KR20200021755A - Combination eletric cooker and controlling method thereof - Google Patents

Abstract

The present invention relates to a combination type electric cooking device. According to an embodiment of the present invention, the combination type electric cooking device comprises: a main cooking module including an electronic component and a main heating source for heating an object to be cooked by power supplied from the outside; a sub-cooking module selectively combined with or separated from the main cooking module and including a sub-heating source for heating the object to be cooked by the power supplied from the main cooking module; an input module provided in the main cooking module and receiving a signal for operating the main heating source and the sub-heating source; a sensing module for sensing combination or separation of the main cooking module and the sub-cooking module; a cooling module for cooling the electronic component, the main heating source, and the sub-heating source; and a control module for controlling operations of the main heating source and the sub-heating source for heating the object to be cooked according to the signal inputted by the input module, and controlling an operation of the cooling module for cooling the electronic part, the main heating source, and the sub-heating source.

Description

Combination type electric cooker and its control method {COMBINATION ELETRIC COOKER AND CONTROLLING METHOD THEREOF}

The present invention relates to a combination type electric cooker and a control method thereof.

Recently, the market for small cookers has increased due to the increase in the number of single-person households. In the case of a small cooking appliance, one heating source is generally provided for heating a cooking object. However, such a small cooking apparatus has a disadvantage in that it is impossible to simultaneously cook a plurality of cooking objects in some cases.

On the other hand, the electric cooker means a home appliance that heats a cooking object by generating heat using electricity. In the case of such an electric cooking apparatus, various electric parts are required for the application of electric power, control of a heating source, etc., and heat generation during operation of the electric parts is feared. Accordingly, the need for cooling of an electric cooker is higher than that of a gas cooker or the like that generates heat by combustion of gas.

Republic of Korea Patent Publication No. 2004-0014119 (name: heating cooker) Republic of Korea Patent No.1851889 (Name: Induction Heating Cooker)

SUMMARY OF THE INVENTION The present invention has been made to solve the problems caused by the prior art as described above, and an object of the present invention is to provide a combination type electric cooker configured to be more efficiently used and a control method thereof.

Another object of the present invention is to provide a combination type electric cooker and a control method thereof, which are configured to enable simpler and more efficient cooling.

One aspect of the combination type electric cooking apparatus according to an embodiment of the present invention for achieving the above object, the main cooking module is provided with electric parts and main heating source for heating the object to be cooked by the power supplied from the outside; A sub cooking module selectively coupled or separated from the main cooking module, the sub cooking source having a sub heating source for heating a cooking object by the power received from the main cooking module; An input module provided in the main cooking module and receiving a signal for operating the main heating source and the sub heating source; A sensing module configured to detect coupling or separation of the main cooking module and the sub cooking module; A cooling module for cooling the electric component, the main heating source and the sub heating source; And controlling the operations of the main heating source and the sub heating source for heating the object to be cooked according to the input signal input by the input module, and operating the cooling module for cooling the electric component, the main heating source and the sub heating source. A control module for controlling the; It includes.

In an aspect of an embodiment of the present invention, the control module, regardless of the combination or separation of the main cooking module and the sub-cooking module, controls the operation of the main heating source according to the signal input by the input module, Only when the sensing module detects that the main cooking module and the sub cooking module are combined, the input module controls the operation of the sub heating source according to the input signal.

In one aspect of the embodiment of the present invention, the cooling module is installed inside the main cooking module and sucks air through a main inlet formed in the main cooking module to cool the main heating source and the main electric component. Cooling fan to form an airflow for; And a main communication opening formed in the main cooking module and a sub communication opening formed in the sub cooking module so that at least a part of the air flow formed by the cooling fan is transferred from the main cooking module to the sub cooking module. Damper member to be made; It includes, The control module, the cooling fan is operated to operate in conjunction with the operation of at least one of the main heating source and the sub heating source, the main cooking module and the sub-cooking module is coupled by the sensing module When it is detected that the main communication opening and the sub-communication opening is controlled to control the operation of the damper member, and if it is detected that the main cooking module and the sub-cooking module is separated by the sensing module, the main The operation of the damper member is controlled so that the communication opening and the sub communication opening are shielded.

