CN114690817A - Control system and control method of heating appliance - Google Patents

Abstract

The invention discloses a control system and a control method of a heating appliance. The control system comprises a heating appliance and a refrigerating device, wherein the heating appliance is placed in the refrigerating device to realize refrigeration; the heating appliance includes a first communication module; the refrigeration equipment comprises a second control module, a second communication module and a prompt module, wherein the second communication module is in communication connection with the first communication module; the heating appliance and/or the refrigerating equipment is used for acquiring a refrigerating start instruction; the heating appliance and/or the refrigerating equipment are/is provided with a timing module for timing the refrigerating time; the second control module is used for controlling the prompt module to send out refrigeration ending prompt information when the refrigeration timing time reaches the preset refrigeration time t. From this, even the user does not have portable intelligent terminal (for example cell-phone), refrigeration plant also can in time remind the user after the cold-stored completion of heating appliance, avoids cold-stored effect excessive, has promoted user's use and has experienced.

Description

Control system and control method of heating appliance

Technical Field

The invention relates to the technical field of kitchen household appliances, in particular to a control system and a control method of a heating appliance.

Background

The sugar content of the rice is reduced mainly by arranging steaming grids in a heating appliance for washing the rice or separating rice soup and the like in the current blood sugar-reducing rice in the market. Although this method can dissolve starch and sugar in the rice in water, the method is limited in practice, and the blood sugar reducing effect of the rice cannot sufficiently meet the needs of users.

In order to further improve the effect of reducing blood sugar, the applicant finds that the cooked rice can be refrigerated to carry out resistant starch conversion and then be re-heated for eating. However, the heating device with the cooling function is high in manufacturing cost, and if the heating device is placed in other refrigeration equipment for refrigeration, particularly for the elderly who do not have a smart phone and have a low-sugar rice eating demand, the refrigeration progress and the refrigeration effect of the rice cannot be timely known.

Therefore, it is desirable to provide a control system and a control method of a heating appliance to at least partially solve the above problems.

Disclosure of Invention

In this summary, concepts in a simplified form are introduced that are further described in the detailed description. This summary of the invention is not intended to identify key features or essential features of the claimed subject matter, nor is it intended to be used as an aid in determining the scope of the claimed subject matter.

According to a first aspect of the present invention, there is provided a control system for a heating appliance, comprising: the heating appliance is placed in the refrigerating equipment to realize refrigeration;

the heating appliance includes a first communication module;

the refrigeration equipment comprises a second control module, a second communication module and a prompt module, wherein the second communication module is in communication connection with the first communication module;

the heating appliance and/or the refrigerating equipment is used for acquiring a refrigerating start instruction;

a timing module is arranged on the heating appliance and/or the refrigerating equipment and is used for timing the refrigerating time;

the second control module is used for controlling the prompt module to send out refrigeration ending prompt information when the refrigeration timing time reaches the preset refrigeration time t.

The control system comprises the heating appliance and the refrigerating equipment, the refrigerating equipment can carry out refrigerating treatment on the heating appliance, the heating appliance and the refrigerating equipment can be in communication connection, and after the duration of refrigerating the heating appliance in the refrigerating equipment reaches the preset refrigerating time t, the refrigerating equipment can send out prompt information through the prompt module to remind a user of finishing refrigerating. From this, even the user does not have portable intelligent terminal (for example cell-phone), refrigeration plant also can in time remind the user after the cold-stored completion of heating appliance, avoids cold-stored effect excessive, has promoted user's use and has experienced.

Optionally, the refrigeration start instruction is a trigger signal generated after a target key of the heating appliance is triggered.

Through the arrangement mode, the heating appliance can obtain the refrigeration starting instruction by triggering the target key, so that the subsequent refrigeration control process is conveniently executed.

Optionally, the refrigeration starting instruction is a trigger signal generated after the first communication module and the second communication module are connected.

Through the arrangement mode, the communication connection is established among the communication modules to enable the refrigeration equipment to obtain the refrigeration starting instruction so as to execute the subsequent refrigeration control process.

Optionally, the first communication module and the second communication module are connected by placing the heating appliance into a set position of the refrigeration equipment; or

The first communication module and the second communication module are connected through Bluetooth.

Through the arrangement mode, the first communication module and the second communication module can establish effective communication connection, so that the refrigeration process can be controlled based on data information.

Optionally, the heating appliance further includes a temperature detection module and a first control module, the temperature detection module is in signal connection with the first control module, the temperature detection module is configured to detect a temperature in the accommodating space of the heating appliance, and the refrigeration start instruction is: the first control module generates a signal according to the detection result of the temperature detection module.

