KR102106495B1 - Induction range hood system - Google Patents

Abstract

The present invention relates to a range hood system (1). According to the present invention, the range hood system comprises: a heating unit (3) serving as a heat source by arranging at least one induction coil (11) or an electric heating coil (15); a range hood (4) for discharging odor or smoke generated from the heating unit (3) to the outside; a power sensing element (5) mounted on a power cable (C) connected to the heating unit (3) to sense the used power; and a control unit (7) which controls the air flow rate and the rotation speed of the range hood (4) according to the amount of power and time used when sensing the power of the heating unit (3) by being connected to the power sensing element (5) and the range hood (4).

Description

Range hood system {Induction range hood system}

The present invention relates to a range hood system, more specifically, by placing a power sensing element in a power cable or by sensing the magnetic field of the induction, the induction can be automatically driven, and the amount of power used, the time of use, or the strength of the magnetic field. Accordingly, it relates to a technology for adjusting the wind volume of the stove hood and automatically turning on / off the light.

Generally, a gas stove or a microwave oven is a device for cooking food using gas or electricity. In addition, the induction stove applies an indirect method of inducing heat to the heating object (pot) itself using a magnetic field.

This induction can reduce indoor air pollution compared to a gas range, and prevents the indoor temperature from rising in the hot summer because the device itself does not generate much heat, and there is no damage such as burns due to heat because the top plate is not heated. Fast cooking is the biggest advantage.

In this induction, when the power is supplied while the pot is placed on the upper surface, an alternating current flows through the induction coil to generate a magnetic field around the coil, orbiting current at the bottom of the pot, and heat due to the electric resistance of the pot. By doing so, the food can be heated.

In addition, a stove hood and lighting are installed on the upper side of the induction to discharge smoke or odor to the outside.

However, the conventional induction has a problem in that it is inconvenient to use because the wind speed of the stove hood is manually adjusted and the lighting is manually turned on / off.

Patent Application No. 10-2009-2503 (Name: Household power saving automation hood control system)

Therefore, the present invention has been proposed to solve the above problems, and an object of the present invention is to detect a power supply to the induction by arranging a power sensing element in an induction power cable or an outlet, or to detect a magnetic field generated by the induction itself. It is to provide the technology to automatically drive the induction by sensing, and also to adjust the wind volume of the range hood and automatically turn on / off the lighting according to whether the induction is used, the amount of power used and the time of use, or the strength of the magnetic field.

The present invention is proposed to solve the above problems, the range hood system 1 according to an embodiment of the present invention,

At least one induction coil 11 or an electric heating coil 15, which is arranged to form a heating source 3;

A range hood (4) for discharging odor or smoke generated from the heating part (3) to the outside;

A power sensing element 5 mounted on a power cable C connected to the heating part 3 to sense the used power; And

It is connected to the power sensing element 5 and the stove hood 4 and includes a control unit 7 that controls the air volume and the rotational speed of the stove hood 4 according to the amount of power and the time of use when sensing the used power of the heating unit 3 do.

As described above, the range hood system according to the present invention has the following advantages.

First, by placing a power sensing element in a power cable or an outlet, it is possible to automatically drive the induction by sensing that power is supplied to the induction, or to automatically adjust the amount of power used, the time of use, and the wind volume of the range hood.

Second, it has the advantage of automatically operating the induction by detecting the magnetic field generated by the induction itself, and adjusting the wind volume of the range hood and automatically turning on / off the lighting according to the use and use time of the induction or the strength of the magnetic field. have.

Third, in the case of the induction method, by interlocking the magnetic field sensing element and the power sensing element, the control unit primarily receives the signal of the magnetic field sensing element, and secondly, receives the signal of the power sensing element and receives both signals. If possible, by determining whether or not the induction is activated, it can be determined whether or not the device is operating smoothly.

1 is a front view showing the overall structure of a range hood system according to an embodiment of the present invention.
FIG. 2 is a view showing a connection relationship between an induction, a power sensing element, and a range hood according to an embodiment of the range hood system shown in FIG. 1.
FIG. 3 is another embodiment of the range hood system shown in FIG. 1 and is a view showing an electric heating coil method.
Figure 4 (a) is another embodiment of the range hood system shown in Figure 1, a view showing a state in which the power sensing element is mounted on the outlet, Figure 4 (b) is a view showing the state mounted on the plug .
5 is a block diagram schematically showing the structure of the control unit shown in FIG. 1.

