KR102272895B1 - Electric cooker and its heating control circuit，Control method - Google Patents

Abstract

An electric cooker, a heating control circuit and a control method thereof, wherein the heating control circuit comprises: a first heating unit (10); A first switch unit (S1) connected in parallel to the power supply circuit of the electric cooker after being connected in series with the first heating unit (10); and each PTC heating unit 20 is connected in series with each second switch unit S2 in a one-to-one correspondence, and each series-connected PTC heating unit 20 and the second switch unit S2 are each connected to a first switch at least one PTC heating unit 20 and at least one second switch unit S2 connected in parallel with the unit S1, wherein the first heating unit 10 and the PTC heating unit 20 are connected to the first switch The heating operation is performed correspondingly according to the on-off state of the unit S1 and the on-off state of the second switch unit S2. The circuit uses the characteristic that the impedance of the PTC heating unit 20 automatically changes according to the temperature. When the PTC heating unit 20 is short-circuited, it does not affect the normal operation of other systems of the electric cooker. It can not only improve the working reliability of the machine, but also save the cost.

Description

Electric cooker and its heating control circuit，Control method

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to the technical field of electric appliances, and more particularly, to a heating control circuit for an electric cooker, and a heating control method for an electric cooker and an electric cooker.

An electric cooker (eg, an electric rice cooker) generally has functions of cooking and keeping warm. Typically, an electric rice cooker implements a warming function through a low-power heating element hole provided on a side and/or an upper lid, and implements a rice cooking function through a high-power heating plate hole installed at the bottom.

Here, most of the upper lid heating element uses a low-power heating yarn or PTC (Positive Temperature Coefficient, usually referring to a thermistor of a positive temperature coefficient) heater. The heating element is stable in power, relatively safe and reliable, but the price is relatively high. The power of the PTC heater can change automatically according to the temperature, and the heating rate is fast, which is good for the warming effect and the price is cheap, but a short circuit may occur due to the limitation of the production process. If a short circuit error occurs in the PTC heater, the entire rice cooker system may be involved, and furthermore, the rice cooker may burn out, making it impossible to use the rice cooker normally.

This application is based on the inventor's understanding and research on the following issues.

In the related art, an electric rice cooker generally implements heating and keeping warm functions using a circuit as shown in FIG. 1 . In the heating control circuit using this method, the bottom heating plate (H1) and the PTC heater (H2) are connected in parallel to the electricity supply circuit, so if the PTC heater (H2) has a short circuit failure, the entire rice cooker system may be involved and further The rice cooker may burn out, making it impossible to use the rice cooker normally. As can be seen from this, when a short circuit failure occurs in the PTC heater (H2), other systems of the rice cooker are not affected, so that the operation reliability of the rice cooker can be improved and the cost can be lowered.

The present invention aims to solve at least to some extent one of the technical problems in the above technology. To this end, the electric circuit uses the characteristic that the impedance of the PTC heating unit automatically changes according to the temperature, so that if the PTC heating unit is short-circuited, it may not affect the normal operation of other systems of the electric cooker and the operation of the electric cooker A first object of the present invention is to provide a heating control circuit for an electric cooker that can improve reliability as well as save cost.

A second object of the present invention is to provide a heating control circuit for an electric cooker.

A third object of the present invention is to provide a method for controlling heating of an electric cooker.

In order to achieve the above object, an embodiment of the first aspect of the present invention provides a first heating unit, a first switch unit connected in series with the first heating unit and then connected in parallel with the power supply circuit of the electric cooker, each PTC heating unit At least one PTC heating unit and at least one second switch connected in series with each of the second switch units in a one-to-one correspondence with each of the series-connected PTC heating unit and the second switch unit, respectively, connected in parallel with the first switch unit a heating unit, wherein the first heating unit and the at least one PTC heating unit perform a heating operation correspondingly according to an on-off state of the first switch unit and an on-off state of the at least one second switch unit It provides a heating control circuit of the electric cooker.

The heating control circuit of the electric cooker according to the embodiment of the present invention is connected in parallel to the power supply circuit of the electric cooker after the first switch unit and the first heating unit are connected in series, and each PTC heating unit of the at least one PTC heating unit The unit is connected in series with each second switch unit of the at least one second switch unit in a one-to-one correspondence, each series-connected PTC heating unit and the second switch unit are respectively connected in parallel with the first switch unit, the first The heating unit and the at least one PTC heating unit perform a heating operation corresponding to the on-off state of the first switch unit and the on-off state of the at least one second switch unit. This circuit uses the characteristic that the impedance of the PTC heating unit automatically changes with temperature, so that if the PTC heating unit is short-circuited, it may not affect the normal operation of other systems of the electric cooker, and the operation reliability of the electric cooker can be improved as well as cost savings.

