivery control within a second preset time period to deliver the water storage to the ice box until the fact that the real-time water storage in the ice box reaches a preset water storage condition is determined, closing the first water pumping component, and controlling the ice box to execute ice making processing to obtain an ice making processing result aiming at the ice box, wherein the ice making processing result comprises the ice box refrigerating temperature of the ice box; And determining that the real-time water storage reaches the preset water storage condition and the ice box refrigerating temperature is a first control result aiming at the ice making module.
  3. 3. The intelligent control method of an ice making module according to claim 2, wherein the real-time water storage in the ice bin reaching a preset water storage condition specifically comprises: the first water storage amount of the real-time water storage in the ice box reaches a preset first water level value; The adjusting of the ice making module to the target module state specifically comprises: when the detail type is the heating water type, the water storage in the water heating component is heated to the heating water temperature, and the hot water storage of the water storage in the water heating component reaches a preset second water level value; And when the detail type is the ice making type, the refrigerating water type or the warm water making type, the ice box refrigerating temperature reaches a preset refrigerating temperature.
  4. 4. A method of intelligent control of an ice making module according to claim 2 or 3, wherein prior to said performing a second control operation on said ice making module in accordance with said instruction details and said detail types, said method further comprises: when the detail type is the ice making type, the refrigerating water type or the warm water making type, collecting real-time water storage information corresponding to the real-time water storage in the ice container, wherein the real-time water storage information at least comprises target water storage capacity and target water storage temperature; Judging whether the real-time water storage information indicates that a direct response condition corresponding to the instruction detail is met; When the real-time water storage information is judged to indicate that the direct response condition corresponding to the instruction detail is not met, performing module adjustment operation on the ice making module according to the direct response condition until the real-time water storage information is determined to be adjusted to indicate that the direct response condition is met; When the real-time water storage information is judged to indicate that the direct response condition corresponding to the instruction detail is met, triggering and executing the operation corresponding to the second control operation on the ice making module according to the instruction detail and the detail type.
  5. 5. The intelligent control method of an ice making module according to claim 4, wherein the real-time water storage information failing to satisfy the direct response condition is specifically that the target water storage amount is lower than a preset third water level value and the target water storage temperature is higher than the ice chest refrigeration temperature: The performing a module adjustment operation on the ice making module according to the direct response condition includes: And controlling all the pre-running components to execute the pre-running operation according to the direct response condition, and simultaneously controlling the second water pumping component and the third water pumping component to execute the water pumping and conveying operation within a third preset time length so as to start the circulating refrigeration function of the refrigeration component for the real-time water storage.
  6. 6. The intelligent control method of an ice making module according to claim 4, wherein the executing a second control operation on the ice making module according to the instruction details and the detail types to obtain a second control result for the instruction module includes: When the detail type is the refrigeration water type, controlling the compressor to stop running according to the instruction detail, and controlling the synchronous motor to stop running after determining that the synchronous motor runs to a preset second limit; then, executing a preset overturning control program on the synchronous motor, and outputting drinking cold water according to the cold water output quantity corresponding to the instruction details as a second control result aiming at the instruction module; When the detail type is the ice making type, controlling the ice container to execute ice making operation according to the ice making time length corresponding to the instruction detail, and controlling the second water pumping component to execute water pumping control after determining that ice making of the ice container is completed so as to pump residual water after ice making of the ice container to a corresponding ice water storage area; meanwhile, after the synchronous motor is detected to run to the second limit, controlling the synchronous motor to stop running, controlling an ice removing electromagnetic valve to execute ice removing operation according to a fourth preset duration, and controlling the compressor to stop running after ice removing is determined to be finished; detecting whether the ice storage volume in the ice box reaches a preset ice storage volume or not, executing the overturning control program on the synchronous motor when the ice storage volume in the ice box reaches the preset ice storage volume, and outputting ice according to the ice output volume corresponding to the instruction detail as a second control result aiming at the instruction module; wherein, the executing a preset overturning control program on the synchronous motor comprises the following steps: when the synchronous motor is detected to contact the first limit, controlling the synchronous motor to stop running for a third preset time period, and controlling the synchronous motor to start running and overturn.
  7. 7. The intelligent control method of an ice making module according to claim 6, wherein the executing a second control operation on the ice making module according to the instruction details and the detail types, to obtain a second control result for the instruction module, further comprises: When the detail type is the warm water making type, controlling the third water pumping component to stop running, controlling the second water pumping component to run for the second preset time period and controlling the compressor to stop running; According to the warm water intake and warm water drinking temperature corresponding to the instruction details, combining the ice container temperature and the water boiling temperature corresponding to the ice container, controlling a hot water pumping component corresponding to the hot water component and a cold water pumping component corresponding to the ice making component to execute water outlet control as a second control result aiming at the instruction module, wherein the water outlet control comprises hot water outlet control aiming at the hot water pumping component and/or cold water outlet control aiming at the cold water pumping component; when the detail type is the heating water type, controlling the hot water pumping component to execute hot water output according to the hot water intake corresponding to the control detail, and taking the hot water pumping component as a second control result aiming at the instruction module.