Through the arrangement mode, the heating appliance can generate a refrigeration starting instruction according to the temperature change condition in the accommodating space detected by the temperature detection module, so that a subsequent refrigeration control process can be executed conveniently.

Optionally, the first control module is configured to: at the temperature detection module for a first preset time period t₀And when the detected temperature drop is greater than or equal to a first preset temperature value k, generating the refrigeration starting instruction.

Through the arrangement mode, the heating appliance can generate a refrigeration starting instruction by means of the temperature change condition in the accommodating space so as to facilitate subsequent refrigeration treatment.

Optionally, the first predetermined time period t₀T is less than or equal to 10min₀The time is selected within the range of less than or equal to 20 min.

Through the arrangement mode, the heating appliance can effectively detect the temperature change in the accommodating space within a certain time range.

Optionally, the first predetermined temperature value k is selected in the range of 5 ℃ ≦ k ≦ 15 ℃.

Through the setting mode, the first preset temperature value k is reasonably set, and whether refrigeration is started or not can be accurately judged.

Optionally, the second control module is configured to store refrigeration information, and display the refrigeration information through the prompt module.

Through the arrangement mode, the refrigerating equipment can display the refrigerating information of the heating appliance in time.

Optionally, the refrigeration information includes at least one of a refrigeration timing schedule, a temperature change within the receiving space of the heating appliance, and a low sugar conversion condition of the rice in the heating appliance.

With the arrangement, the refrigerating state of the heating appliance can be displayed by means of a plurality of parameters.

According to a second aspect of the present invention, there is provided a control method for a system comprising a heating appliance and a cold storage device, the method comprising:

the heating appliance and/or the refrigerating equipment acquires a refrigerating start instruction;

the heating appliance and/or the refrigerating equipment starts to time after obtaining the refrigerating starting instruction;

and after the refrigerating timing time reaches the preset refrigerating time t, the refrigerating equipment sends out a refrigerating end prompting message.

According to the control method provided by the invention, the control method is used for a system comprising the heating appliance and the refrigerating equipment, and after the duration of the heating appliance in the refrigerating equipment reaches the preset refrigerating time t, the refrigerating equipment can be enabled to send out a prompt message to remind a user of the end of refrigerating. From this, even the user does not have portable intelligent terminal (for example cell-phone), refrigeration plant also can in time remind the user after the cold-stored completion of heating appliance, avoids cold-stored effect excessive, has promoted user's use and has experienced.

Optionally, the refrigeration start instruction is a trigger signal generated after a target key of the heating appliance is triggered.

Through the arrangement mode, the heating appliance can obtain the refrigeration starting instruction by triggering the target key, so that the subsequent refrigeration control process is conveniently executed.

Optionally, the refrigeration start instruction is a trigger signal generated after the heating appliance is connected to the refrigeration device.

Through the arrangement mode, the communication connection is established among the communication modules to enable the refrigeration equipment to obtain the refrigeration starting instruction so as to execute the subsequent refrigeration control process.

Optionally, the heating appliance further includes a temperature detection module and a first control module, the temperature detection module is in signal connection with the first control module, the temperature detection module is configured to detect a temperature in the accommodating space of the heating appliance, and the refrigeration start instruction is: the first control module generates a signal according to the detection result of the temperature detection module.

Through the arrangement mode, the heating appliance can generate a refrigeration starting instruction according to the temperature change condition in the accommodating space detected by the temperature detection module, so that a subsequent refrigeration control process can be executed conveniently.

Optionally, the temperature detection module is used for a first predetermined time period t₀And when the detected temperature drop is greater than or equal to a first preset temperature value k, generating the refrigeration starting instruction.

Through the arrangement mode, the heating appliance can generate a refrigeration starting instruction by means of the temperature change condition in the accommodating space so as to facilitate subsequent refrigeration treatment.

Optionally, the first predetermined time period t₀T is less than or equal to 10min₀The range of less than or equal to 20min is selected.

Through the arrangement mode, the heating appliance can effectively detect the temperature change in the accommodating space within a certain time range.

Optionally, the first predetermined temperature value k is selected in the range of 5 ℃ ≦ k ≦ 15 ℃.

Through the setting mode, the first preset temperature value k is reasonably set, and whether refrigeration is started or not can be accurately judged.

Optionally, comprising:

the heating appliance starts to time the refrigeration time after acquiring the refrigeration starting instruction, and generates a refrigeration ending instruction when the refrigeration time reaches a preset refrigeration time t;

and the refrigeration equipment receives the refrigeration ending instruction to send out refrigeration ending prompt information.