In addition, the heating control circuit of the electric cooker according to the embodiment of the present invention further has the following additional technical features.

According to an embodiment of the present invention, when the at least one PTC heating unit is one, the at least one second switch unit is one, wherein one end of the first heating unit is connected to the first end of the power supply circuit. connected and the other end of the first heating unit is connected to one end of the first switch unit to have a first node, and the other end of the first switch unit is connected to the second end of the power supply circuit and is connected to the PTC heating unit. One end is connected to the first node, the other end of the PTC heating unit is connected to one end of the second switch unit, and the other end of the second switch unit is connected to the second end of the power supply circuit.

According to an embodiment of the present invention, when the first switch unit is turned on and the second switch unit is turned off, the first heating unit heats with full power and the PTC heating unit does not heat, Here, if the PTC heating unit is short-circuited, the electric cooker maintains the current working state, and when the first switch unit is turned on and the second switch unit is turned on, the first heating unit is turned on with full power. Heating is performed, and the PTC heating unit does not heat, wherein if the PTC heating unit is short-circuited, the electric cooker maintains the current working state, the first switch unit is turned off, and the second switch unit is In the turn-off state, the first heating unit does not heat and the PTC heating unit does not heat, wherein if the PTC heating unit is short-circuited, the electric cooker maintains a current working state, and the first switch unit In this turn-off state and the second switch unit is turned on, the first heating unit heats with very little power and the PTC heating unit heats with full power, wherein if the PTC heating unit is short-circuited, the first heating unit heats up 1 The heating unit performs heating at full power.

According to an embodiment of the present invention, the first heating unit includes a bottom heating plate installed to correspond to the bottom of the electric cooker, and the PTC heating unit includes a PTC heater installed to correspond to the upper lid of the electric cooker. .

According to an embodiment of the present invention, both the first switch unit and the second switch unit are electronic switches.

According to an embodiment of the present invention, the first switch unit is a relay and the second switch unit is a triac.

According to an embodiment of the present invention, the electric cooker includes a failure detection unit for detecting whether or not a short circuit of each PTC heating unit has occurred, and the failure detection unit is connected to each other, and the failure detection unit is any one PTC heating unit. The control unit further includes a control unit that controls to turn off the second switch unit corresponding to the PTC heating unit in which the short circuit occurs when detecting the occurrence of a short circuit.

In order to achieve the above object, an embodiment of the second aspect of the present invention provides an electric cooker including the heating control circuit of the electric cooker described in the embodiment of the first aspect of the present invention.

In the electric cooker of the embodiment of the present invention, when the PTC heating unit is short-circuited through the heating control circuit of the electric cooker, the normal operation of other systems of the electric cooker may not be affected and the operation reliability of the electric cooker may be improved. Not only that, but you can also save money.

In order to achieve the above object, an embodiment of the third aspect of the present invention provides that the electric cooker is a first heating unit, a first switch unit connected in series with the first heating unit and then connected in parallel to a power supply circuit of the electric cooker, and Each PTC heating unit is connected in series with each second switch unit in a one-to-one correspondence, and each series-connected PTC heating unit and a second switch unit are respectively connected in parallel with the first switch unit and at least one PTC heating unit and at least one PTC heating unit connected in parallel with the first switch unit; including one second switch unit, detecting an on-off state of the first switch unit and detecting an on-off state of the at least one second switch unit; and performing a heating operation corresponding to the first heating unit and the at least one PTC heating unit according to the on-off state of the first switch unit and the on-off state of the at least one second switch unit A method for controlling heating of an electric cooker is provided.

A heating control method of an electric cooker according to an embodiment of the present invention comprises controlling a first heating unit and at least one PTC heating unit according to an on-off state of a first switch unit and an on-off state of at least one second switch unit. By conducting corresponding heating operation, when the PTC heating unit is short-circuited, the normal operation of other systems of the electric cooker may not be affected, and the operation reliability of the electric cooker can be improved, as well as cost savings. have.

In addition, the heating control method of the electric cooker according to the embodiment of the present invention has the following additional technical features.