  8. 8. An intelligent control device of ice making module, its characterized in that, the device is applied to ice making module, ice making module includes first water temperature control part, second water temperature control part, the device includes: The instruction analysis module is used for analyzing the module control instruction when detecting the module control instruction aiming at the ice making module to obtain an instruction detail corresponding to the module control instruction and a detail type corresponding to the instruction detail, wherein the detail type comprises any one of an ice making type, a refrigerating water type, a warm water making type and a heating water type; the judging module is used for judging whether the ice making module meets the module pre-operation condition according to the instruction details and the detail types; The first control module is used for executing first control operation on the ice making module to obtain a first control result aiming at the ice making module when the judging module judges that the ice making module meets the module pre-running condition, wherein the first control operation comprises component parameter adjustment operation aiming at the first water temperature control component and the second water temperature control component, and the first control operation is used for adjusting the ice making module to a target module state for executing the instruction detail; And the second control module is used for executing a module function corresponding to the detail type according to the instruction detail and the detail type to obtain a second control result aiming at the instruction module when the judging module judges that the ice making module does not meet the module pre-operation condition or after determining that the first control result indicates that the ice making module is adjusted to the target module state, and the water source used by the module function corresponding to the detail type is a water source heated by the first water temperature control part except the module function corresponding to the detail type.
  9. 9. An ice making module, characterized in that the ice making module comprises an apparatus body, the ice making module being adapted to perform the intelligent control method of the ice making module according to any one of claims 1-7.
  10. 10. A computer storage medium storing computer instructions which, when invoked, are adapted to perform the intelligent control method of an ice making machine according to any one of claims 1-7.

Description

Intelligent control method and device of ice making module and ice making module Technical Field The invention relates to the technical field of intelligent control of equipment, in particular to an intelligent control method and device of an ice making module and the ice making module. Background In the existing drinking water equipment field, ice making equipment such as ice making machines are used as household appliances indispensable in daily life, and have a main function of providing convenient drinking water services including warm water, cold water, ice cubes and the like. However, with the increasing demand of people for healthy drinking water, a significant problem of the existing ice making devices in providing cold water and ice cubes is gradually highlighted, and the cold water and ice cubes provided by users are supplied by the ice making devices on the market, and the water sources adopted by the ice making devices are not heated and disinfected, so that a certain hidden danger exists in safety. In particular, conventional ice making devices mostly employ a refrigeration system to directly cool water in a water tank to generate cold water and further generate ice cubes through an ice making module. In this process, although effective in reducing the water temperature and making ice cubes, the step of heat sterilizing the water supply is not involved. Thus, if the raw water (i.e., the water source before entering the ice-making device) itself contains bacteria, viruses or other microorganisms, these harmful substances will remain during the cooling process and may enter the user's drinking system with the supply of cold water or ice cubes, thus posing a potential threat to the user's health. In addition, even in the case of relatively good water quality of the water source, the components such as the inner pipeline and the water tank of the ice making equipment may be infected with microorganisms such as bacteria due to improper cleaning or insufficient maintenance during long-term use. These microorganisms may also contaminate the chilled water and ice, further reducing the safety of the drinking water. Disclosure of Invention The invention provides an intelligent control method and device of an ice making module and the ice making module, which can improve the safety of drinking water of users and improve the making efficiency of making ice cubes, cold water or warm water based on hot water. In order to solve the technical problem, a first aspect of the present invention discloses an intelligent control method of an ice making module, the method is applied to the ice making module, the ice making module includes a first water temperature control component and a second water temperature control component, the method includes: When a module control instruction aiming at the ice making module is detected, analyzing the module control instruction to obtain an instruction detail corresponding to the module control instruction and a detail type corresponding to the instruction detail, wherein the detail type comprises any one of an ice making type, a refrigerating water type, a heating water type and a heating water type; Judging whether the ice making module meets a module pre-operation condition according to the instruction details and the detail types, and executing a first control operation on the ice making module to obtain a first control result aiming at the ice making module when judging that the ice making module meets the module pre-operation condition; And when the ice making module does not meet the module pre-operation condition, or after the first control result is determined to indicate that the ice making module is adjusted to the target module state, executing a second control operation on the ice making module according to the instruction details and the detail types to obtain a second control result aiming at the instruction module, wherein the second control operation is used for executing a module function corresponding to the detail types, and besides the module function corresponding to the water heating type, the water sources used by the module functions corresponding to the detail types are water sources heated by the first water temperature control component. In a first aspect of the invention, the first water temperature control component comprises a water heating component, the second water temperature control component comprises a refrigeration component, a synchronous motor, a first water pumping component, a second water pumping component and a third water pumping component, the refrigeration component comprises a compressor and an ice box, and the ice box is provided with an ice container; the first control operation is performed on the ice making module to obtain a first control result for the ice making module, including: Heating control is carried out on the water heating component so as to heat the water stored in the water heating component to a preset water