Through the arrangement mode, the refrigerating time can be timed by the heating appliance, a refrigerating end instruction is generated, and then refrigerating end prompt information is sent by means of refrigerating equipment, so that more accurate control is realized, and the refrigerating process can be effectively carried out.

Optionally, comprising:

and the refrigerating equipment starts to time the refrigerating time after acquiring the refrigerating starting instruction, and sends out refrigerating ending prompt information when the refrigerating time reaches a preset refrigerating time t.

Through the setting mode, the refrigeration equipment can time the refrigeration time and send refrigeration end prompt information, so that more accurate control is realized, and the refrigeration process can be effectively carried out.

Optionally, the refrigeration device obtains the refrigeration start instruction by establishing a communication connection with the heating appliance.

Through the arrangement mode, the heating appliance can generate the refrigeration starting command, and the refrigeration starting command is sent to the refrigeration equipment through communication connection, so that more accurate control is realized, and the refrigeration process can be effectively carried out.

Optionally, comprising:

the refrigerating device transmits the refrigerating start instruction to the heating appliance after acquiring the refrigerating start instruction,

the heating appliance starts to time the refrigerating time after receiving the refrigerating starting instruction, and generates a refrigerating ending instruction when the refrigerating time reaches a preset refrigerating time t,

and the refrigeration equipment receives the refrigeration ending instruction to send out refrigeration ending prompt information.

Through the arrangement mode, the refrigerating equipment can generate a refrigerating start instruction, the heating appliance times the refrigerating time and generates a refrigerating end instruction, and the refrigerating equipment sends out refrigerating end prompt information, so that more accurate control is realized, and the refrigerating process can be effectively carried out.

Optionally, comprising:

the heating appliance transmits the refrigeration start instruction to the refrigeration device after acquiring the refrigeration start instruction,

and the refrigerating equipment starts to time the refrigerating time after receiving the refrigerating starting instruction, and sends out refrigerating ending prompt information when the refrigerating time reaches a preset refrigerating time t.

Through the arrangement mode, the heating appliance can generate a refrigeration starting instruction, the refrigeration equipment times the refrigeration time and finally sends out refrigeration ending prompt information, so that more accurate control is realized, and the refrigeration process can be effectively carried out.

Drawings

The following drawings of the invention are included to provide a further understanding of the invention. The drawings illustrate embodiments of the invention and, together with the description, serve to explain the principles of the invention.

In the drawings:

FIG. 1 is a schematic block diagram of a control system according to an embodiment of the present invention;

FIG. 2 is an enlarged view of portion A shown in FIG. 1;

FIG. 3 is a schematic diagram of a heating appliance in a control system according to one embodiment of the present invention;

FIG. 4 is a block diagram of a control system in accordance with an embodiment of the present invention;

FIG. 5 is a flow chart of a control method in accordance with an embodiment of the present invention; and

FIG. 6 is a detailed flow chart of a control method in accordance with one embodiment of the present invention; and

fig. 7 is a detailed flowchart of a control method according to still another embodiment of the present invention.

Description of reference numerals:

100: heating the appliance 110: bottom shell

111: the inner container 112: first accommodating cavity

113: built-in power supply 114: lower inner box

115: supporting seat 121: upper cover

122: second accommodation chamber 123: upper inner box

130: the support frame 140: heating module

150: the first control module 160: first communication module

170: temperature detection module 200: refrigeration appliance

210: the second control module 220: second communication module

230: prompt module

Detailed Description

In the following description, numerous specific details are set forth in order to provide a more thorough understanding of the present invention. It will be apparent, however, to one skilled in the art, that embodiments of the invention may be practiced without one or more of these specific details. In other instances, well-known features have not been described in detail so as not to obscure the embodiments of the invention.

It should be noted that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of exemplary embodiments according to the invention. As used herein, the singular is intended to include the plural unless the context clearly dictates otherwise. It will be further understood that the terms "comprises" and/or "comprising," when used in this specification, specify the presence of stated features, integers, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, and/or groups thereof.

Exemplary embodiments according to the present invention will now be described in more detail with reference to the accompanying drawings. These exemplary embodiments may, however, be embodied in many different forms and should not be construed as limited to only the embodiments set forth herein. It is to be understood that these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the concept of these exemplary embodiments to those skilled in the art. In the drawings, the same reference numerals are used to designate the same elements for the sake of clarity, and thus their description will be omitted.

The present invention provides a control system of a heating appliance capable of performing a low sugar treatment of rice through a heating appliance and a refrigerating device, and a control method usable for the control system. Hereinafter, a control system and a control method according to the present invention will be described in detail by one specific embodiment with reference to the accompanying drawings.