In one aspect of an embodiment of the present invention, the cooling module, the air flow formed by the cooling fan is discharged to the outside through the main exhaust port formed in the main cooking module after cooling the electric component and the main heating source, A part of the airflow formed by the cooling fan cools the electric component and the main heating source and is discharged to the outside through the main exhaust port, and the rest is transferred to the sub cooking module through the main communication opening and the sub communication opening. Or a main guide member configured to flow the air flow formed by the cooling fan to the sub cooking module through the main communication opening and the sub communication opening, and the control module further includes the main module by the sensing module. If the cooking module and the sub-cooking module are detected as being separated or When the main cooking module and the sub-cooking module are detected as being coupled by the sensing module and only the main heating source is operated, the air flow formed by the cooling fan cools the electric component and the main heating source, When the operation of the main guide member is controlled to be discharged to the outside through an exhaust port, and the main cooking module and the sub cooking module are sensed to be coupled by the sensing module and both the main heating source and the sub heating source are operated. And a part of the airflow formed by the cooling fan is discharged to the outside through the main exhaust port after cooling the electric component and the main heating source, and the rest is transferred to the sub cooking module through the main communication opening and the sub communication opening. Control the operation of the main guide member to be delivered, and When the main cooking module and the sub cooking module are sensed to be combined by the sensing module and only the sub heating source is operated, all of the air flow formed by the cooling fan is transferred to the sub through the main communication opening and the sub communication opening. The operation of the main guide member is controlled to be delivered to the cooking module.

In one embodiment of the present invention, the cooling module, the air flow delivered to the sub cooking module through the main communication opening and the sub communication opening is formed in the sub cooking module after cooling the sub heating source; The air flow discharged to the outside of the sub cooking module through a sub exhaust port, or delivered to the sub cooking module through the main communication opening and the sub communication opening, is formed in the sub cooking module without passing through the sub heating source. And a sub guide member configured to flow to be discharged to the outside of the sub cooking module through a second sub exhaust port, wherein the control module is configured to, through the main communication opening and the sub communication opening, when the sub heating source is operated. The first sub after the air flow delivered to the sub cooking module cools the sub heating source. The operation of the sub guide member is controlled to be discharged to the outside of the sub cooking module through an exhaust port, and when the sub heating source is stopped, the air transferred to the sub cooking module through the main communication opening and the sub communication opening. The operation of the sub guide member is controlled such that the flow is discharged to the outside of the sub cooking module through the second sub exhaust port.

One embodiment of a control method of a combination type electric cooker according to an embodiment of the present invention, the main cooking module is provided with electrical parts and a main heating source for heating the object to be cooked by the power supplied from the outside; A sub cooking module selectively coupled to the main cooking module or separated from the main cooking module, the sub cooking source having a sub heating source for heating a cooking object by the power received from the main cooking module; An input module configured to receive a signal for operating the main heating source and the sub heating source; A sensing module detecting whether the main cooking module and the sub cooking module are combined or separated; A cooling module for cooling the electric component, the main heating source and the sub heating source; And controlling the operations of the main heating source and the sub heating source for heating the object to be cooked according to the input signal input by the input module, and operating the cooling module for cooling the electric component, the main heating source and the sub heating source. A control module for controlling the; A method of controlling a combination type electric cooker comprising: a module coupling / separation sensing step of sensing, by the sensing module, a combination or separation of the main cooking module and a sub cooking module; When the control module detects that the main cooking module and the sub cooking module are coupled by the sensing module, the main communication opening formed in the main cooking module and the sub communication opening formed in the sub cooking module communicate with each other. A damper member that controls the operation of the damper member and controls the operation of the damper member to shield the main communication opening and the sub communication opening when the main cooking module and the sub cooking module are separated by the sensing module. Control step; A signal input step of receiving, by the input module, a signal for operation of at least one of the main heating source and the sub heating source; A heating source operation step of controlling, by the control module, at least one of the main heating source and the sub heating source to operate the heating target object according to a signal received by the input module; And operating, by the control module, the cooling module to control an operation of the cooling module for cooling the electric component, the main heating source, and the sub heating source. It includes.

In an aspect of an embodiment of the present invention, in the operation of the cooling module, when the control module operates only the main heating source, an airflow formed by the cooling module cools the electric component and the main heating source. After the control in the first cooling mode discharged to the outside of the main cooking module, when the main heating source and the sub heating source is operated, a part of the air flow formed by the cooling module is the electric component and the main heating After cooling the circle is discharged to the outside of the main cooking module, the rest of the air flow formed by the cooling module is controlled in the second cooling mode that is transferred from the main cooking module to the sub cooking module, the sub heating When only a circle is operated, the air flow formed by the cooling module is controlled by the sub cooking unit in the main cooking module. The controls a third cooling mode in which the re-transmitted to the module.

In an aspect of an embodiment of the present invention, in the operation of the cooling module, the control module, during the first cooling mode, cools the electric component and the main heating source, and then through the main communication opening and the sub communication opening. The operation of the cooling module is controlled such that the air flow delivered to the sub cooking module is discharged to the outside of the sub cooking module without passing through the sub heating source.

In an aspect of an embodiment of the present invention, in the operation of the cooling module, in the second cooling mode or in the third cooling mode, the control module may include an air flow delivered from the main cooking module to the sub cooking module or The rest of the cooling module controls the operation of the cooling module to be discharged to the outside of the sub-cooking module after cooling the sub heating source.

