KR100771214B1 - Electric range and method thereof - Google Patents

Abstract

An electric range and a control method thereof are provided to prevent the temperature of the main body of the electric range from being suddenly raised by allowing for a smooth heat radiation of a burner assembly. An electric range includes a main body(100), a top plate unit(200), one or more burner assemblies(300). The main body has a predetermined space for installation, and a bottom surface having one or more air inlet holes(110) for inflow of air from the outside. A dust cutoff portion(120) is protruded downward from the air inlet hole, and the dust cutoff portion allows for discharge of air but cuts off inflow of dust. The top plate unit is arranged to cover an open top of the main body, and has a top surface on which a cooking vessel is set. The burner assemblies are arranged in the space of the main body, and formed integrally with lighting units. The burner assembly has a lower portion in which a heat radiation fan is arranged to take air from the air inlet holes of the main body and blow taken air into the space of the main body. The burner assembly has one or more induction heater portions(310).

Description

Electric range and control method thereof

1 is a perspective view schematically showing the internal structure of a conventional electric range

Figure 2 is a perspective view schematically showing the structure of the burner assembly bottom of the conventional electric range

3 is a perspective view schematically showing an electric range according to an embodiment of the present invention;

4 is a perspective view schematically showing the bottom structure of the burner assembly bottom of the electric range according to an embodiment of the present invention;

Figure 5 is an enlarged cross-sectional view showing the main portion schematically shown to explain the structure of the foreign matter blocking unit of the electric range according to an embodiment of the present invention

6 is a schematic plan view for explaining an electric range according to an embodiment of the present invention;

7 is an enlarged perspective view illustrating main parts schematically illustrated to explain an illumination unit of an electric range according to an embodiment of the present invention;

8 is a schematic flowchart illustrating a method of controlling an electric range according to an embodiment of the present invention.

9 is a graph showing the change in temperature of the lighting unit over time when operating the existing electric range

10 is a graph showing the temperature change of the lighting unit with time when the electric range to which the structure and the control method are applied according to an embodiment of the present invention.

Explanation of symbols for main parts of the drawings

100. Body 101. Bottom

102. Perimeter 110.Air inlet hole

120. Foreign material blocking part 130. Air outlet hole

200. Top plate 300. Burner assembly

310. Induction heater unit 311. Working coil

320. Circuit board 330. Base frame

340. Heatsink 350. Heat sink

360. Fan housing 370. Temperature sensor

400. Lighting part 410. Light emitting part

411. Control Circuit Board 412. Light Emitter, High Brightness LED

420. Mounting section 421. Partition plate

422. Through Slit 430. Diffuser Plate

The present invention relates to an electric range, in particular, to facilitate the recognition of the operation of the induction heater, and to maximize the heat dissipation effect to prevent damage to various circuit components due to high temperature heat in advance. A new type of electric range and a control method thereof.

In general, the electric range (electric range) is a device for cooking food using an electric heater or a separate heating element as a heat source.

1 and 2 are shown in the structure of a conventional electric range, a conventional electric range structure will be described with reference to the following.

First, the conventional electric range is a main body 10 having a large appearance as shown in Figure 1, one or more burner assembly 20 for generating a heat source, and a power supply for supplying power to each burner assembly ( Omitted), and the control assembly 30 for controlling the overall operation of the electric range and the top plate portion 40, which forms the upper surface of the electric range and is mounted on the cooking vessel.

Here, the burner assembly 20 is made of an induction heating structure using the principle that heat is generated in the cooking vessel itself by applying electromagnetic force to the cooking vessel by an induction heating method, and is installed in the main body 10.

At this time, the burner assembly 20 includes an induction heater 21 in which the working coil 21a is wound, a circuit board 22, a base frame 23, and a heat sink 24. .

The working coil 21a serves to transmit the electromagnetic force to the cooking vessel, and the circuit board 22 serves to control the circuitry that the induction current is provided to the working coil 21a.

In addition, the base frame 23 is provided between the induction heater unit 21 and the circuit board 22 to form a body of the burner assembly 20 and is generated by the induction heater unit 21. It serves to block the transmitted electromagnetic force to the circuit board 22.

In addition, the heat sink 24 is fixed along the rear side of the base frame 23 to serve to dissipate heat generated in the base frame 23.