According to an embodiment of the present invention, when the at least one PTC heating unit is one, the at least one second switch unit is one, and one end of the first heating unit is connected to the first end of the power supply circuit, and The other end of the first heating unit is connected to one end of the first switch unit to have a first node, the other end of the first switch unit is connected to the second end of the power supply circuit, and one end of the PTC heating unit is The first node is connected to each other, the other end of the PTC heating unit is connected to one end of the second switch unit, and the other end of the second switch unit is connected to the second end of the power supply circuit, where the first When one switch unit is turned on and the second switch unit is turned off, the first heating unit heats at full power and the PTC heating unit does not heat, where if the PTC heating unit is short-circuited The electric cooker maintains a current working state, and when the first switch unit is turned on and the second switch unit is turned on, the first heating unit heats with full power and the PTC heating unit does not heat and wherein if the PTC heating unit is short-circuited, the electric cooker maintains a current working state, and when the first switch unit is in a turned-off state and the second switch unit is in a turned-off state, the first heating unit does not heat and the PTC heating unit does not heat, wherein if the PTC heating unit is short-circuited, the electric cooker maintains a current working state, the first switch unit is turned off, and the second switch unit is When turned on, the first heating unit heats with very little power, and the PTC heating unit heats with full power, wherein if the PTC heating unit short-circuits, the first heating unit heats with full power .

According to an embodiment of the present invention, the heating control method of the electric cooker includes detecting whether a short circuit has occurred in each of the PTC heating units, and when the occurrence of a short circuit in any one PTC heating unit is detected, the corresponding short circuit is detected. The method further includes controlling a second switch unit corresponding to the PTC heating unit to be turned off.

The above-described and/or additional aspects and advantages of the present invention will be clearly and easily understood through the description of the embodiment in conjunction with the drawings below, wherein
1 is a circuit diagram of an electric cooker heating control circuit in the related art;
2 is a circuit diagram of a heating control circuit of an electric cooker according to a first embodiment of the present invention;
3 is a circuit diagram of a heating control circuit of an electric cooker according to a second embodiment of the present invention;
4 is a circuit diagram of a heating control circuit of an electric cooker according to a third embodiment of the present invention;
5 is a circuit diagram of a heating control circuit of an electric cooker according to a fourth embodiment of the present invention;
6 is a flowchart of a heating control method of an electric cooker according to an embodiment of the present invention, and
7 is a flowchart of a heating control method of an electric cooker according to another embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail, examples of which are illustrated in the drawings, wherein the same or similar symbols from beginning to end indicate the same or similar members or members having the same or similar functions. The embodiments described below with reference to the drawings are illustrative and are intended to explain the present invention and should not be understood as a limitation on the present invention.

Hereinafter, a heating control circuit of an electric cooker and a heating control method of the electric cooker and the electric cooker provided by an embodiment of the present invention will be described with reference to the drawings.

2 is a circuit diagram of a heating control circuit of the electric cooker according to the first embodiment of the present invention. As shown in FIG. 2 , the circuit includes a first heating unit 10 , a first switch unit S1 , a PTC heating unit 20 and a second switch unit S2 .

Here, the first switch unit S1 is connected in series with the first heating unit 10 and then connected in parallel to the power supply circuit of the electric cooker. The PTC heating unit 20 and the second switch unit S2 include at least one, and each PTC heating unit 20 of the at least one PTC heating unit 20 includes at least one second switch unit S2 . Each of the second switch unit (S2) and one-to-one correspondence in series, and each of the series-connected PTC heating unit 20 and the second switch unit (S2) is connected in parallel with the first switch unit (S1), respectively. The first heating unit 10 and the at least one PTC heating unit 20 are heated correspondingly according to the on-off state of the first switch unit S1 and the on-off state of the at least one second switch unit S2. proceed with

Furthermore, as shown in FIG. 3 , when the at least one PTC heating unit 20 is one, the at least one second switch unit S2 is one, where one end of the first heating unit 10 is is connected to the first end of the power supply circuit (eg, the power line L) and the other end of the first heating unit 10 is connected to one end of the first switch unit S1 to connect the first node Q1 and the other end of the first switch unit (S1) is connected to the second end (eg, the ground line (N)) of the power supply circuit, and one end of the PTC heating unit 20 is connected to the first node (Q1) and PTC heating The other end of the unit 20 is connected to one end of the second switch unit S2 and the other end of the second switch unit S2 is connected to the second end (eg, the ground line N) of the power supply circuit.