According to the combination type electric cooking apparatus according to the embodiment of the present invention and a control method thereof, the following effects can be expected.

First, according to the embodiment of the present invention, the main cooking module may be used alone or the main cooking module and the sub cooking module may be cooked according to the combination or separation of the main cooking module and the sub cooking module. have. Therefore, according to an embodiment of the present invention, the main cooking module and the sub cooking module can be used in various aspects according to the cooking environment.

In addition, in the embodiment of the present invention, cooling using one cooling module is selectively performed according to whether the main cooking module and the sub cooking module are coupled or separated and whether the main heating source and the sub heating source are operated. In particular, in the present embodiment, according to whether the main cooking module and the sub-cooking module are coupled or separated, and whether the main heating source and the sub heating source are operated, the electrical components, the main heating source, and At the same time as the sub heating source is cooled, it is controlled to prevent unnecessary temperature increase due to airflow. Therefore, according to the embodiment of the present invention, efficient cooling can be achieved with a simpler configuration.

1 is a perspective view showing a combination type electric cooker according to an embodiment of the present invention.
Figure 2 is a schematic view showing a combination type electric cooker according to an embodiment of the present invention.
Figure 3 is a cross-sectional view showing the main part of the combination type electric cooker according to an embodiment of the present invention.
Figure 4 is a flow chart showing a control method of a combination type electric cooker according to an embodiment of the present invention.
5a to 5c is an operation state showing the flow of the airflow according to the control method of the combination type electric cooker according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings, a combination type electric cooker according to an embodiment of the present invention will be described in more detail.

1 is a perspective view showing a combination type electric cooker according to an embodiment of the present invention, Figure 2 is a schematic view showing a combination type electric cooker according to an embodiment of the present invention, Figure 3 is an embodiment of the present invention It is sectional drawing which shows the principal part of the combination type electric cooking apparatus by an example.

1 to 3, the combination type electric cooking apparatus 1 according to the present embodiment includes a main cooking module 100, a sub cooking module 200, an input module 300, a sensing module 400, Cooling module 500 and control module 600. In particular, in the present embodiment, the main cooking module 100 and the sub-cooking module 200 which are heated for cooking of the cooking object are combined or separated, and the main cooking module 100 and the sub-cooking module 200 are separated from each other. The control module 600 controls the operation of the cooling module 500 in accordance with whether the coupling or separation and operation.

In more detail, the main cooking module 100 is provided with an electric component 101 and a main heating source 102 for heating a cooking object by power supplied from the outside. In addition, the sub cooking module 200 is provided with a sub heating source 202 for heating a cooking object by the power received from the main cooking module 100. As shown in FIG. 1, for example, the main cooking module 100 and the sub cooking module 200 are each formed in a flat hexahedral shape, and protrude to form a part of the edges contacted with each other in a combined state. Can be recessed. In addition, as the main heating source 102 and the sub heating source 202, a coil for inductively heating a container containing a cooking object or a heater that generates heat to conduct heat to the container may be used.

The main cooking module 100 and the sub cooking module 200 are provided with a main connecting unit 110 and a sub connecting unit 220. The main connection unit 110 and the sub connection unit 220 are connected to each other in a state where the main cooking module 100 and the sub cooking module 200 are combined to serve to transmit power and signals.

In addition, a main intake opening 121, a main communication opening 122, and a main exhaust port 123 are formed in the main cooking module 100, and a sub communication opening 222 and a first communication opening are formed in the sub cooking module 200. First and second sub exhaust ports 223A and 223B are formed. The main intake port 121 is a place where air is sucked into the main cooking module 100 to form an air flow, and the main communication opening 122 flows into the sub cooking module 200. Is where it is delivered. The main exhaust port 123 is where the air flow is discharged to the outside of the main cooking module 100. The sub communication opening 222 receives air flow from the main cooking module 100. When the main cooking module 100 and the sub cooking module 200 are coupled to each other, the main communication opening is provided. 122 and the sub communication opening 222 communicate with each other. The first and second sub exhaust ports 223A and 223B are places where airflow is discharged to the outside of the sub-cooking module 200.

On the other hand, the input module 300, the operation of the main cooking module 100 and the sub-cooking module 200 for cooking a cooking object, that is, the operation of the main heating source 102 and the sub heating source 202. Receive a signal for. In the present embodiment, the input module 300 is provided in the main cooking module 100. In other words, the sub-cooking module 200 is not provided with a separate input module, and the operation of the sub-cooking module 200 according to a signal input through the input module 300, that is, the sub heating source 202. ) Is controlled.