In accordance with a preferred embodiment of the present invention, there is provided a control system which mainly comprises a heating appliance 100 and a refrigerating apparatus 200, as shown in fig. 1 and 2, the heating appliance 100 being capable of being placed in the refrigerating apparatus 200 to perform a refrigerating process. The heating device 100 may be an electric lunch box, and the refrigerating device 200 may be a refrigerator, an ice chest, or other devices capable of refrigerating.

The heating appliance 100 has a built-in power supply 113 that can supply power to a control device, a temperature detection device, a timer device, a presentation device, and the like provided in the heating appliance 100 without being connected to an external power supply. The respective components of the heating appliance 100 in the present embodiment will be further described below with the aid of the drawings.

As shown in fig. 3, the heating appliance 100 mainly includes a bottom case 110 and an upper cover 121. The bottom case 110 of the heating device 100 is provided with an inner container 111, a heating module 140, and a built-in power supply 113, and the heating module 140 can heat the inner container 111. In addition, the inner container 111 has a first accommodating chamber 112, and a water bath medium (e.g., water) can be accommodated in the first accommodating chamber 112. The heating appliance 100 further has a lower inner case 114 capable of being placed in the first receiving chamber 112, and food can be put in the lower inner case 114. In the present embodiment, after the water and the lower inner case 114 are put into the first receiving chamber 112, the heating module 140 can heat the inner container 111, so that the rice in the lower inner case 114 can be heated in a water bath.

A plurality of supporting seats 115 can be further arranged at the bottom of the first accommodating cavity 112 in the inner container 111, and when the lower inner box 114 is placed in the first accommodating cavity 112, the supporting seats 115 can play a role of supporting the lower inner box 114 so as to prevent the lower inner box 114 from directly contacting the inner container 111 and protect the lower inner box 114.

Further, the built-in power supply 113 is preferably a battery, which can be detachably mounted in the bottom case 110.

As shown in fig. 3, the heating appliance 100 further includes a support bracket 130, and the support bracket 130 can be detachably placed on the top of the bottom case 110. After the lower inner box 114 is placed in the first accommodating cavity 112 of the inner container 111, the supporting frame 130 is placed on the bottom shell 110 to protect the food in the lower inner box 114 and keep the temperature.

Preferably, in order to place more food, the heating appliance 100 of the present embodiment further includes an upper inner case 123, and the upper cover 121 forms a second receiving cavity 122 capable of receiving the upper inner case 123. The supporting frame 130 is provided with a plurality of through holes, and when the heating module 140 heats the inner container 111, high-temperature steam formed by water in the first accommodating cavity 112 can enter the second accommodating cavity 122 of the upper cover 121 through the through holes on the supporting frame 130.

Thus, when the upper cover 121 is mounted to the bottom case 110, the first receiving cavity 112 of the inner container 111 and the second receiving cavity 122 of the upper cover 121 together form a receiving space of the heating appliance 100 in which food to be cooked can be placed by means of the upper inner case 123 and the lower inner case 114, and the heating module 140 heats the inner container 111 so that the food to be cooked can be heated.

In order to limit the movement of the upper inner box 123, the upper surface of the supporting frame 130 is further provided with a limiting seat protruding upwards and surrounding the upper inner box 123, and after the upper inner box 123 is placed on the supporting frame 130, the limiting seat can prevent the upper inner box 123 from moving, so that the food in the upper inner box 123 is prevented from leaking. In addition, an inner lining covering the upper inner box 123 may be further disposed in the upper cover 121, so as to protect the food in the upper inner box 123 and to perform a heat preservation function.

After the lower inner box 114, the supporting frame 130 and the upper inner box 123 are sequentially placed on the bottom shell 110, the upper inner box 123 and the bottom shell 110 can be fixedly mounted, so that the upper cover 121 is prevented from falling off from the bottom shell 110 in the moving process of the heating appliance 100, and the heating appliance 100 can be conveniently carried. For example, the upper inner case 123 and the bottom case 110 may be fixed together by means of a snap connection.

Preferably, a display lamp may be further disposed on the control board of the heating appliance 100, and the display lamp may be fully turned on when the lower inner box 114 is not placed in the heating appliance 100, so as to remind the user to place the lower inner box 114 in the heating appliance 100. Wherein the control board of the heating appliance 100 may be powered by its built-in power supply 113.