In an embodiment of the present invention, the first heating unit 10 includes a bottom heating plate installed to correspond to the bottom of the electric cooker, and the PTC heating unit 20 includes a PTC heater installed to correspond to the upper lid of the electric cooker. .

Specifically, the first heating unit 10 is a bottom heating plate with relatively high power and is responsible for the cooking and heating work of the electric cooker, and the first switch unit S1 is a switch of the bottom heating plate and is responsible for controlling the turn-on and turn-off of the bottom heating plate. do. The PTC heating unit 20 is a PTC heater and is in charge of heating and keeping the upper lid of the electric cooker, and the second switch unit S2 is a switch of the PTC heater and is responsible for turning on and turning off the PTC heating unit 20 do. As can be seen from Figs. 2 and 3, in any case, even if the PTC heating unit 20 is short-circuited, it ensures that there is always a load on the power line L and the ground line N, and other systems of the electric cooker are involved. This improved the working reliability of the electric cooker. And since the price of the PTC is relatively low, the cost of the electric cooker can be saved.

Further, according to an embodiment of the present invention, when the first switch unit S1 is turned on and the second switch unit S2 is turned off, the first heating unit 10 is heated to full power and PTC The heating unit 20 is not heated, where if the PTC heating unit 20 is short-circuited, the electric cooker maintains its current working state. When the first switch unit S1 is turned on and the second switch unit S2 is turned on, the first heating unit 10 performs heating with full power and the PTC heating unit 20 is not heated, where If the PTC heating unit 20 is short-circuited, the electric cooker maintains the current working state.

When the first switch unit S1 is turned off and the second switch unit S2 is turned off, the first heating unit 10 is not heated and the PTC heating unit 20 is not heated, where if the PTC When the heating unit 20 is short-circuited, the electric cooker maintains the current working state. When the first switch unit S1 is turned off and the second switch unit S2 is turned on, the first heating unit 10 is heated with very little power and the PTC heating unit 20 is heated with full power, , where if the PTC heating unit 20 is short-circuited, the first heating unit 10 proceeds to heat with full power.

Specifically, as shown in FIG. 3, when the first switch unit (S1) is turned on and the second switch unit (S2) is turned off, the first heating unit 10 performs a heating operation with full power and The PTC heating unit 20 is not working. At this time, if the PTC heating unit 20 is short-circuited, the electric cooker maintains the current working state.

When the first switch unit S1 is turned on and the second switch unit S2 is turned on, the voltages at both ends of the PTC heating unit 20 are the same, so the PTC heating unit 20 does not work and the first The heating unit 10 performs the heating operation with full power. At this time, even if the PTC heating unit 20 has a short circuit failure, it will not affect the working state of the first heating unit 10 and the electric cooker maintains the current working state. keep

When the first switch unit S1 is turned off and the second switch unit S2 is turned off, both the first heating unit 10 and the PTC heating unit 20 do not work, and if the PTC heating unit (20) When this short circuit occurs, the electric cooker maintains the current working state.

When the first switch unit S1 is turned off and the second switch unit S2 is turned on, the first heating unit 10 and the PTC heating unit 20 are connected in series to perform a heating operation. Since the impedance of the PTC heating unit 20 increases in a stepwise form as the temperature rises, most of the voltage drop is applied to the PTC heating unit 20 , and the partial pressure of the first heating unit 10 is very small. Although the first heating unit 10 and the PTC heating unit 20 are connected in series to perform the heating operation, in fact, the heating power of the first heating unit 10 is very small and the electric cooker performs the heating operation. At this time, if a short circuit failure occurs in the PTC heating unit 20, the first heating unit 10 heats with full power, and the electric cooker only loses the warming function and is located between the power line (L) and the ground line (N). It will prevent the occurrence of a short-circuit in the electric cooker, prevent the occurrence of burnout of the electric cooker, and improve the working reliability of the electric cooker.

As can be seen from the above description, in the heating control circuit of the electric cooker according to the embodiment of the present invention, there is always a load between the power line (L) and the ground line (N) even if the PTC heating unit 20 is short-circuited. Therefore, a situation in which the entire system of the electric cooker is not burned will not occur, and the operation reliability of the electric cooker is improved.

In the embodiment of the present invention, the first switch unit (S1) and the second switch unit (S2) may be understood that may be a mechanical switch or an electronic switch. When both the first switch unit (S1) and the second switch unit (S2) are electronic switches, as shown in FIG. 4 , for example, the PTC heating unit 20 is one, the first switch unit (S1) is It may be a relay and the second switch unit S2 may be a triac.

