KR100917902B1 - Electric range including a plurarity of heater and power control method thereof - Google Patents

Abstract

An electric range and a power control method thereof are provided to prevent a fire due to generation of heat of an electric connector by automatically limiting power consumption of an electric range under an allowable value. An electric range includes a plurality of heating bodies(104a~104c), a control part(120), a plurality of switching devices(SW1~SW3), and a state display part(130). The control part generates a plurality of first control signals for limiting power consumption of a plurality of heating bodies under an allowable value by controlling an operation section of a plurality of heating bodies. Each switching device is connected between a corresponding heating body and a power supply part(140). Each switching device is selectively short-circuited in response to the first control signal. The state display part displays an operation state of the electric range in response to a second control signal of the control part.

Description

Electric range including a plurarity of heater and power control method

The present invention relates to an electric range, and more particularly, to an electric range including a plurality of heating elements and a method for controlling the power of the plurality of heating elements included in the electric range.

Recently, there has been a growing interest in environmentally friendly and energy efficient electric ranges. Electric ranges using heating elements consume more power than other home appliances. If power is continuously supplied to a heating element of an electric range without considering the electric environment of a normal home, the power consumption may be out of tolerance and the breaker may be cut off, and a fire may occur due to the heat of the electrical connection port.

Therefore, the technical problem to be achieved by the present invention is an electric range that can limit the power consumption of the electric range within the allowable range by distributed control in the power time division method supplied to the plurality of heating elements in the electric range including a plurality of heating elements and It is to provide a power control method.

The electric range for achieving the technical problem may include a plurality of heating elements, a control unit, a plurality of switching elements, an operation unit, a status display unit, and a power measurement unit.

The controller may generate a plurality of first control signals for limiting power consumption of the plurality of heating elements to within an allowable value by controlling an operation period of each of the plurality of heating elements within a predetermined period. Each of the plurality of switching elements may be connected between a corresponding one of the plurality of heating elements and a power supply, and may be selectively shorted in response to a corresponding first control signal among the plurality of first control signals.

The operation unit may output a plurality of commands generated by a user's operation to the controller. The state display unit may indicate an operating state of the electric range in response to a second control signal output from the controller. The power measurement unit may measure the power consumption of each of the plurality of heating elements and output the power to the controller.

The electric range may control the output of the at least one first heating element to the maximum output when the at least one first heating element starts to operate and the maximum power consumption of the at least one first heating element is less than the allowable value. In this case, the electric range may control the output of the second heating element starting the operation to a predetermined output between the minimum output and the maximum output.

The electric range may include an operation period of one of the first heating elements and the second heating element when the sum of the maximum power consumption of the at least one first heating element in operation and the maximum power consumption of the second heating element starting the operation are greater than or equal to the allowable value. The operation sections may be controlled so as not to overlap each other. In this case, the electric range may reduce the operation section of the one first heating element in the cycle and operate the second heating element during the operation section of the reduced one of the first heating element, the second heating element The output of can be controlled to the minimum output.

The electric range is reduced by the operation period of any one of the first heating element when the sum of the power consumption of the at least one first heating element and the power consumption of the second heating element is greater than the allowable value due to the increased output of the second heating element. An operation section of the second heating element may be increased.

The electric power control method of the electric range including a plurality of heating elements according to an embodiment of the present invention by controlling the operating period of each of the plurality of heating elements in a certain period of the plurality of power to limit the power consumption of the plurality of heating elements within the allowable value; Generating first control signals of; And selectively shorting the switching elements connected between a corresponding heating element of the plurality of heating elements and a power supply unit in response to a corresponding first control signal among the plurality of first control signals. .

The electric power control method of the electric range comprises the steps of: outputting a plurality of commands generated by the user's operation to the control unit for controlling the electric range; Indicating an operating state of the electric range in response to a second control signal output from the controller; And measuring power consumption of each of the plurality of heating elements and outputting the measured power to the controller.

The electric power control method of the electric range includes controlling the output of the at least one first heating element to the maximum output when at least one first heating element starts to operate and the maximum power consumption of the at least one first heating element is less than the allowable value. It may include a step. In this case, the output of the second heating element that starts the operation may be controlled as an intermediate output between the minimum output and the maximum output.

The electric power control method of the electric range includes an operation section of any one first heating element when the sum of the maximum power consumption of the at least one first heating element in operation and the maximum power consumption of the second heating element starting the operation are greater than or equal to the allowable value. It may include controlling so that the operation section of the second heating element does not overlap each other. In this case, an operation section of the first heating element is reduced within the period, and the second heating element may be operated during the operation section of the reduced first heating element, and the output of the second heating element is at a minimum output. Can be controlled.