Hereinafter, a stove hood system according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

As shown in Figures 1 to 5, the present invention is an invention for automatically operating the range hood 4 by sensing the power used by providing a power sensing element 5 in the range hood system 1, such invention May be applied to an induction method, or may be applied to an electric heating coil 15 method. In addition, in the case of the induction method, the magnetic field generated when power is applied to the induction coil may be sensed by installing the magnetic field sensing element S to operate the range hood 4.

If you describe such a range hood system 1 in detail,

The stove hood system 1 includes: a heating unit 3 that serves as a heat source by arranging at least one induction coil 11 or an electric heating coil 15;

A range hood (4) for discharging odor or smoke generated from the heating part (3) to the outside;

A power sensing element 5 mounted on a power cable C connected to the heating part 3 to sense the used power; And

It is connected to the power sensing element 5 and the stove hood 4 and includes a control unit 7 that controls the air volume and the rotational speed of the stove hood 4 according to the amount of power and the time of use when sensing the used power of the heating unit 3 do.

In the range hood system 1 having such a structure, a case in which induction is first applied as the heating unit 3 will be described.

The induction 3 is an induction of a conventional structure, in which at least one induction coil 11 is disposed therein, and the induction coil 11 is powered by a power cable C.

Therefore, when power is supplied to the induction coil 11, an alternating current flows to generate a magnetic field around the coil, and a eddy current is generated at the bottom of the pot, thereby generating heat due to the electric resistance of the pot.

Then, the power sensing element 5 is mounted on the power cable (C) to detect the power applied to the induction (3).

The power sensing element 5 includes a power semiconductor, a power sensing IC, and a semiconductor that performs control processing such as direct current and alternating current conversion, voltage, and frequency changes to utilize electric energy. to be.

For example, it is a PMIC (Power Module IC), and serves to supply and control power required for major electronic components.

The power sensing element 5 is converted into a predetermined digital signal by inputting a voltage, and the converted digital signal is transmitted to the control unit 7.

That is, it is determined whether to use the induction by calculating the difference between the normal power without the induction and the power used when the induction is used.

Therefore, in the present invention, the power sensing element 5 is connected to the power cable C connected to the induction 3 to sense the power supplied to the induction 3.

As described above, by detecting the power, the power sensing element 5 can differentially rotate or turn on the light by transmitting a signal to the hood fan 16 by the control unit as described later.

On the other hand, the present invention can be applied to the electric heating coil 15 as well as the induction method as described above.

That is, as shown in FIG. 3, the electric heating coil 15 is disposed in place of the induction coil. Therefore, when power is applied to the electric heating coil 15, cooking may be performed by generating heat.

In addition, since the power sensing element 5 is mounted on the power cable C, the power sensing element 5 can sense power applied to the electric heating coil 15.

As described above, when power is applied to the induction coil 11 or the electric heating coil 15, the power sensing element 5 detects this and transmits a signal to the control unit 7, and the control unit 7 is equipped with a stove. Activate hood 4 or turn lights on / off.

The control unit 7 includes an input unit 10 for transmitting a signal from the power sensing element 5; An operation unit 12 for operating the range hood 4 by calculating the operation time of the range hood 4 according to the signal input to the input unit 10; A lighting controller 13 connected to the calculation unit 12 to turn on / off the lighting; It includes an output unit 14 for operating the hood fan 16 or controlling the lighting according to the result calculated by the calculation unit 12.

In more detail, the calculation unit 12 grasps the current power amount by the signal input from the power sensing element 5. In addition, the usage time of the input induction 3 is also grasped.

Then, when it is detected that power is supplied to the heating unit 3 by the power cable C, the calculating unit 12 rotates by transmitting a signal to the hood fan 16. Therefore, the smell generated during cooking in the heating unit 3 can be discharged to the outside.

At this time, when the heating unit 3 is an induction type, if the induction 3 is plural, the amount of power supplied varies depending on the number of the induction coils 11 to be used, and the power sensing element 5 detects this The signal is transmitted to the calculation unit 12, and the calculation unit 12 controls the rotation speed and time of the hood fan 16 according to the amount of power.

For example, when the amount of power is increased, since a larger number of induction coils 11 are being heated, more smoke is generated, so that the hood fan 16 is rotated at a higher speed.