In the present embodiment, the rice in the heating appliance 100 may be subjected to the sugar-reducing treatment by means of refrigeration by means of the heating appliance 100 and the refrigeration apparatus 200. Specifically, after cooked rice is generally put in the heating appliance 100, if a user desires low-sugar rice, a refrigerating button is pressed and the heating appliance 100 is put in the refrigerating apparatus 200. After the refrigeration is finished, the heating device 100 is taken out of the refrigeration equipment 200, and the heating device 100 re-heats the cooked rice in the water bath heating mode under the normal temperature environment, so that the low sugar treatment of the cooked rice in the heating device 100 is realized.

It will be understood that the heating appliance 100 may be placed in particular in a refrigerating compartment of the refrigerating device 200, the temperature of which is preferably set below 5 ℃, for example the temperature of the refrigerating compartment may be set below 3 ℃.

In addition, in the present embodiment, a control method is also provided, which enables the heating appliance 100 to achieve better control in the refrigeration apparatus 200, as shown in fig. 5.

Specifically, as shown in fig. 5, the control method includes:

the heating appliance and/or the refrigerating equipment acquires a refrigerating start instruction;

the heating appliance and/or the refrigerating equipment starts timing after receiving a refrigerating start instruction;

and after the refrigerating timing time reaches the preset refrigerating time t, the refrigerating equipment sends out refrigerating end prompt information.

For example, in the present embodiment, as shown in fig. 4, the heating appliance 100 may include a first communication module 160, the refrigeration appliance 200 may include a second control module 210, a second communication module 220 and a prompting module 230, and the second communication module 220 and the first communication module 160 are communicatively connected. As one implementation, the first communication module 160 and the second communication module 220 may be configured as wireless transceivers, and wireless connection may be achieved by transceiving wireless signals therebetween.

The refrigeration start instruction may be generated by at least one of the heating appliance 100 and the refrigeration apparatus 200.

For example, in the present embodiment, the refrigeration start instruction may be a trigger signal generated after the target key of the heating appliance 100 is triggered.

Specifically, the heating appliance 100 may be provided with a control button, the control button corresponds to a refrigeration start instruction of the heating appliance 100, and the control button is electrically connected to the first control module 150, and when the user presses the control button, a corresponding control signal may be triggered and transmitted to the first control module 150, so that the heating appliance 100 receives the refrigeration start instruction.

Further, as shown in fig. 4, the heating appliance 100 may be further provided with a temperature detection module 170 and a first control module 150, the temperature detection module 170 being capable of detecting the temperature in the receiving space of the heating appliance 100, and the temperature detection module 170 being electrically connected to the first control module 150 being capable of transmitting the detected temperature information to the first control module 150. Thus, the heating appliance 100 can generate a refrigeration start command based on the temperature information detected by the temperature detection module 170.

Specifically, when the heating appliance 100 is placed in the refrigeration device 200, the second communication module of the refrigeration device 200 receives the wireless signal of the first communication module of the heating appliance 100 to determine that the heating appliance 100 is in the refrigeration environment. In the heating appliance 100, when the temperature detection module 170 detects that the temperature is within the first predetermined time period t₀When the temperature drop amount in the refrigerator is greater than or equal to a first preset temperature value k, a refrigeration starting instruction is generated.

Illustratively, after the heating appliance 100 in which the boiled rice is placed in the refrigerator 200, the temperature of the rice in the heating appliance 100 may rapidly decrease, the temperature detection module 170 may detect information of a temperature change in the accommodating space of the heating appliance 100 in real time and may transmit the information of the temperature change to the first control module 150, and the first control module 150 may generate a refrigeration start instruction when the temperature decrease amount is greater than or equal to a first predetermined temperature value k.

Preferably, the first predetermined period of time t₀T is less than or equal to 10min₀The range of less than or equal to 20min is selected. The first preset temperature value k is selected in the range of between 5 and 15 ℃.

In addition to generating the refrigeration start command by detecting the temperature change of the heating appliance 100 itself, in another embodiment, the refrigeration start command may be generated by a trigger signal generated after the first communication module and the second communication module are connected.

Specifically, the same steps as in the above-described embodiment will not be repeated, and in this embodiment, after the heating appliance 100 is placed in the refrigeration apparatus 200, the first communication module 160 and the second communication module 220 establish a signal connection, for example, the second communication module 220 of the refrigeration apparatus 200 may transmit a signal to the first communication module 160 of the heating appliance 100 and determine that the heating appliance 100 has been placed in the refrigeration apparatus 200, and at this time, the refrigeration apparatus 200 may also generate a refrigeration start instruction and may transmit the refrigeration start instruction to the heating appliance 100. As one implementation, the first communication module 160 and the second communication module 220 can be connected by placing the heating appliance 100 into a set position of the refrigeration device 200. In addition, the first communication module 160 and the second communication module 220 may be connected via bluetooth.