When the first switch unit S1 and the second switch unit S2 use electronic switches, the short circuit failure of the PTC heating unit 20 is identified and the user is informed so that the user can repair it as early as possible. Specifically, as shown in FIG. 5 , the heating control circuit of the electric cooker may further include a failure detection unit 30 and a control unit 40 .

Here, the failure detection unit 30 is used to detect whether a short circuit has occurred in each of the PTC heating units 20 . The control unit 40 is interconnected with the fault detection unit 30, and when the fault detection unit 30 detects the occurrence of a short circuit in any one PTC heating unit 20, the control unit 40 generates a corresponding short circuit. The second switch unit 20 corresponding to the PTC heating unit 20 is controlled to be turned off.

Specifically, as shown in FIG. 5 , the failure detection unit 30 may be a resistor used to collect a current signal, and the control unit 40 controls the second switch unit S2 according to the current signal. Here, when the PTC heating unit 20 works normally, the failure detection unit 30 may collect a normal current signal. However, if any one PTC heating unit 20 has a short circuit failure, the failure detection unit 30 fails to collect the current signal of the corresponding channel, and at this time, the control unit 40 controls the corresponding second switch unit ( S2) can be controlled to be turned off to save energy.

In addition, the control unit 40 controls the corresponding notification unit after turning off the second switch unit S2 of the corresponding faulty channel to inform the user so that the user can make repairs as early as possible.

In summary, the heating control circuit of the electric cooker according to the embodiment of the present invention is connected in parallel to the power supply circuit of the electric cooker after the first switch unit is connected in series with the first heating unit, and each of the at least one PTC heating unit The PTC heating unit is connected in series with each second switch unit of the at least one second switch unit in a one-to-one correspondence, and each series-connected PTC heating unit and the second switch unit are respectively connected in parallel with the first switch unit and connected to the first The heating unit and the at least one PTC heating unit perform a heating operation correspondingly according to the on-off state of the first switch unit and the on-off state of the at least one second switch unit. This circuit uses the characteristic that the impedance of the PTC heating unit automatically changes with temperature, so that if the PTC heating unit is short-circuited, it may not affect the normal operation of other systems of the electric cooker, and the operation reliability of the electric cooker can be improved as well as cost savings. In addition, when the occurrence of a short circuit in any one PTC heating unit is detected, the circuit controls the second switch unit corresponding to the corresponding PTC heating unit in which the short circuit occurs to turn off to save energy.

The present invention further provides an electric cooker including a heating control circuit of the electric cooker.

In the electric cooker of the embodiment of the present invention, when the PTC heating unit is short-circuited through the heating control circuit of the electric cooker, the normal operation of other systems of the electric cooker may not be affected and the operation reliability of the electric cooker may be improved. Not only can you do it, but you can also save money.

In addition, the present invention further provides a method for controlling heating of an electric cooker, and the following describes a method for controlling heating of an electric cooker provided by the present invention by combining specific embodiments.

6 is a flowchart of a heating control method of an electric cooker according to an embodiment of the present invention. Here, as shown in FIG. 2 , the electric cooker includes a first heating unit, a first switch unit, at least one PTC heating unit, and at least one second switch unit, and the first switch unit is in series with the first heating unit. connected in parallel to the power supply circuit of the electric cooker, each PTC heating unit of the at least one PTC heating unit is connected in series with a second switch unit of the at least one second switch unit in a one-to-one correspondence with each of the series The connected PTC heating unit and the second switch unit are respectively connected in parallel with the first switch unit. As shown in FIG. 6 , the heating control method of the electric cooker includes the following steps.

The on-off state of the first switch unit is detected and the on-off state of at least one second switch unit is detected ( S10 ).

According to the on-off state of the first switch unit and the on-off state of the at least one second switch unit, the first heating unit and the at least one PTC heating unit are controlled to perform a corresponding heating operation (S20).

Furthermore, as shown in FIG. 3 , when at least one PTC heating unit is one, at least one second switch unit is one, and one end of the first heating unit is a first end of the power supply circuit (eg, a power line) and the other end of the first heating unit is connected to one end of the first switch unit to have a first node, and the other end of the first switch unit is connected to the second end (eg, ground wire) of the power supply circuit and PTC heating One end of the unit is connected to the first node, the other end of the PTC heating unit is connected to one end of the second switch unit, and the other end of the second switch unit is connected to the second end (eg, a ground line) of the power supply circuit.