The electric power control method of the electric range includes the operation of one of the first heating elements when the sum of the power consumption of the at least one first heating element and the power consumption of the second heating element is greater than or equal to the allowable value due to an increase in the output of the second heating element. It may include reducing the interval and increasing the operation interval of the second heating element.

As described above, the electric range and the power control method including a plurality of heating elements according to the present invention can automatically limit the power consumption of the electric range to below the allowable value to prevent the breaker of the breaker and the fire due to the heat of the electrical connection port. It has an effect.

In order to fully understand the present invention, the operational advantages of the present invention, and the objects achieved by the practice of the present invention, reference should be made to the accompanying drawings which illustrate preferred embodiments of the present invention and the contents described in the accompanying drawings.

In the present specification, when one component 'transmits' data or a signal to another component, the component may directly transmit the data or signal to the other component, and at least one other component. Through this means that the data or signal can be transmitted to the other component.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. Like reference numerals in the drawings denote like elements.

1 is a perspective view showing an electric range 100 according to an embodiment of the present invention. 2 is a block diagram illustrating an electric range 100 according to an exemplary embodiment of the present invention. Referring to FIGS. 1 and 2, the electric range 100 includes a plate 101, a body 102, and a plurality of heating elements. Fields 104a, 104b, and 104c, the operation unit 110, the control unit 120, the plurality of switching elements SW1, SW2, and SW3, the status display unit 130, the power supply unit 140, and the power measurement unit And 150.

The plate 101 is a plate covering the upper surface of the electric range 100 and is preferably made of a material (eg, special ceramic) that is resistant to heat generated from the heating element and transfers the heat generated from the heating element to the container. Do.

Each of the plurality of heating elements 104a, 104b, and 104c generates heat based on the power supplied from the power supply 140, and the user may use the heat for cooking. Each of the plurality of heating elements 104a, 104b, and 104c may have a different power consumption.

At least one of the plurality of heating elements 104a, 104b, and 104c may change a range in which heat is generated according to the size of a container used for cooking. For example, when using a small container it is possible to reduce the radius of the heating element that generates heat, and when using a large container it can increase the radius of the heating element that generates heat.

The operation unit 110 outputs a plurality of commands CMD generated by a user's operation to the control unit 120. The plurality of commands CMD include a command for selecting a heating element to be used from among the plurality of heating elements 104a, 104b, and 104c, a command for controlling the output of the selected heating element, and controlling an operation time of the selected heating element. Order may be included.

The controller 120 may control the output of the plurality of heating elements 104a, 104b, and 104c by controlling an operation time of each of the plurality of heating elements 104a, 104b, and 104c within a predetermined period. The power consumption of the plurality of heating elements 104a, 104b, and 104c may be limited to within an allowable value by controlling an operation section of each of the plurality of heating elements 104a, 104b, and 104c. To this end, the controller 120 generates a plurality of first control signals CS11, CS12, and CS13.

For example, if the period is 30 seconds and the operating time of the heating element is 30 seconds, it is assumed that the output of the heating element is maximum. The controller 120 may gradually reduce the output of the heating element by gradually reducing the operation time of the heating element by a predetermined unit (for example, 2 seconds) within 30 seconds. In addition, the controller 120 may control the number of heating elements operating simultaneously by controlling a section in which each of the plurality of heating elements 104a, 104b, and 104c operate, and by selecting the heating elements operating at the same time, The power consumption of 100) can be limited within the allowable value.

Each of the plurality of switching elements SW1, SW2, and SW3 is connected between a corresponding one of the plurality of heating elements 104a, 104b, and 104c and a power supply unit 140, and the plurality of first controls. It is selectively shorted in response to a corresponding first control signal among the signals CS11, CS12, and CS13. That is, whether the power is supplied to the plurality of heating elements 104a, 104b, and 104c is determined by the switching operation of the plurality of switching elements SW1, SW2, and SW3.

The state display unit 130 indicates an operation state of the electric range 100 in response to the second control signal CS2 output from the controller 120. The operating state of the electric range 100 may include an operating heating element, a temperature of the operating heating element, an output of the operating heating element, an operating time of the operating heating element, and an operation remaining time of the operating heating element.