In addition, the sensing module 400 detects a combination or separation of the main cooking module 100 and the sub cooking module 200. For example, the sensing module 400 may be provided only when the main connection unit 110 and the sub connection unit 210 of the main cooking module 100 and the sub-cooking module 200 are correctly connected to transmit power and signals. The main cooking module 100 and the sub cooking module 200 may be detected as being combined.

Next, the cooling module 500 cools the electric component 101, the main heating source 102, and the sub heating source 202. Substantially, the cooling module 500 includes the main cooking module 100 and the sub-cooking module 200 according to whether the main cooking module 100 and the sub-cooking module 200 are coupled or separated or operated. Either one or both are cooled. In the present embodiment, the cooling module 500 includes a cooling fan 510, a damper member 520, a main guide member 530, and a sub guide member 540.

More specifically, the cooling fan 510 is installed inside the main cooking module 100, and sucks air through the main intake port 121 to form an air flow. The airflow formed by the cooling fan 510 cools the electric component 101 and the main heating source 102 and / or the sub heating source 202.

The damper member 520 selectively communicates the main cooking module 100 and the sub cooking module 200, substantially, the main communication opening 122 and the sub communication opening 222. Therefore, at least a portion of the air flow formed by the cooling fan 510 by the damper member 520 is selectively transmitted from the main cooking module 100 to the sub cooking module 200. For example, the damper member 520 can selectively open or close either one of the main communication opening 122 and the sub communication opening 222.

On the other hand, the main guide member 530, after the air flow formed by the cooling fan 510 cools the electric component 101 and the main heating source 102 in the interior of the main cooking module 100. It is discharged to the outside of the main cooking module 100 or flows to be delivered to the sub-cooking module 200. More specifically, the main guide member 530 is the main cooking module 100 after the air flow formed by the cooling fan 510 cools the electric component 101 and the main heating source 102. It may be flowed to be discharged to the outside through the main exhaust port 123 is formed in. In addition, the main guide member 530 is a part of the air flow formed by the cooling fan 510 cools the electric component 101 and the main heating source 102 through the main exhaust port 123. It is discharged to the outside and the rest can be flowed to be delivered to the sub cooking module 200 through the main communication opening 122 and the sub communication opening 222. The main guide member 530 allows the airflow formed by the cooling fan 510 to be transferred to the sub cooking module 200 through the main communication opening 122 and the sub communication opening 222. Can be. For example, the main guide member 530 may be rotatably installed in the main cooking module 100 adjacent to the discharge port of the cooling fan 510.

In addition, the sub guide member 540 flows to cool the sub heating source 202 selectively by the air flow delivered to the sub cooking module 200. More specifically, the sub guide member 540 has an airflow delivered to the sub cooking module 200 through the main communication opening 122 and the sub communication opening 222 from the sub heating source 202. After cooling the liquid, the sub-cooking module 200 may be discharged to the outside of the sub-cooking module 200 through the first sub-exhaust port 223A. In addition, the sub guide member 540 does not pass the air flow transmitted to the sub cooking module 200 through the main communication opening 122 and the sub communication opening 222 via the sub heating source 202. The liquid may be discharged to the outside of the sub cooking module 200 through the second sub exhaust port 223B. For example, the sub guide member 540 may be rotatably installed in the sub cooking module 200 adjacent to the sub communication opening 222.

On the other hand, the control module 600 controls the operation of the main heating source 102 and the sub heating source 202 to heat the cooking object according to the signal input by the input module 300, the electric field The operation of the cooling module 500 is controlled for cooling the component 101, the main heating source 102 and the sub heating source 202. Substantially, the control module 600 controls the operation of the main heating source 102 and the sub heating source 202 depending on whether the main cooking module 100 and the sub cooking module 200 are coupled or separated. can do. In addition, the control module 600, the cooling module 500, the cooling fan 510, the main guide member 530 depending on whether the main heating source 102 and the sub heating source 202 are operated. ) And the operation of the sub guide member 540.

More specifically, the control module 600, regardless of the coupling or separation of the main cooking module 100 and the sub-cooking module 200, the main heating according to the signal received by the input module 300. Control the operation of circle 102. On the other hand, the control module 600 receives the input module 300 only when the sensing module 400 detects that the main cooking module 100 and the sub cooking module 200 are combined. The operation of the sub heating source 202 is controlled according to the signal. In other words, the control module 600 is the sub-heating source 202 according to the signal input from the input module 300 only when the main cooking module 100 and the sub-cooking module 200 are combined. Control it to work.

In addition, the control module 600 controls the cooling fan 510 to operate in conjunction with an operation of at least one of the main heating source 102 and the sub heating source 202. In other words, the control module 600 controls the cooling fan 510 to operate even if only one of the main heating source 102 and the sub heating source 202 operates.