Here, when the first switch unit is turned on and the second switch unit is turned off, the first heating unit performs heating at full power, and the PTC heating unit does not heat, wherein if the PTC heating unit is short-circuited, the electricity The cooker maintains the current working state.

When the first switch unit is turned on and the second switch unit is turned on, the first heating unit heats at full power, and the PTC heating unit does not heat, where if the PTC heating unit is short-circuited, the electric cooker is currently maintain working condition.

When the first switch unit is turned off and the second switch unit is turned off, the first heating unit does not heat and the PTC heating unit does not heat, wherein if the PTC heating unit short circuit occurs, the electric cooker is currently working keep the status

When the first switch unit is turned off and the second switch unit is on, the first heating unit heats with very little power and the PTC heating unit heats with full power, where if the PTC heating unit is short-circuited, the 1 The heating unit performs heating at full power.

Specifically, when the first switch unit is turned on and the second switch unit is turned off, the first heating unit performs heating at full power and the PTC heating unit does not work. At this time, if the PTC heating unit is short-circuited, the electric cooker maintains the current working state.

When the first switch unit is turned on and the second switch unit is turned on, since the voltages at both ends of the PTC heating unit are the same, the PTC heating unit does not work, and the first heating unit performs heating at full power. At this time, PTC heating Even if a short circuit failure occurs in the unit, it will not affect the working state of the first heating unit, and the electric cooker maintains the current working state.

When the first switch unit is turned off and the second switch unit is turned off, both the first heating unit and the PTC heating unit do not work, and if the PTC heating unit is short-circuited at this time, the electric cooker returns to the current working state. keep

When the first switch unit is turned off and the second switch unit is turned on, the first heating unit and the PTC heating unit are connected in series to perform a heating operation. Since the impedance of the PTC heating unit increases in a step form as the temperature rises, most of the voltage drop is applied to the PTC heating unit, and the partial pressure of the first heating unit is very small, and the first heating unit and the PTC heating unit are connected in series to perform the heating operation. However, in fact, the heating power of the first heating unit is very small, and the electric cooker performs the warming operation. At this time, if a short circuit failure occurs in the PTC heating unit, the first heating unit performs heating with full power so that a short circuit does not occur between the power line and the ground line, and the occurrence of a phenomenon in which the electric cooker is burned is prevented and the electric cooker is heated. work reliability was improved.

As can be seen from the above, even if a short circuit failure occurs in the PTC heating unit, there is always a load between the power line and the ground line, so the entire system of the electric cooker will not burn out, and the work reliability of the electric cooker will be improved. did.

According to an embodiment of the present invention, as shown in FIG. 7 , the heating control method of the electric cooker is

Checking whether a short circuit occurs in each PTC heating unit (S30),

The method further includes the step of controlling a second switch unit corresponding to the corresponding PTC heating unit in which the short circuit occurs when a short circuit in any one PTC heating unit is detected to be turned off (S40).

Specifically, as shown in Fig. 5, a current signal can be collected through a fault detection unit to detect whether a short circuit has occurred in each PTC heating unit, and then turn on or turn off the second switch unit according to the current signal. Control. Here, when the PTC heating unit is working normally, the fault detection unit can collect a normal current signal. However, when a short circuit failure occurs in any one PTC heating unit, the failure detection unit fails to collect the current signal of the corresponding channel, and at this time, the corresponding second switch unit is controlled to be turned off, thereby saving energy.

In addition, after turning off the second switch unit of the corresponding fault channel, the corresponding notification unit is controlled to notify the user so that the user can make repairs as early as possible.

In summary, the heating control method of the electric cooker according to the embodiment of the present invention can improve the operation reliability of the electric cooker without affecting the normal operation of other systems of the electric cooker when the PTC heating unit is short-circuited. but also cost savings. In addition, in the case of detecting the occurrence of a short circuit in any one PTC heating unit, the method controls the second switch unit corresponding to the PTC heating unit having the corresponding short circuit to be turned off to save energy.