The power measurement unit 150 may measure the power consumption of each of the plurality of heating elements 104a, 104b, and 104c at the time when power is supplied to the electric range 100, and output the power to the controller 120. have. Then, the controller 120 may control whether the plurality of heating elements 104a, 104b, and 104c are operated based on the measured power consumption. For reference, the power consumption of the heating element of the electric range may be a value stored and set to a constant value in the manufacturing process of the heating element.

The electric range 100 may control the output of the first heating element to the maximum output when only the first heating element starts to operate and the maximum power consumption of the first heating element is less than the allowable value. For example, when the allowable value is 3.3 kW and the power consumption of the first heating element is 1650 W, the electric range 100 may control the output of the first heating element to the maximum.

3 is a flowchart illustrating a power control method of the electric range 100 according to the embodiment of the present invention when only one heating element is operated. Hereinafter, the process will be described in detail with reference to FIGS. 1 to 3.

When the first heating element starts to operate (S30), the controller 120 determines whether the maximum power consumption of the first heating element is less than the allowable value (S31). The maximum power consumption of the first heating element may be a value measured by the power measuring unit 150 and output to the control unit 120. If the power consumption of the first heating element is less than the allowable value, the controller 120 may control the output of the first heating element to the maximum (S32). However, if the power consumption of the first heating element is greater than or equal to the allowable value, the controller 120 may limit the output of the first heating element to less than or equal to the allowable value (S33).

FIG. 3 shows that those outputs can be controlled to the maximum when the sum of their power consumption is less than the allowable value even when only one heating element starts to operate or when a plurality of heating elements start to operate simultaneously. It will be obvious.

When the sum of the maximum power consumption of the at least one first heating element that is in operation and the maximum power consumption of the second heating element that starts to operate is equal to or greater than the allowable value, the electric range 100 of any one of the at least one first heating elements is selected. By controlling the operation section of the first heating element and the operation section of the second heating element not to overlap each other, the power consumption of the electric range 100 may be controlled to be less than the allowable value.

In this case, the electric range 100 may reduce the operation section of the one of the first heating element within a predetermined period and operate the second heating element during the operation section of the reduced one of the first heating element, The output of the second heating element can be controlled to a minimum.

If the sum of the power consumption of the at least one first heating element and the power consumption of the second heating element is greater than or equal to the allowable value due to an increase in output of the second heating element which has started operation, the electric range 100 The electric range 100 by reducing the operation section of any one of the first heating element, and increasing the operation section of the second heating element corresponding to the reduced operation section of any one first heating element. It is also possible to control the power consumption of less than the allowable value.

On the other hand, when the sum of the power consumption of the at least one first heating element in operation and the power consumption of the second heating element starting operation is less than the allowable value, the output of the second heating element may be controlled to the maximum, and controlled to an intermediate output. May be At this time, the output of the second heating element may be arbitrarily determined in the manufacturing step.

4 is a flowchart illustrating a power control method of the electric range 100 according to an embodiment of the present invention when two heating elements are operated. Hereinafter, the process will be described in detail with reference to FIGS. 1, 2, and 4.

When the second heating element starts to operate while one first heating element is in operation (S41), the controller 120 determines whether the maximum power consumption of the heating elements is lower than an allowable value (S42). If the maximum power consumption of the heating elements is less than the allowable value, the control unit 120 may control the output of the second heating element to a predetermined output between the minimum output and the maximum output (S43), otherwise the control unit 120 The control unit may reduce the output period of the first heating element by reducing the operating period of the first heating element within a predetermined period, and may control the second heating element to operate in response to the reduced operating period of the first heating element. At this time, the output of the second heating element can be controlled to the minimum (S44).

Then, when the user increases the output of the second heating element (S45), the control unit 120 determines again whether the power consumption of the heating elements is less than the allowable value (S46). In this case, it is assumed that other heating elements other than the first and second heating elements start operation between steps S43 and S45.

If the power consumption of the heating elements is less than the allowable value, the control unit 120 may increase the operation section corresponding to the increase in the output of the second heating element (S47), otherwise, the control unit 120 within a certain period By reducing the operating period of the first heating element, the output of the first heating element may be reduced and the operating period of the second heating element may be increased in correspondence to the reduced operating period of the first heating element (S48).

5 is a timing diagram illustrating a power control method of the electric range 100 according to the embodiment of the present invention. Hereinafter, the process will be described in detail with reference to FIGS. 1, 2, and 5.

In FIG. 5, the electric range 100 includes first to fourth heating elements having a maximum power consumption of 1650 W, 1100 W, 1000 W, and 1200 W, respectively, and a power allowance of 3.3 kW.