In addition, if the main control module 600 detects that the main cooking module 100 and the sub cooking module 200 are coupled by the sensing module 400, the main communication opening 122 and the sub communication. The operation of the damper member 520 is controlled to communicate the opening 222. On the contrary, the control module 600, when the main cooking module 100 and the sub-cooking module 200 is separated by the sensing module 400, the main communication opening 122 and the sub The operation of the damper member 520 is controlled to shield the communication opening 222.

On the other hand, the control module 600, even if the main cooking module 100 and the sub-cooking module 200 is separated, or both are combined, the cooling fan 510 when only the main heating source 102 operates. All of the airflow formed by) is controlled to cool the electric component 101 and the main heating source 102. More specifically, the control module 600, when the main cooking module 100 and the sub-cooking module 200 is detected by the sensing module 400, the cooling fan 510 The air flow formed by the cooler controls the operation of the main guide member 530 such that the electric component 101 and the main heating source 102 are cooled and then discharged to the outside through the main exhaust port 123. In addition, when the control module 600 detects that the main cooking module 100 and the sub cooking module 200 are coupled by the sensing module 400 and only the main heating source 102 operates. The air flow formed by the cooling fan 510 cools the electric component 101 and the main heating source 102, and then is discharged to the outside through the main exhaust port 123. Control the operation.

In addition, when the main heating source 102 and the sub heating source 202 are both operated while the main cooking module 100 and the sub cooking module 200 are combined, the control module 600 operates. Part of the airflow formed by the cooling fan 510 cools the electric component 101 and the main heating source 102, and controls the rest of the airflow to cool the sub heating source 202. In more detail, the control module 600 is detected by the sensing module 400 that the main cooking module 100 and the sub cooking module 200 are combined and the main heating source 102 and the sub. When all the heating sources 202 operate, a part of the airflow formed by the cooling fan 510 cools the electric component 101 and the main heating source 102 and then opens the main exhaust port 123. The main guide member 530 controls the operation of the main guide member 530 so as to be discharged to the outside through the main communication opening 122 and the sub communication opening 222 to be transferred to the sub cooking module 200.

On the other hand, the control module 600, when the main cooking module 100 and the sub-cooking module 200 is coupled, when only the sub heating source 202 operates, the cooling fan 510 All of the airflow formed by the control controls to cool the sub heating source 202. When the main cooking module 100 and the sub cooking module 200 are detected to be coupled by the sensing module 400 and only the sub heating source 202 operates, the cooling fan 510 is formed. The operation of the main guide member 530 is controlled so that all of the air flow is transmitted to the sub cooking module 200 through the main communication opening 122 and the sub communication opening 222.

In addition, the control module 600 controls the airflow delivered to the sub-cooking module 200 to selectively cool the sub-heating source 202 according to whether the sub-heating source 202 is operated. In more detail, when the sub heating source 202 operates, the control module 600 passes through the main communication opening 122 and the sub communication opening 222 to the sub cooking module 200. After the delivered air cools the sub heating source 202, the operation of the sub guide member 540 is controlled to be discharged to the outside of the sub cooking module 200 through the first sub exhaust port 223A. . On the other hand, when the sub heating source 202 is stopped, the control module 600 is transferred to the sub cooking module 200 through the main communication opening 122 and the sub communication opening 222. The operation of the sub guide member 540 is controlled such that an air flow is discharged to the outside of the sub cooking module 200 through the second sub exhaust port 223B.

The main cooking module 100 and the sub-cooking module 200 are coupled to each other when the main heating source 102 operates only, and the electric component 101 and the main heating source 102 are cooled. This is to prevent a phenomenon in which the temperature of the sub heating source 202 is increased by the air flow transmitted from the main cooking module 100 to the sub control module 600 after the step. In other words, even if an airflow formed by the cooling fan 510 by the main guide member 530 flows to cool the electric component 101 and the main heating source 102, the electric component 101 may be used. And a part of the airflow cooling the main heating source 102 may be delivered to the sub-cooking module 200 after circulating the main cooking module 100. By the way, since the airflow which cooled the said electric component 101 and the main heating source 102 is the state which the temperature increased substantially, when passing via the said sub heating source 202, the said sub heating source. The temperature of 202 is increased. Therefore, in the present embodiment, when the sub heating source 202 is stopped, even if the air flow is transmitted from the main cooking module 100 to the sub cooking module 200, the sub guide member 540 As a result, it is flowed to be discharged to the outside of the sub cooking module 200 without passing through the sub heating source 202.

Hereinafter, a control method of a combination type electric cooker according to an embodiment of the present invention will be described in more detail with reference to the accompanying drawings.

4 is a flowchart illustrating a control method of a combination type electric cooker according to an embodiment of the present invention, and FIGS. 5A to 5C are diagrams illustrating an airflow according to a control method of a combination type electric cooker according to an embodiment of the present invention. This is a state diagram showing the flow.