At this time, one side of the heat sink 24 is forced to blow air to the heat sink 24 side as shown in Figure 2 attached to the heat dissipation fan 25 and the heat dissipation fan 25 to dissipate the heat sink 24 The fan housing 26 is installed to guide the flow of air toward the heat sink 24 while supporting it.

In addition, an air inlet hole 11 through which the outside air of the body 10 flows is formed in a portion where the heat dissipation fan 25, which is the bottom surface of the body 10, is installed, and in the air inlet hole 11. The passage of air is possible, but the foreign matter blocking unit 12 is formed integrally to block the introduction of various foreign substances into the heat radiating fan 25.

However, in the electric range according to the prior art as described above, the foreign matter blocking unit 12 is formed such that the foreign matter blocking unit 12 formed in the air inlet 11 is coplanar with the bottom surface of the main body 10. The gap between the heat dissipation fan 25 and the heat dissipation fan 25 is extremely narrow, and as a result, a large air resistance is generated between the heat dissipation fan 25 and the foreign material blocking part 12. There was a problem that made about 10% lower than the theoretical rotation speed.

In particular, recently, the lighting unit 50 is additionally installed in the burner assembly 20 so that a user can recognize whether the above-described induction heater unit 21 operates.

However, as described above, the existing heat radiating fan 25 could not prevent the temperature of the lighting unit 50 from rising due to the heat inside the body. There was no choice but to use a lamp that could minimize the damage.

That is, considering that a light emitter capable of minimizing the overall height, such as a high-brightness LED, was not easily damaged and used in a high temperature environment of about 100 ° C. or more, a lamp having a relatively high height was used as the light emitter.

In particular, when the light emitter of the lighting unit 50 is formed as a lamp, the overall thickness becomes thick, and as a result, the entire thickness of the burner assembly 20 is inevitably increased.

On the other hand, in the conventional electric range in which two or more burner assemblies 20 are provided, when one of the induction heaters 21 of the two induction heaters 21 provided in any one burner assembly is operated, heat dissipation of the burner assembly 20 is performed. The fan 25 is driven to control heat dissipation inside the main body.

Of course, in the case of cooking of simple food (eg, boiling water, etc.), sufficient heat dissipation may be achieved by driving only one heat dissipation fan.

However, due to the nature of the electric range, a variety of foods may be cooked according to the needs of the user, and a cooking vessel may also use a larger container than the recommended size. 25) In case of only driving, there was a problem that the internal temperature of the main body rapidly increased when the unexpected situation occurred, causing damage to each circuit component.

Of course, the above-mentioned problem may be solved by controlling all the heat radiating fans of each burner assembly 20 to be driven simultaneously at the same time, but this is not preferable because unnecessary power consumption may be caused.

The present invention is to solve the above problems, an object of the present invention to maximize the performance of the heat radiation fan to facilitate the heat dissipation of the burner assembly and to cope with the unexpected situation can be made. It is to provide a new type of electric range and its control method to prevent the problem that the temperature inside the main body rapidly increases in advance.

The electric range of the present invention for achieving the above object has a predetermined mounting space while forming an appearance, at the bottom thereof is formed at least one air inlet through which air is introduced from the outer space and the air inlet It is possible to pass through, but the foreign body blocking portion for blocking the introduction of foreign matter foreign body is formed to protrude downward compared to the height of the bottom surface; An upper plate portion covering the opened upper portion of the main body, on which an cooking vessel is placed; In addition, the heat dissipation fan is installed on the mounting space in the main body, and the lighting unit is integrally formed, and at the bottom thereof, the heat dissipation fan is installed to suck the outside air through the air inlet hole of the main body and blow the air into the mounting space in the main body. At least one burner assembly having at least one induction heater.

Here, the peripheral portion of the foreign material blocking portion is characterized in that it is gradually formed inclined inward toward the bottom. In particular, the protruding height of the foreign material blocking portion is characterized in that it is configured to achieve a range of about 3-7 mm.

The lighting unit may include a control circuit board that receives and provides various signals, and a plurality of light emitters mounted on an upper surface of the control circuit board, and the light emitter may include a light emitting diode (LED).