At the time t1, the first heating element starts to operate. Since the maximum power consumption of the first heating element is 3.3 kW or less at 1650 W, the output of the first heating element may be controlled to the maximum. In addition, the second heating element starts to operate at the time t2 when the first heating element is in operation, and the sum of the maximum power consumption of the first heating element and the maximum power consumption of the second heating element is 2750 W, which is less than 3.3 kW, so that the first heating element is operated. Both the heating element and the output of the second heating element can be controlled to the maximum.

The third heating element operation command is output to the control unit 120 at a time t3 when the first heating element and the second heating element are operated. However, the third heating element starts operation substantially at time t4. This is for the plurality of heating elements to be operated according to a common constant period. For example, assuming that the period is 30 seconds and the third heating element operation command is generated in the middle of 15 seconds, the third heating element can start operation substantially only after the remaining 15 seconds have elapsed. Therefore, the time difference between the time t3 and the time t4 may have a value between 0 seconds and 30 seconds.

At the time t4, the maximum power consumption of the heating elements is 3750 W, exceeding 3.3 kW. The control unit 120 reduces the operation section of the first heating element within a predetermined period, and operates the third heating element in a period from time t4 to time t5 corresponding to the reduced operation period of the first heating element. Let's do it.

When the output increase command of the third heating element is output to the controller 120 at the time t6, the third heating element increases the output from the time t7. The reason why the output of the third heating element is increased from time t7 is to allow the plurality of heating elements to be operated at a common constant period. Referring to FIG. 5, it can be seen that the operation section of the first heating element after the time t7 is further reduced while the operation section of the third heating element (from t7 to t8) is further increased correspondingly.

When the output reduction command of the second heating element is output to the control unit 120 at a time t9, which is a start point of a predetermined period, the control unit 120 controls the operation period of the second heating element to reduce the output of the second heating element. Decrease immediately. When the output increase command of the second heating element is output to the control unit 120 at a time t10 that is not a start point of a predetermined period, the control unit 120 starts the operation section of the second heating element from a time t12 after a predetermined time elapses. Increase.

The power consumption of the heating elements exceeds the allowable value due to the increase in the output of the second heating element, so that the controller 120 further reduces the operation section of the first heating element from time t11 to time t12 and reduces the first heating element. The operation section of the second heating element is increased in correspondence to the operation section of.

When an operation command of the fourth heating element is output to the controller 120 at a time t13 that is not a start point of a predetermined period, the controller 120 starts the fourth heating element from a time t14 when a predetermined time elapses from a time t13. Operate. 5 illustrates a case in which an operation section of the fourth heating element is controlled so that power consumption of the heating elements is within an allowable value even when the fourth heating element starts to operate. Therefore, there is no change in the operation section of the other heating elements.

If the command to increase the output of the first heating element is output to the controller 120 at a time t15 that is not a start point of a predetermined period, the controller 120 starts from the time t16 when a predetermined time elapses from the time t15. The operating section of the first heating element is increased to the section between the time t16 and the time t17. Since the power consumption of the heating elements exceeds an allowable value due to an increase in the output of the first heating element, the controller 120 reduces the operating period of the second heating element in response to an increase in the operating period of the first heating element.

The electric range power control method including a plurality of heating elements according to the present invention may also be embodied as computer readable codes on a computer readable recording medium. The computer-readable recording medium includes all kinds of recording devices in which data that can be read by a computer system is stored.

For example, a computer-readable recording medium may include a ROM, a RAM, a CD-ROM, a magnetic tape, a floppy disk, an optical data storage device, and the like. Program code for performing may be transmitted in the form of a carrier wave (eg, transmission over the Internet).

The computer readable recording medium can also be distributed over network coupled computer systems so that the computer readable code is stored and executed in a distributed fashion. And functional programs, codes, and code segments for implementing a power control method of an electric range including a plurality of heating elements according to the present invention can be easily inferred by programmers in the art to which the present invention belongs. .

Although the invention has been described with reference to one embodiment shown in the drawings, this is merely exemplary, and it will be understood by those skilled in the art that various modifications and equivalent other embodiments are possible. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

1 is a perspective view showing an electric range according to an embodiment of the present invention.

2 is a block diagram showing an electric range according to an embodiment of the present invention.

3 is a flowchart illustrating a power control method of an electric range according to an embodiment of the present invention when only one heating element is operated.