First, referring to FIG. 4, the control method of the combination type electric cooker according to the present embodiment includes a module coupling / separation sensing step S100, a damper member control step S200, a signal input step S300, and a heating source operation. A step S400 and a cooling module operation step S500 are included.

In more detail, in the module combining / separation detecting step (S100), the sensing module 400 detects the combination or separation of the main cooking module 100 and the sub cooking module 200. And, in the damper member control step (S200), the control module 600 according to whether the main cooking module 100 and the sub-cooking module 200 sensed by the sensing module 400 is coupled or separated. The operation of the damper member 520 is controlled so that the main communication opening 122 and the sub communication opening 222 communicate or shield.

Next, in the signal input step S300, the input module 300 receives a signal for operation of at least one of the main heating source 102 and the sub heating source 202. In the heating source operation step (S400), at least one of the main heating source 102 and the sub heating source 202 is operated by the control module 600 according to a signal received by the input module 300. To control the cooking object. In this case, the control module 600 is connected to the main heating source 102 according to a signal received by the input module 300 regardless of whether the main cooking module 100 and the sub cooking module 200 are coupled. Although the operation is controlled, the input module 300 controls the operation of the sub heating source 202 according to the input signal only when the main cooking module 100 and the sub cooking module 200 are combined.

Finally, in the operation of the cooling module (S500), the control module 600, the cooling module 500 for cooling the electrical component 101, the main heating source 102 and the sub heating source (202). Control the operation of In particular, in the cooling module operation step S500, the control module 600 controls the first to third cooling modes according to whether the main cooking module 100 and the sub cooking module 200 are operated.

In more detail, the first cooling mode is performed when only the main heating source 102 is operated, and the airflow formed by the cooling module 500 includes the electric component 101 and the main heating. After cooling the circle 102 is discharged to the outside of the main cooking module 100. Substantially, as shown in FIG. 5A, in the first cooling mode, all of the airflows formed by the cooling module 510 are controlled by the control module 600. After cooling 102, the operation of the main guide member 530 is controlled to be discharged to the outside of the main cooking module 100 through the main exhaust port 123.

Next, the second cooling mode is performed when the main heating source 102 and the sub heating source 202 operate, and a part of the airflow formed by the cooling module 500 is the electric field. After cooling the component 101 and the main heating source 102, the air is discharged to the outside of the main cooking module 100, and the remainder of the air flow formed by the cooling module 500 is the main cooking module 100. In the sub cooking module 200 is delivered. Substantially, as shown in FIG. 5B, in the second cooling mode, the control module 600 includes a part of the airflow formed by the cooling fan 510 in which the electric component 101 and the main heating are performed. After the circle 102 is cooled, the operation of the main guide member 530 is controlled to be discharged to the outside of the main cooking module 100 through the main exhaust port 123. In addition, as shown in FIG. 5B, in the second cooling mode, the remaining portion of the air flow formed by the cooling fan 510 in the control module 600 is divided into the main communication opening 122 and the sub communication opening. The operation of the main guide member 530 is controlled to be transferred from the main cooking module 100 to the sub cooking module 200 through 222.

In addition, the third cooling mode is performed when only the sub heating source 202 operates, and the air flow formed by the cooling module 500 is controlled by the sub cooking module in the main cooking module 100. Is passed to 200. Substantially, as shown in FIG. 5C, in the third cooling mode, all the airflows in which the control module 600 is formed by the cooling fan 510 include the main communication opening 122 and the sub communication opening. The operation of the main guide member 530 is controlled to be transferred from the main cooking module 100 to the sub cooking module 200 through 222.

In the first cooling mode, the control module 600 cools the electric component 101 and the main heating source 102, and then controls the main communication opening 122 and the sub communication opening 222. Controls the operation of the cooling module 500 such that the airflow delivered to the sub cooking module 200 is discharged to the outside of the sub cooking module 200 without passing through the sub heating source 202. In addition, in the second cooling mode or the third cooling mode, the control module 600 may include an air flow transferred from the main cooking module 100 to the sub cooking module 200 or the rest of the sub heating. After cooling the circle 202, the cooling module 500 is controlled to be discharged to the outside of the sub-cooking module 200. In other words, in the first cooling mode in which the sub heating source 202 does not operate, the control module 600 transfers air transferred from the main cooking module 100 to the sub cooking module 200. The flow of the sub guide member 540 is controlled such that the flow is discharged to the outside of the sub cooking module 200 through the second sub exhaust port 223B without passing through the sub heating source 202. On the other hand, in the case of the second or third cooling mode in which the sub heating source 202 operates, the control module 600 is transferred from the main cooking module 100 to the sub cooking module 200. After the air flow cools the sub heating source 202, the operation of the sub guide member 540 is controlled to be discharged to the outside of the sub cooking module 200 through the first sub exhaust port 223A.