When the heating appliance 100 receives the refrigeration start instruction, the refrigeration start timing of the heating appliance 100 may be counted, wherein the refrigeration timing may also be generated by at least one of the heating appliance 100 and the refrigeration apparatus 200.

For example, in the present embodiment, the heating appliance 100 may be provided with a timing module, and the timing module may count the start of refrigeration after the heating appliance 100 receives the refrigeration start command. In yet another embodiment, a timing module may be provided on the refrigerating apparatus 200, and the timing module on the refrigerating apparatus 200 may time the start of refrigeration after the refrigerating apparatus 200 acquires a refrigeration start instruction and transmits it to the heating appliance 100.

In order to enable the user to obtain the refrigeration information of the heating appliance 100 in real time during the refrigeration process of the heating appliance 100, in the present embodiment, the first control module 150 can also transmit the refrigeration information related to the refrigeration process of the heating appliance 100 to the second control module 210 through the communication connection between the first communication module 160 and the second communication module 220, and the second control module 210 can store the refrigeration information and can display the refrigeration information through the prompt module 230.

Illustratively, the refrigeration information may include, but is not limited to, a refrigeration schedule, a temperature change within the receiving space of the heating appliance 100, and a low sugar conversion condition of the rice in the heating appliance 100.

Thus, during cold storage, resistant starch in the rice of the heating appliance 100 is rapidly transformed due to the rapid decrease in temperature.

When the timed time of the refrigeration reaches the predetermined refrigeration time t, the user needs to be reminded to finish the refrigeration of the heating appliance 100, and at this time, the refrigeration device 200 may send a refrigeration finish prompt message through the prompt module 230. Here, the refrigeration end instruction for ending the refrigeration may be generated by at least one of the heating appliance 100 and the refrigeration apparatus 200 as well.

Specifically, the first control module 150 can generate the refrigeration end instruction after the timing duration of the refrigeration of the timing module of the heating appliance 100 reaches the predetermined refrigeration duration t or after receiving a signal from the refrigeration apparatus 200 indicating that the timing duration of the refrigeration reaches the predetermined refrigeration duration t, and can transmit the refrigeration end instruction to the second control module 210 through the communication connection between the first communication module 160 and the second communication module 220. After the second communication module 220 receives the refrigeration ending instruction, the prompt module 230 may be controlled to send a refrigeration ending prompt message. As an implementation, the prompting module 230 may be a display screen or a speaker. After the second communication module 220 receives the refrigeration ending instruction, the user may be reminded of the end of refrigeration by displaying an animation on the display interface or making a sound.

In yet another embodiment, the second control module 210 can generate the refrigeration ending instruction after the time duration of the refrigeration of the timing module of the refrigeration device 200 reaches the predetermined refrigeration duration t or a signal indicating that the time duration of the refrigeration reaches the predetermined refrigeration duration t is sent by the heating appliance 100, and can control the prompting module 230 to send a refrigeration ending prompting message to remind the user of the end of the refrigeration.

After knowing that the refrigerating time period of the heating appliance 100 meets the requirement, the user can timely take the heating appliance 100 out of the refrigerating apparatus 200 so as to reheat the rice in the heating appliance 100 for eating in the normal temperature environment.

As one implementation manner, the heating appliance 100 may be provided with a reheating button, and the user presses the reheating button, the reheating button sends a heating signal to the first control module 150, the first control module 150 controls the heating module 140 to start heating the inner container 111, and the rice in the lower inner box 114 and the upper inner box 123 in the accommodating space is heated by the high-temperature steam generated after the water in the inner container 111 is heated, and the reheating of the rice is completed after the rice is heated for a predetermined time.

As described above, the refrigeration start command may be generated by at least one of the heating device and the refrigeration device, the timing of the refrigeration may be generated by at least one of the heating device and the refrigeration device, and the refrigeration end command may be generated by at least one of the heating device and the refrigeration device.