In addition, the control chamber of the electric range according to the present invention for achieving the above object is at least one induction heater unit having a temperature sensor and at least two burner assembly having at least one heat dissipation fan is installed in the electric range A first step of controlling the heat radiating fan provided in the burner assembly to operate when at least one induction heater part is operated; A second step of checking a temperature of a corresponding part through a temperature sensor of the induction heater; And, if the identified temperature is more than the predetermined temperature is characterized in that the third step: operating the heat radiation fan provided in the other burner assembly.

Here, after the operation of the heat radiating fan provided in the other burner assembly through the third step, re-checking the temperature of the corresponding portion through the temperature sensor of the induction heater; As a result of the check, the step of stopping the operation of the heat dissipation fan provided in the other burner assembly when the temperature of the corresponding portion is less than the predetermined temperature: characterized in that the further progress.

In addition, the preset temperature is characterized in that the temperature and the temperature to determine that the various circuit components provided in the burner assembly is not damaged and / or cooking using oil (Oil).

Hereinafter, with reference to Figures 3 to 10 attached to a preferred embodiment of the present invention that can specifically realize the above object.

As shown in FIG. 3, the electric range according to the embodiment of the present invention includes a main body 100, an upper plate 200, and at least one burner assembly 300, and the main body 100. At least one air inlet hole 110 is formed therein and the air inlet hole 110 suggests that the foreign matter blocking part 120 is formed to protrude downwardly compared to the height of the bottom surface.

Hereinafter will be described in more detail for each component constituting the electric range according to an embodiment of the present invention.

First, the main body 100 will be described as follows.

3 to 5, the main body 100 is a portion forming an appearance of an electric range, and the upper portion is formed in a box body having a predetermined mounting space therein while being opened.

In particular, the bottom surface 101 in the main body 100 is formed with at least one air inlet hole 110 through which air is introduced from the outer space, and the circumferential surface of the main body 100 (in the embodiment of the present invention) The front surface 102 is formed with an air outlet hole 130 through which air in the main body 100 flows out.

At this time, the number (個數) of the air inlet hole 110 is formed to correspond to the number (個數) of the burner assembly 300 (or the number of heat radiation fans installed in the burner assembly). That is, if the burner assembly 300 is two, two air inlet holes 110 are also formed.

In addition, the air inlet hole 110 is formed of a foreign material blocking unit 120 that allows the passage of air but blocks the inflow of external foreign matter.

At this time, the foreign matter blocking unit 120 is formed to protrude downward compared to the bottom height of the main body 100 as shown in Figures 1 to 3 attached. This minimizes the resistance to air flow formed by driving the heat radiation fan 350 by keeping the position of the foreign matter blocking unit 120 as far as possible from the heat radiation fan 350 of the burner assembly 300. To do that.

In addition, in the embodiment of the present invention, the circumferential side portion 121 of the foreign matter blocking unit 120 is formed to be inclined inward gradually toward the bottom thereof. This is to allow the inflow of the air in a vertical direction from the direction in which the air inlet hole 110 is formed by making the circumferential side portion 121 inclined as smoothly as possible, so that various foreign substances can be filtered out.

In particular, in the embodiment of the present invention by minimizing the inflow of foreign matter by minimizing the inflow of foreign matter by making the protrusion height of the foreign matter blocking unit 120 is in the range of about 3 ~ 7 mm (preferably 5 mm). Suggest that you do so. If the protruding height of the foreign matter blocking unit 120 is less than or equal to 3 mm, there is a problem that the flow path resistance cannot be minimized due to the relatively close separation distance between the heat radiating fan 350 and the foreign material blocking unit 120. When the protruding height of the foreign material blocking unit 120 is 7 mm or more, various foreign matters are easily introduced through the open side of the circumferential portion 121, causing a problem of damaging the heat radiating fan 350. Because it can be.

Next, the upper plate 200 will be described.

The upper plate part 200 is a series of components in which the cooking vessel is placed on the upper surface of the main body 100 while covering the opened upper portion.

At this time, the upper plate portion 200 is formed of tempered glass such as ceramic glass that can be used in a high temperature environment, the circumferential surface to surround the circumferential surface 102 of the main body 100 (or, the circumferential surface of the main body) It is provided with a circumferential portion (210) formed integrally with.

Next, the burner assembly 300 will be described.

The burner assembly 300 is a portion that generates a heat source for cooking food.