4 is a flowchart illustrating a power control method of an electric range according to an embodiment of the present invention when two heating elements are operated.

5 is a timing diagram illustrating a power control method of an electric range according to an embodiment of the present invention.

Claims (16)

A plurality of heating elements; A control unit generating a plurality of first control signals for limiting power consumption of the plurality of heating elements to within an allowable value by controlling an operation period of each of the plurality of heating elements within a predetermined period; And An electric range each connected between a corresponding one of the plurality of heating elements and a power supply, and comprising a plurality of switching elements selectively shorted in response to a corresponding first control signal among the plurality of first control signals . The method of claim 1 wherein the electric range is And at least one first heating element starts to operate and controls the output of the at least one first heating element to the maximum output when the maximum power consumption of the at least one first heating element is less than the allowable value. The method of claim 1 wherein the electric range is When the sum of the maximum power consumption of the at least one first heating element that is in operation and the maximum power consumption of the second heating element that starts operation is greater than or equal to the allowable value, the operation section of any one first heating element and the operation section of the second heating element are mutually different. An electric range that controls no overlap. The method of claim 3 wherein the electric range is When the sum of the maximum power consumption of the at least one first heating element and the maximum power consumption of the second heating element is greater than or equal to the allowable value, the operating period of the one first heating element is reduced within the period and the reduced one of the An electric range for operating the second heating element during the operating period of the first heating element. The electric range of claim 4, wherein the output of the second heating element is a minimum output. The method of claim 4 wherein the electric range is When the sum of the power consumption of the at least one first heating element and the power consumption of the second heating element is greater than the allowable value due to an increase in the output of the second heating element, the operation period of any one first heating element is decreased and the second heating element is reduced. Electric range to increase the operating interval of. The method of claim 2, wherein the electric range is Controlling the output of the second heating element to a predetermined output between the minimum output and the maximum output when the sum of the maximum power consumption of the at least one first heating element and the maximum power consumption of the second heating element starting operation are less than the allowable value. Electric range. The method of claim 1 wherein the electric range is An operation unit outputting a plurality of commands generated by a user's operation to the control unit; A status display unit indicating an operation state of the electric range in response to a second control signal output from the control unit; And And a power measuring unit measuring power consumption of each of the plurality of heating elements and outputting the measured power to the controller. In the electric power control method of the electric range comprising a plurality of heating elements, Generating a plurality of first control signals for limiting power consumption of the plurality of heating elements to an allowable value by controlling an operation period of each of the plurality of heating elements within a predetermined period; And Selectively shorting the switching elements each connected between a corresponding one of the plurality of heating elements and a power supply in response to a corresponding first control signal among the plurality of first control signals. Power control method. The method of claim 9, wherein the electric power control method of the electric range. Controlling the output of the at least one first heating element to the maximum output when at least one first heating element starts operation and the maximum power consumption of the at least one first heating element is less than the allowable value. Power control method. The method of claim 9, wherein the electric power control method of the electric range. When the sum of the maximum power consumption of the at least one first heating element that is in operation and the maximum power consumption of the second heating element that starts operation is greater than or equal to the allowable value, the operation section of any one first heating element and the operation section of the second heating element are mutually different. Controlling the power of the electric range comprising a step of controlling so as not to overlap. The power control method of claim 11, wherein When the sum of the maximum power consumption of the at least one first heating element and the maximum power consumption of the second heating element is greater than or equal to the allowable value, an operation period of the one first heating element is reduced within the period and the reduced first portion is reduced. And operating the second heating element during an operating period of a heating element. The method of claim 12, wherein the output of the second heating element is a minimum output. The method of claim 12, wherein the electric power control method of the electric range. When the sum of the power consumption of the at least one first heating element and the power consumption of the second heating element is greater than the allowable value due to an increase in the output of the second heating element, the operation period of any one first heating element is decreased and the second heating element is reduced. Increasing the operation period of the electric power control method of the electric range. 11. The method of claim 10, wherein the electric power control method of the electric range Controlling the output of the second heating element to a predetermined output between the minimum and maximum outputs when the sum of the maximum power consumption of the at least one first heating element and the maximum power consumption of the second heating element starting operation are less than the allowable value. Control method of the electric range comprising the step. The method of claim 9, wherein the electric power control method of the electric range. Outputting a plurality of commands generated by a user's operation to a controller for controlling the electric range; Indicating an operating state of the electric range in response to a second control signal output from the controller; And And measuring the power consumption of each of the plurality of heating elements and outputting the power to the controller.

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