Therefore, in other embodiments, according to specific use situations and user requirements, a plurality of different control methods may be adopted, for example, in the first embodiment, the heating appliance starts to time the refrigeration duration after acquiring the refrigeration start instruction, and generates the refrigeration end instruction when the refrigeration time duration reaches the preset refrigeration duration t; the refrigeration equipment receives the refrigeration end instruction to send out refrigeration end prompt information. In the second embodiment, the refrigeration device starts to time the refrigeration time after acquiring the refrigeration start instruction, and sends out the refrigeration end prompt message when the refrigeration time reaches the preset refrigeration time t. In the third embodiment, the refrigeration apparatus transmits a refrigeration start instruction to the heating appliance after acquiring the refrigeration start instruction; the heating appliance starts to time the refrigeration time after receiving the refrigeration starting instruction, and generates a refrigeration ending instruction when the refrigeration time reaches a preset refrigeration time t; the refrigeration equipment receives a refrigeration end instruction to send out refrigeration end prompt information. In the fourth embodiment, after acquiring the refrigeration start instruction, the heating appliance transmits the refrigeration start instruction to the refrigeration device, the refrigeration device starts to time the refrigeration time after receiving the refrigeration start instruction, and sends out the refrigeration end prompt message when the refrigeration time reaches the preset refrigeration time t.

In one specific embodiment, as shown in fig. 6, a user may put the heating appliance into the refrigeration device, after the heating appliance is placed at a predetermined position, the first communication module of the heating appliance sends a wireless signal to the second communication module of the refrigeration device, and after the refrigeration device receives the wireless signal, the refrigeration device determines that the heating appliance enters the refrigeration environment. And then, the temperature detection module of the heating appliance detects the information of the temperature change in the accommodating space of the heating appliance and can send the information of the temperature change to the first control module, when the temperature drop amount is detected to be greater than or equal to a first preset temperature value k, the first control module can generate a refrigeration starting instruction and simultaneously starts to carry out refrigeration timing, and in the process, the heating appliance sends the information related to refrigeration to the refrigeration equipment so that the prompt module of the refrigeration equipment displays the related refrigeration information. When the timing time of the refrigeration of the heating appliance reaches the preset refrigeration time t, the heating appliance generates a refrigeration ending instruction and sends the instruction to the refrigeration equipment, a prompting module of the refrigeration equipment immediately sends out refrigeration ending prompting information, and a user can take the heating appliance out of the refrigeration equipment after receiving the information.

In yet another embodiment, as shown in fig. 7, the user may first put the heating appliance into the refrigeration device, and after the heating appliance is placed at a predetermined position, the first communication module of the heating appliance establishes a wireless connection to the second communication module of the refrigeration device, and the refrigeration device determines that the heating appliance enters the refrigeration environment, and the second communication module of the refrigeration device then sends a refrigeration start instruction to the first communication module of the heating appliance. And then, starting refrigeration timing by the heating appliance, and in the process, sending information related to refrigeration to the refrigeration equipment by the heating appliance so that a prompting module of the refrigeration equipment displays the related refrigeration information. When the timing time of the refrigeration of the heating appliance reaches the preset refrigeration time t, the heating appliance generates a refrigeration ending instruction and sends the instruction to the refrigeration equipment, a prompting module of the refrigeration equipment immediately sends out refrigeration ending prompting information, and a user can take the heating appliance out of the refrigeration equipment after receiving the information.

The above embodiments are merely exemplary, and in other embodiments, other control methods may be adopted.

The flows and steps described in all the preferred embodiments described above are only examples. Unless an adverse effect occurs, various processing operations may be performed in a different order from the order of the above-described flow. The above-mentioned steps of the flow can be added, combined or deleted according to the actual requirement.

Further, the commands, command numbers, and data items described in all the preferred embodiments described above are only examples, and thus the commands, command numbers, and data items may be set in any manner as long as the same functions are achieved. The units of the terminal of the preferred embodiments may also be integrated, further divided or subtracted according to actual needs.

The present invention has been illustrated by the above embodiments, but it should be understood that the above embodiments are for illustrative and descriptive purposes only and are not intended to limit the invention to the scope of the described embodiments. Furthermore, it will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and that many variations and modifications may be made in accordance with the teachings of the present invention, which variations and modifications are within the scope of the present invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (22)

1. A control system for a heating appliance, comprising: the heating appliance is placed in the refrigerating equipment to realize refrigeration;

the heating appliance includes a first communication module;

the refrigeration equipment comprises a second control module, a second communication module and a prompt module, wherein the second communication module is in communication connection with the first communication module;

the heating appliance and/or the refrigerating equipment is used for acquiring a refrigerating start instruction;

a timing module is arranged on the heating appliance and/or the refrigerating equipment and is used for timing the refrigerating time;

the second control module is used for controlling the prompt module to send out refrigeration ending prompt information when the refrigeration timing time reaches the preset refrigeration time t.

2. The control system of a heating appliance according to claim 1, wherein the refrigeration start command is a trigger signal generated after a target key of the heating appliance is triggered.