The embodiment of the present invention suggests that the burner assembly 300 is provided in two, each of which is mounted in the front space and the rear space of the mounting space in the main body 100, respectively.

In particular, each of the burner assemblies 300 includes at least one induction heater 310, a circuit board 320, a base frame 330, a heat sink 340, and a working coil 311 wound up. , A heat radiation fan 350 and a temperature sensor 370 are configured.

The induction heater 310 serves to transfer the electromagnetic force to the cooking vessel using the working coil 311, the circuit board 320 is a circuit that the induction current is provided to the working coil 311 Serves as a control. In the embodiment of the present invention, the induction heater unit 310 is provided in each of the two burner assembly 300 is provided in the embodiment.

In addition, the base frame 330 is provided between the induction heater unit 310 and the circuit board 320 to form a body of the burner assembly 300 and is present in the induction heater unit 310. It serves to block heat from being transferred to the circuit board 320.

In addition, the heat sink 340 is fixed along the rear side of the base frame 330 serves to dissipate heat generated from the base frame 330.

In addition, the heat dissipation fan 350 is installed at one side of the heater sink 340, and after suctioning the outside air through the air inlet hole 110, forcibly blows outside air to the heat sink 340 side to the heat Configured to dissipate the sink 340. At this time, the heat dissipation fan 350 is installed with a fan housing 360 to guide the flow of air toward the heat sink 340 while supporting the heat dissipation fan 350.

In addition, the temperature sensor 370 is a series of providing reference data for determining the type of food by continuously checking the actual heating temperature by sensing the temperature of the top plate 200 in contact with the top plate 200. It is a configuration of, and is installed in the central side portion of the induction heater 310.

Reference numeral 380 in the accompanying drawings of FIG. 4 is a sealing member for preventing a gap between the fan housing 360 and the bottom surface in the main body 100.

On the other hand, in the embodiment of the present invention, the illumination unit 400 is formed integrally with the induction heater unit 310 of the burner assembly 300 to enable the user to recognize the operating state of the induction heater unit 310. Present a set of configurations.

This will be described in more detail with reference to FIG. 7.

First, the lighting unit 400 has a series of light emitting units (not shown) installed therein so that the user can easily recognize whether the induction heater 310 is operated (operating coil operation). As a configuration, at least two or more are formed for each induction heater 310. In particular, the embodiment of the present invention proposes that the lighting unit 400 is formed in each of the symmetrical with respect to the center of the induction heater 310.

The lighting unit 400 includes an installation unit 420 formed on at least two or more portions of the circumference of the induction heater unit 310, and a light emitting unit 410 installed in the installation unit 420. And, the installation portion 420 is formed so that the circumferential portion except the upper and lower surfaces to be blocked from the outside.

At this time, the partition plate 421 for partitioning the upper and lower spaces are formed integrally inside the installation portion 420, the through slit 422 penetrates long along the length direction on the surface of the partition plate 421. Is formed. In addition, the through slit 422 suggests that the opening degree gradually increases from both sides to the center side portion thereof. That is, the through slit 422 is formed to have a substantially crescent shape, so that the display of the operation of the induction heater 310 can be clearly seen visually, and the aesthetics thereof can be maximized.

In addition, the light emitting part 410 is installed at the bottom of the partition plate 421 among the inside of the installation part 420, and an upper surface of the installation part 420 is opened at an upper end of the partition plate 421. The diffusion plate 430 is formed to spread the light radiated through the through slit 422 while being formed to cover.

The reason for embedding the light emitting part 410 inside the installation part 420 as described above is to minimize the dispersion of light by placing the light emitting part 410 in a closed space formed by the circumferential side wall of the lighting part 400. . That is, the brightness is maximized by concentrating the light emission direction.

In this case, the light emitter 410 is largely composed of a control circuit board 411 and a plurality of light emitters 412.

In this case, the control circuit board 411 transmits and receives various control signals, and serves as a circuit board for controlling the light emitter 412 to block the opened lower surface of the installation unit 420. It is formed long along the longitudinal direction.