Within the scope of the basic technical spirit of the present invention, many other modifications are possible to those skilled in the art, and the scope of the present invention should be interpreted based on the appended claims. will be.

100: main cooking module 101: electrical components
102: main heating source 200: sub cooking module
202: sub heating source 300: input module
400: sensing module 500: cooling module
600: control module

Claims (9)

A main cooking module 100 having an electric component 101 and a main heating source 102 for heating a cooking object by power supplied from the outside;
A sub-cooking module 200 selectively coupled or separated from the main cooking module 100 and having a sub-heating source 202 for heating a cooking object by the power received from the main cooking module 100;
An input module 300 provided in the main cooking module 100 and receiving a signal for operating the main heating source 102 and the sub heating source 202;
Sensing module 400 for detecting the coupling or separation of the main cooking module 100 and the sub-cooking module 200;
A cooling module (500) for cooling the electric component (101), the main heating source (102) and the sub heating source (202); And
The input module 300 controls the operations of the main heating source 102 and the sub heating source 202 to heat the cooking object according to the input signal, and the electric component 101 and the main heating source 102. And a control module 600 for controlling the operation of the cooling module 500 for cooling the sub heating source 202; Combi-type electric cooker comprising a.
The method of claim 1,
The control module 600,
Regardless of the coupling or separation of the main cooking module 100 and the sub cooking module 200, the operation of the main heating source 102 is controlled according to a signal received by the input module 300.
Only when the sensing module 400 detects that the main cooking module 100 and the sub cooking module 200 are combined, the sub heating source 202 of the sub heating source 202 according to the input signal is input. Combination type electric cooker to control the motion.
The method of claim 1,
The cooling module 500,
Installed in the main cooking module 100, the air is sucked through the main inlet 121 formed in the main cooking module 100 to cool the electric component 101 and the main heating source 102. Cooling fan 510 to form an airflow for; And
A main communication opening 122 formed in the main cooking module 100 so that at least a part of the air flow formed by the cooling fan 510 is transferred from the main cooking module 100 to the sub cooking module 200; A damper member (520) for selectively communicating with the sub communication opening (222) formed in the sub cooking module (200); Including,
The control module 600,
Controls the cooling fan 510 to operate in conjunction with an operation of at least one of the main heating source 102 and the sub heating source 202,
When it is detected by the sensing module 400 that the main cooking module 100 and the sub cooking module 200 are coupled, the damper so that the main communication opening 122 and the sub communication opening 222 communicate with each other. When the main cooking module 100 and the sub cooking module 200 are detected to be separated by the sensing module 400, the main communication opening 122 and the sub may be controlled. Combi-type electric cooker for controlling the operation of the damper member (520) so that the communication opening (222) is shielded.
The method of claim 3, wherein
The cooling module 500,
The air flow formed by the cooling fan 510 is discharged to the outside through the main exhaust port 123 formed in the main cooking module 100 after cooling the electric component 101 and the main heating source 102 or A part of the airflow formed by the cooling fan 510 is cooled to the electric component 101 and the main heating source 102, and then discharged to the outside through the main exhaust port 123, and the rest of the air flow is cooled. The air flow formed by the cooling fan 510 or delivered to the sub cooking module 200 through the opening 122 and the sub communication opening 222 is transferred to the main communication opening 122 and the sub communication opening 222. Further comprising a main guide member 530 to flow to be delivered to the sub cooking module 200 through,
The control module 600,
When it is detected that the main cooking module 100 and the sub-cooking module 200 is separated by the sensing module 400 or the main cooking module 100 and the sub-cooking module by the sensing module 400 ( When it is detected that the 200 is coupled and only the main heating source 102 operates, the airflow formed by the cooling fan 510 cools the electric component 101 and the main heating source 102. Control the operation of the main guide member 530 to be discharged to the outside through the main exhaust port 123,
When the main cooking module 100 and the sub cooking module 200 are detected to be coupled by the sensing module 400 and both the main heating source 102 and the sub heating source 202 operate, the A part of the airflow formed by the cooling fan 510 cools the electric component 101 and the main heating source 102, and then is discharged to the outside through the main exhaust port 123, and the remaining part of the airflow formed by the cooling fan 510 is 122 and controls the operation of the main guide member 530 to be transmitted to the sub cooking module 200 through the sub communication opening 222,
When the main cooking module 100 and the sub cooking module 200 are detected to be coupled by the sensing module 400 and only the sub heating source 202 operates, the cooling fan 510 is formed. Combi-type electric cooker to control the operation of the main guide member (530) so that all of the air flow is transmitted to the sub cooking module (200) through the main communication opening (122) and the sub communication opening (222).
The method of claim 4, wherein
The cooling module 500,