In the description of the present invention, “center”, “longitudinal”, “transverse”, “length”, “width”, “thickness”, “top”, “bottom”, “front”, “after”, “left” ", "Right", "Vertical", "Horizontal", "Top", "Bottom", "Inner", "Outer", "Clockwise", "Counterclockwise", "Axial", "Radial" The direction or positional relationship indicated by terms such as , "outer circumferential direction", etc. is a direction or positional relationship indicated in the drawings, and is for convenient and simple explanation of the present invention, and the pointing device or member has a specified direction and a specified direction It does not indicate or imply that it may be constructed or operated as a

In addition, the terms "first" and "second" are for the purpose of describing the purpose and should not be construed as implicitly indicating the number of technical features indicating or implying or indicating relative importance. Thus, a feature to which a “first” or a “second” is defined includes explicitly or implicitly at least one such feature. Unless explicitly specifically limited in the description of the present invention, "a plurality" means at least two, such as two, three, and the like.

Unless specifically defined and limited in the present invention, terms such as “mounting”, “connecting to each other”, “connecting”, “fixing” and the like should be understood in a broad sense. For example, it may be fixedly connected, detachably connected or integrally connected, mechanically connected, electrically connected, directly connected, and indirectly connected through an intermediate medium, two It may be an internal communication of members or an interactive relationship of two members. A person skilled in the art can understand the specific meaning of the above terms in the present invention according to specific circumstances.

Unless explicitly specifically defined and limited in the present invention, that a first feature is “on” or “under” a second feature means that the first and second features directly contact, or that the first and second features are It can be indirectly contacted through an intermediate medium. And, that a first feature is “above,” “above,” and “above” a second feature means that the first feature is directly above or obliquely above the second feature or that the horizontal height of the first feature is the second feature Only higher values can be indicated. A first feature being “below,” “below,” and “under” a second feature means that the first feature is directly below or obliquely below the second feature or that the horizontal height of the first feature is the second feature. It can only indicate that it is less than.

In the description of this specification, the description referring to terms such as "one embodiment", "some embodiments", "examples", "specific examples" or "some examples" refers to specific features described in combination with the above embodiments or examples, A structure, material, or feature is meant to be included in at least one embodiment or example of the present invention. In this specification, exemplary expressions for the above terms are not necessarily referring to the same embodiment or example. And, the specific features, structures, materials, or characteristics described may be combined in any suitable manner in any one or several embodiments or examples. In addition, a person skilled in the art may combine and combine other embodiments or examples and features of other embodiments or examples described herein without contradicting each other.

Although the embodiments of the present invention have been shown and described above, the embodiments are illustrative and should not be construed as limiting the present invention, and those skilled in the art can change, modify, and replace the embodiments within the scope of the present invention. and deformable.

Claims (11)