In addition, the light emitter 412 is mounted on the upper surface of the control circuit board 411, and suggests that the light emitter 412 is configured as a high brightness LED. Of course, the light emitter 412 may be configured as a lamp, but in this case, when the height of the lamp is high, the overall height of the light emitting part 410 may also be increased, and thus, the entire thickness of the induction heater part 310. It is also undesirable because it may cause a problem that it must be thickened. Therefore, the light emitter 412 is most preferable because the high brightness LED can reduce the thickness of the overall induction heater 310 as much as possible. Of course, the high-brightness LED has a problem that can be damaged in a high temperature environment (about 100 ~ 120 ℃), this can be solved by a control method described below that can smoothly reduce the temperature inside the main body 100 have.

Hereinafter will be described the operation of the electric range according to an embodiment of the present invention configured as described above.

First, in a state where a cooking vessel (not shown) is placed on an upper portion of a specific induction heater 310 among upper surfaces of the upper plate 200, a user moves the control assembly 30 to operate the induction heater 310. When operated, the signal generated according to the manipulation is provided to the circuit board 320 of the burner assembly 300 for controlling the operation of the induction heater 310.

In this case, the circuit board 320 performs the control for the operation of the corresponding induction heater 310 (S110).

That is, when cooking proceeds by a user's manipulation, power is supplied to the working coil 311 and an induction current is provided to the cooking vessel placed on the upper surface of the upper plate 200 to heat the food in the cooking vessel. .

In addition, when the induction heater unit 310 is operated as described above, power is also supplied to each light emitting unit 410 constituting the lighting unit 400 and a control signal for emitting light of each light emitting unit 412 is provided. .

As a result, the control circuit board 411 controls the light emitters 412 to emit light, and the light emitters 412 emit light due to the above-described control. In this case, the light emitted by the light emitted from each of the light emitters 412 is diffused by the diffuser plate 430 while the diffuse reflection is made due to the diffuse reflection coating layer coated on the inner wall of the installation unit 420 of the lighting unit 400. The furnace is radiated to the outside through the upper plate 200.

As a result, the user recognizes the operation state of the induction heater 310 through the illumination of the illumination unit 400 emitted by the above-described series of processes.

In addition, when the operation of the specific induction heater 310 as described above, the heat radiation fan 350 of the burner assembly 300 is installed (S120).

Accordingly, the air present on the outer bottom space of the main body 100 is introduced into the main body 100 through the air inlet hole 110 formed in the bottom of the main body 100 and then of the heat dissipation fan 350. Air outlet holes 130 formed in the circumferential surface 102 of the main body 100 after heat dissipating heat conducted to the heat sink 340 while passing through the heat sink 340 under the guide of the driving and fan housing 360. It is discharged to the outside through the main body 100).

At this time, the air introduced into the main body 100 through the air inlet 110 is the main body 100 in a state in which various foreign matter is filtered by the foreign matter blocking unit 120 formed in the air inlet 110. Flows in. In particular, since the foreign matter blocking unit 120 is spaced apart from the heat radiating fan 350 by about 3 to 7 mm (preferably 5 mm), the inflow of foreign matters can be minimized and the occurrence of flow path resistance is also minimized. It is possible to maximize the performance of the heat dissipation fan 350 can be further improved the heat dissipation effect.

As a result, the temperature inside the main body 100 is maintained below a set temperature by the above-described driving of the heat radiating fan 350, and thus, various circuit components installed in the main body 100, in particular, the light emitting part of the lighting unit 400. Circuit components (eg, high brightness LEDs, etc.) for operation control for 410 are prevented from being damaged by high temperature heat.

Meanwhile, while the series of processes described above are in progress, the type of food is continuously determined by the temperature sensor 370 that is installed at the center side of the induction heater 310 and is in close contact with the bottom of the upper plate 200. (S130)

That is, according to the temperature range sensed by the temperature sensor 370, it is determined whether the cooking is cooking that boils water, cooking food or cooking such as fried food.

In this case, in the case of cooking using a large amount of oil such as frying, hereinafter, the oil load is more high temperature environment than other cooking. In particular, when the oil load is used because the frying container larger than the size of the induction heater 310, the actual temperature inside the main body 100 is further increased.

Therefore, while the cooking as described above is in progress through the temperature sensor 370 of the induction heater 310, the cooking is made to check the temperature of the corresponding site, and thus the temperature checked above the predetermined temperature If maintained for a predetermined time to control to operate the heat radiating fan 350 provided in the other burner assembly (300) (S140).