3. The control system of a heating appliance according to claim 1, wherein the refrigeration start command is a trigger signal generated after the first communication module and the second communication module are connected.

4. The control system of the heating appliance according to claim 1, wherein the first communication module and the second communication module are connected by placing the heating appliance into a set position of the refrigeration device; or

The first communication module and the second communication module are connected through Bluetooth.

5. The control system of the heating appliance according to claim 1, wherein the heating appliance further comprises a temperature detection module and a first control module, the temperature detection module is in signal connection with the first control module, the temperature detection module is used for detecting the temperature in the accommodating space of the heating appliance, and the refrigeration start command is: the first control module generates a signal according to the detection result of the temperature detection module.

6. The control system of a heating appliance according to claim 5, wherein the first control module is configured to: at the temperature detection module for a first preset time period t₀The detected temperature drop is greater than or equal to a first predetermined temperatureAt a value of k, the refrigeration start command is generated.

7. The control system of a heating appliance according to claim 6, wherein the first predetermined time period t₀T is less than or equal to 10min₀The range of less than or equal to 20min is selected.

8. A control system for a heating appliance according to claim 6, wherein the first predetermined temperature value k is selected in the range 5 ℃ ≦ k ≦ 15 ℃.

9. The control system of a heating appliance according to claim 1, wherein the second control module is configured to store refrigeration information and to display the refrigeration information via the prompting module.

10. The control system of a heating appliance according to claim 9, wherein the refrigeration information includes at least one of a refrigeration timing schedule, a temperature change in the receiving space of the heating appliance, and a low sugar conversion condition of rice in the heating appliance.

11. A control method for a system comprising a heating appliance and a refrigeration appliance, the method comprising:

the heating appliance and/or the refrigerating equipment acquires a refrigerating start instruction;

the heating appliance and/or the refrigerating equipment starts to time after obtaining the refrigerating starting instruction;

and after the refrigerating timing time reaches the preset refrigerating time t, the refrigerating equipment sends out refrigerating end prompt information.

12. The control method according to claim 11, wherein the refrigeration start command is a trigger signal generated after a target key of the heating appliance is triggered.

13. The control method according to claim 11, wherein the refrigeration start instruction is a trigger signal generated after the connection between the heating appliance and the refrigeration apparatus is established.

14. The control method according to claim 11, wherein the heating appliance further comprises a temperature detection module and a first control module, the temperature detection module is in signal connection with the first control module, the temperature detection module is used for detecting the temperature in the accommodating space of the heating appliance, and the refrigeration start command is: the first control module generates a signal according to the detection result of the temperature detection module.

15. The control method of claim 14, wherein the temperature detection module is configured to detect the temperature of the exhaust gas during a first predetermined time period t₀And when the detected temperature drop is greater than or equal to a first preset temperature value k, generating the refrigeration starting instruction.

16. Control method according to claim 15, characterized in that said first predetermined period t₀T is less than or equal to 10min₀The range of less than or equal to 20min is selected.

17. The control method of claim 15, wherein the first predetermined temperature value k is selected in the range of 5 ℃ ≦ k ≦ 15 ℃.

18. The control method according to claim 11, characterized by comprising:

the heating appliance starts to time the refrigeration time after acquiring the refrigeration starting instruction, and generates a refrigeration ending instruction when the refrigeration time reaches a preset refrigeration time t;

and the refrigeration equipment receives the refrigeration ending instruction to send out refrigeration ending prompt information.

19. The control method according to claim 11, characterized by comprising:

and the refrigerating equipment starts to time the refrigerating time after acquiring the refrigerating starting instruction, and sends out refrigerating ending prompt information when the refrigerating time reaches a preset refrigerating time t.

20. The control method according to claim 19, wherein the refrigeration apparatus acquires the refrigeration start instruction by establishing a communication connection with the heating appliance.

21. The control method according to claim 11, characterized by comprising:

the refrigerating device transmits the refrigerating start instruction to the heating appliance after acquiring the refrigerating start instruction,

the heating appliance starts to time the refrigerating time after receiving the refrigerating starting instruction, and generates a refrigerating ending instruction when the refrigerating time reaches a preset refrigerating time t,

and the refrigeration equipment receives the refrigeration ending instruction to send out refrigeration ending prompt information.

22. The control method according to claim 11, characterized by comprising:

the heating appliance transmits the refrigeration start instruction to the refrigeration device after acquiring the refrigeration start instruction,

and the refrigerating equipment starts to time the refrigerating time length after receiving the refrigerating starting instruction, and sends out refrigerating ending prompt information when the refrigerating time length reaches a preset refrigerating time length t.

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