a first heating unit 10;
a first switch unit (S1) connected in series with the first heating unit (10) and then connected in parallel to the power supply circuit of the electric cooker; and
Each PTC heating unit 20 is connected in series with each of the second switch units S2 in a one-to-one correspondence, and each of the series-connected PTC heating units 20 and the second switch unit S2 is connected to the first switch, respectively. At least one PTC heating unit 20 and at least one second switch unit S2 connected in parallel with the unit S1,
Here, the first heating unit 10 and the at least one PTC heating unit 20 are in an on-off state of the first switch unit S1 and an on-off state of the at least one second switch unit S2. In accordance with the corresponding heating operation,
The first switch unit (S1) is a relay and the second switch unit (S2) is a triac,
The first heating unit 10 includes a bottom heating plate installed to correspond to the bottom of the electric cooker, and the PTC heating unit 20 includes a PTC heater installed to correspond to the upper lid of the electric cooker,
When the first switch unit S1 is turned off and the second switch unit S2 is turned on, the first heating unit 10 and the PTC heating unit 20 are connected in series to perform a heating operation. progress, and, since the impedance of the P TC heating unit 20 is increased in steps of forms depending on the increase in temperature the partial pressure of most of the voltage drop is caught by the PTC heating unit 20, the first heating unit 10 is very small, At this time, if the PTC heating unit 20 has a short circuit failure, the first heating unit 10 heats the electric cooker with full power. According to claim 1,
When the at least one PTC heating unit 20 is one, the at least one second switch unit S2 is one, wherein one end of the first heating unit 10 is connected to the first end of the power supply circuit connected to each other and the other end of the first heating unit 10 is connected to one end of the first switch unit S1 to have a first node Q1, and the other end of the first switch unit S1 is connected to the power supply The second end of the circuit is connected to each other, one end of the PTC heating unit 20 is connected to the first node Q1, and the other end of the PTC heating unit 20 is connected to one end of the second switch unit S2. The heating control circuit of the electric cooker, characterized in that connected to each other and the other end of the second switch unit (S2) is connected to the second end of the power supply circuit. 3. The method of claim 2,
When the first switch unit S1 is turned on and the second switch unit S2 is turned off, the first heating unit 10 performs heating with full power and the PTC heating unit 20 does not heat, where if the PTC heating unit 20 is short-circuited, the electric cooker maintains its current working state,
When the first switch unit S1 is turned on and the second switch unit S2 is turned on, the first heating unit 10 performs heating with full power and the PTC heating unit 20 is No heating, where if the PTC heating unit 20 is short-circuited, the electric cooker maintains its current working state,
When the first switch unit S1 is turned off and the second switch unit S2 is turned off, the first heating unit 10 is not heated and the PTC heating unit 20 is not heated. and, if the PTC heating unit 20 is short-circuited, the electric cooker maintains its current working state. 4. The method according to any one of claims 1 to 3,
The heating control circuit of the electric cooker, characterized in that the first switch unit (S1) and the second switch unit (S2) are electronic switches. 5. The method of claim 4,
a failure detection unit 30 used to check whether a short circuit has occurred in each of the PTC heating units 20; and;
When the failure detection unit 30 is connected to each other and the failure detection unit 30 detects the occurrence of a short circuit in any one of the PTC heating units 20, the second corresponding to the PTC heating unit 20 in which the short circuit occurs. 2 The heating control circuit of the electric cooker, characterized in that it further comprises a control unit (40) for controlling the switch unit (S2) to be turned off. The electric cooker according to any one of claims 1 to 3, comprising a heating control circuit of the electric cooker. In the heating control method of an electric cooker,
the electric cooker
a first heating unit;
a first switch unit connected in series with the first heating unit and then connected in parallel to a power supply circuit of the electric cooker; and
Each PTC heating unit is connected in series with each second switch unit in a one-to-one correspondence, each series-connected PTC heating unit and a second switch unit are each connected in parallel with the first switch unit and at least one PTC heating unit and at least one comprising one second switch unit,
detecting an on-off state of the first switch unit and detecting an on-off state of the at least one second switch unit; and
Controlling the heating operation corresponding to the first heating unit and the at least one PTC heating unit to proceed according to the on-off state of the first switch unit and the on-off state of the at least one second switch unit and,
the first switch unit is a relay and the second switch unit is a triac,
The first heating unit includes a bottom heating plate installed to correspond to the bottom of the electric cooker, the PTC heating unit includes a PTC heater installed to correspond to the upper lid of the electric cooker,
When the first switch unit is turned off and the second switch unit is turned on, the first heating unit and the PTC heating unit are connected in series to perform a heating operation, and the impedance of the PTC heating unit increases the temperature As it increases in a stepwise fashion, most of the voltage drop is applied to the PTC heating unit, and the partial pressure of the first heating unit is very small. At this time, if the PTC heating unit has a short circuit failure, the first heating unit heats with full power Heating control method of an electric cooker, characterized in that. 8. The method of claim 7,
When the at least one PTC heating unit is one, the at least one second switch unit is one, and one end of the first heating unit is connected to the first end of the power supply circuit and the other end of the first heating unit is connected to each other. One end of the first switch unit is connected to each other to have a first node, the other end of the first switch unit is connected to the second end of the power supply circuit, and one end of the PTC heating unit is connected to the first node. and the other end of the PTC heating unit is connected to one end of the second switch unit and the other end of the second switch unit is connected to the second end of the power supply circuit, where
When the first switch unit is turned on and the second switch unit is turned off, the first heating unit performs heating at full power and the PTC heating unit does not heat, wherein if the PTC heating unit is When a short circuit occurs, the electric cooker maintains the current working state,
When the first switch unit is turned on and the second switch unit is turned on, the first heating unit performs heating at full power and the PTC heating unit does not heat, wherein if the PTC heating unit is short-circuited When this occurs, the electric cooker maintains the current working state,
When the first switch unit is turned off and the second switch unit is turned off, the first heating unit does not heat and the PTC heating unit does not heat, wherein if the PTC heating unit is short-circuited When the heating control method of the electric cooker, characterized in that the electric cooker maintains the current working state. 9. The method of claim 7 or 8,
detecting whether a short circuit has occurred in each of the PTC heating units;
The heating control method of an electric cooker, further comprising: when a short circuit in any one PTC heating unit is detected, controlling a second switch unit corresponding to the PTC heating unit in which the short circuit occurs to be turned off . delete delete

Images