In this case, the predetermined temperature is a temperature such that various circuit components provided in the burner assembly 300 are not damaged or cooked using oil as described above, that is, a temperature determined to be an oil load. to be. The above temperature may be, for example, about 160 to 180 ° C.

Of course, even after the operation of the heat dissipation fan 350 provided in the other burner assembly 300 as described above through the temperature sensor 370 of the induction heater 310 continuously checks the temperature of the corresponding site (S150) And, when the temperature is determined to fall below the set temperature is controlled so that the operation of the heat dissipation fan 350 provided in the other burner assembly 300 is stopped (S160) so as to reduce power waste as much as possible. Most preferred.

In this case, FIG. 8 is a time relationship graph according to the temperature provided by the lighting unit 400 when no control variation is made despite the oil load as described above, and FIG. When controlled by the control method according to an embodiment of the present invention is a time relationship graph according to the temperature provided by the illumination unit 400. As can be seen through this, it is possible to prevent the damage to the light emitter (ie, high brightness LED) 412 of the lighting unit 400 by the control method according to an embodiment of the present invention.

As described above, the electric range and the control method thereof according to the present invention have various effects as follows.

First, in the electric range according to the present invention, since the foreign matter blocking portion formed in the air inlet is formed to protrude downwardly from the bottom of the main body, the gap between the foreign matter blocking portion and the heat radiating fan can be secured to the maximum, thereby minimizing air resistance. Has an effect. In particular, the above-described effects further have the effect of maximizing the performance of the actual heat radiation fan.

Secondly, the electric range according to the present invention enables the user to recognize whether the operation of the induction heater unit by the lighting unit, and the lighting unit can be smoothly radiated due to the above-described structural features of the foreign matter blocking unit the lighting unit By being able to configure the heating element installed in the high-brightness LED has the effect that the overall height of the induction heater can be minimized.

Third, the control method of the electric range according to the present invention has the effect that it is possible to prevent damage to various circuit components even in a specific situation, such as during oil load.

Claims (8)

It has a predetermined mounting space while forming an external appearance, and at the bottom thereof, at least one air inlet hole through which air is introduced from the outer space is formed, and the air inlet hole allows air to pass through, but blocks foreign substances to block inflow of foreign substances. The main body is formed to protrude downward compared to the height of the bottom; An upper plate portion on which an cooking vessel is placed on an upper surface of the main body while covering the opened upper portion of the main body; And, It is installed on the mounting space in the main body, and the illumination unit is integrally formed, and at the bottom thereof, a heat dissipation fan that sucks the outside air through the air inlet hole of the main body and blows it into the mounting space in the main body is installed. At least one burner assembly having at least one induction heater. The method of claim 1, The circumferential side portion of the foreign material blocking portion is gradually inclined toward the bottom is formed in the electric range, characterized in that. The method of claim 1, Protruding height of the foreign material blocking portion is characterized in that it is configured to form a range of about 3 to 7 mm. The method of claim 1, The lighting unit includes a control circuit board that receives and provides various signals, and a plurality of light emitting bodies mounted on an upper surface of the control circuit board. The light emitter is an electric range, characterized in that consisting of a light emitting diode (LED). An electric range comprising at least one induction heater unit having a temperature sensor and at least two burner assemblies having at least one heat dissipation fan is installed. A first step of controlling the heat radiating fan provided in the burner assembly to operate when at least one induction heater part is operated; A second step of checking a temperature of a corresponding part through a temperature sensor of the induction heater; And, And a third step of operating the heat dissipation fan provided in the other burner assembly when the determined temperature is equal to or greater than a preset temperature. The method of claim 5, Re-checking the temperature of the corresponding part through the temperature sensor of the induction heater after the operation of the heat radiating fan provided in the other burner assembly through the third step; When the result of the check, the temperature of the corresponding part is less than the predetermined temperature step of stopping the operation of the heat dissipation fan provided in the other burner assembly: control method of the electric range characterized in that it further comprises. The method according to claim 5 or 6, wherein The preset temperature is a control method of the electric range, characterized in that the temperature is such that various circuit components provided in the burner assembly is not damaged. The method according to claim 5 or 6, wherein The preset temperature is a control method of the electric range, characterized in that the temperature determined to be cooking using oil (Oil).

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