The air flow delivered to the sub cooking module 200 through the main communication opening 122 and the sub communication opening 222 is formed in the sub cooking module 200 after cooling the sub heating source 202. The air flow is discharged to the outside of the sub cooking module 200 through the first sub exhaust port 223A or transferred to the sub cooking module 200 through the main communication opening 122 and the sub communication opening 222. Guide member 540 which flows to the outside of the sub cooking module 200 through the second sub exhaust port 223B formed in the sub cooking module 200 without passing through the sub heating source 202. ),
The control module 600,
When the sub heating source 202 is operated, an airflow delivered to the sub cooking module 200 through the main communication opening 122 and the sub communication opening 222 may cause the sub heating source 202 to operate. After cooling, the operation of the sub guide member 540 is controlled to be discharged to the outside of the sub cooking module 200 through the first sub exhaust port 223A,
When the sub heating source 202 is stopped, the air flow delivered to the sub cooking module 200 through the main communication opening 122 and the sub communication opening 222 is the second sub exhaust port 223B. Combi-type electric cooking apparatus for controlling the operation of the sub guide member 540 to be discharged to the outside of the sub cooking module 200 through.
A main cooking module 100 having an electric component 101 and a main heating source 102 for heating a cooking object by power supplied from the outside; Optionally coupled to the main cooking module 100 or separated from the main cooking module 100, the sub heating source 202 for heating the cooking object by the power received from the main cooking module 100 is provided A sub cooking module 200; An input module 300 for receiving a signal for operating the main heating source 102 and the sub heating source 202; A sensing module 400 for detecting whether the main cooking module 100 and the sub cooking module 200 are combined or separated; A cooling module (500) for cooling the electric component (101), the main heating source (102) and the sub heating source (202); And control the operations of the main heating source 102 and the sub heating source 202 to heat the cooking object according to the input signal received by the input module 300, and the electric component 101 and the main heating source ( A control module 600 for controlling the operation of the cooling module 500 for cooling the 102 and the sub heating source 202; In the combination type electric cooker control method comprising:
A module coupling / separation sensing step of sensing by the sensing module 400, coupling or separation of the main cooking module 100 and the sub-cooking module 200 (S100);
When the control module 600 detects that the main cooking module 100 and the sub cooking module 200 are coupled by the sensing module 400, a main communication opening formed in the main cooking module 100 is provided. The operation of the damper member 520 is controlled to communicate the 122 and the sub communication opening 222 formed in the sub cooking module 200, and the main cooking module 100 is controlled by the sensing module 400. And a damper member control step of controlling the operation of the damper member 520 to shield the main communication opening 122 and the sub communication opening 222 when it is detected that the sub cooking module 200 is separated (S200). ;
A signal input step of receiving, by the input module 300, a signal for operation of at least one of the main heating source 102 and the sub heating source 202;
A heating source operation in which the control module 600 controls at least one of the main heating source 102 and the sub heating source 202 to heat the object to be cooked according to a signal received by the input module 300. Step S400; And
Cooling module operation step of controlling the operation of the cooling module 500 by the control module 600, the cooling of the electric component 101, the main heating source 102 and the sub heating source 202 (S500) ; Combi-type electric cooker control method comprising a.
The method of claim 6,
In the cooling module operation step (S500),
The control module 600,
When only the main heating source 102 operates, the air flow formed by the cooling module 500 cools the electric component 101 and the main heating source 102 and then the main cooking module 100. To control the first cooling mode discharged to the outside of the,
When the main heating source 102 and the sub heating source 202 operate, a part of the airflow formed by the cooling module 500 cools the electric component 101 and the main heating source 102. A second air discharged to the outside of the main cooking module 100, and the rest of the air flow formed by the cooling module 500 is transferred from the main cooking module 100 to the sub cooking module 200. Controlled by cooling mode,
When only the sub heating source 202 is operated, the air flow formed by the cooling module 500 is controlled in the third cooling mode transmitted from the main cooking module 100 to the sub cooking module 200. Combination type electric cooker control method.
The method of claim 7, wherein
In the cooling module operation step (S500),
In the first cooling mode, the control module 600 cools the electric component 101 and the main heating source 102, and then, through the main communication opening 122 and the sub communication opening 222. Combi-type electric cooking for controlling the operation of the cooling module 500 so that the air flow delivered to the sub cooking module 200 is discharged to the outside of the sub cooking module 200 without passing through the sub heating source 202. How to control your device.
The method of claim 7, wherein
In the cooling module operation step (S500),
The control module 600, in the second cooling mode or the third cooling mode, the air flow transmitted from the main cooking module 100 to the sub cooking module 200 or the rest thereof is the sub heating source. Combi-type electric cooker control method for controlling the operation of the cooling module 500 to be discharged to the outside of the sub-cooking module 200 after cooling (202).

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