In addition, the lighting controller 13 of the control unit 7 determines that cooking is started when it is detected that power is supplied to the heating unit 3 and turns on the lighting lamp mounted on the stove hood 4. Conversely, when the power supply to the heating unit 3 is cut off, it is determined that cooking is completed and the lighting lamp is turned off.

On the other hand, in the above, the power sensing element 5 is mounted on the power cable C to sense the used power, but the present invention is not limited thereto, and in the case of the induction method, the magnetic field detection method is also applicable.

That is, by attaching the magnetic field sensing element S to the induction 3, power can be supplied to the induction coil 11 to detect in real time that a magnetic field is generated. At this time, one magnetic field sensing element S may be mounted, or may be mounted for each coil.

In addition, when a magnetic field is sensed, this signal is transmitted to the control unit 7 so that the operation unit 12 operates the hood fan 16.

At this time, the calculation unit 12 may set the rotation speed and rotation time of the hood fan 16 according to the strength of the magnetic steel.

For example, when the magnetic field increases, the number of induction coils 11 is being heated, so the hood fan 16 is rotated at a higher speed.

In addition, when a magnetic field is detected, the lighting controller 13 of the control unit 7 determines that cooking has started, and turns on the lighting lamp mounted on the stove hood 4.

Meanwhile, the magnetic field is sensed by the magnetic field sensing element S, but the power detection by the power sensing element 5 can be performed in parallel.

That is, it is primarily a method of sensing a magnetic field by the magnetic field sensing element S, and secondly, a method of sensing power by the power sensing element 5.

In the case of induction, when cooking food, the magnetic field sensing element S may be contaminated by food or the like, making it difficult to accurately sense the sensitivity of the magnetic field.

Therefore, it is possible to more accurately determine whether to use the induction by interlocking the magnetic field sensing element S and the power sensing element 5.

In this case, when the signals of the magnetic field sensing element S and the power sensing element 5 are input through the input unit 10 of the control unit 7, the calculating unit 12 is primarily a signal of the magnetic field sensing element S Check, and secondly, the signal of the power sensing element 5 is confirmed.

In addition, when both signals are received, it is determined that the induction is activated, and the signal is transmitted to and controlled by the range hood 4.

On the other hand, in the above, it has been described that the power sensing element 5 is mounted on a cable, but the present invention is not limited to this and can be mounted on an outlet or a plug.

That is, as shown in FIG. 4 (a), the power sensing element 5 may be mounted to an outlet 17 installed on a wall and supplied with power. At this time, the power sensing element 5 is connected to a power line connected to the outlet 17. Therefore, when power is supplied while the cable is inserted into the outlet 17, the power sensing element 5 can detect this and determine whether the induction 3 is operating.

Alternatively, as shown in Figure 4 (b), the power sensing element 5 may be mounted to the plug 15 connected to the cable. Therefore, when the plug 15 is inserted into the wall outlet while the plug 15 is connected to the front end of the cable, it can be detected when power is supplied.

Hereinafter, an operation process of the range hood system according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

First, the user turns on the power switch of the heating unit 3, and inputs a heating time by a timer.

When the power switch is turned on, power is supplied to the induction coil C or the electric heating coil 15 through the power cable C to start heating.

Then, the power sensing element 5 detects this and transmits a signal to the control unit 7.

The calculating unit 12 grasps the current power amount by the signal input from the power sensing element 5. In addition, the usage time of the input heating part 3 is also grasped.

That is, it is determined whether to use the induction by calculating the difference between the normal power without the induction and the power used when the induction is used.

Then, the calculation unit 12 rotates by transmitting a signal to the hood fan 16. Therefore, the odor generated during cooking can be discharged to the outside.

If, in the case of the induction method, there are a plurality of inductions 3, the amount of power supplied varies depending on the number of induction coils 11 used, and the power sensing element 5 detects this and signals the calculation unit 12 Is transmitted, and the calculation unit 12 controls the rotation speed and time of the hood fan 16 according to the amount of power.

Therefore, the rotational speed of the hood fan 16 increases or decreases according to the number of the induction coils C to be heated. For example, when one induction coil C is heated, the hood fan 16 rotates at a low speed, and as two or three induction coils C are heated, the hood fan 16 The rotation speed is also increased, and when all the induction coils C are heated, the hood fan 16 rotates at the maximum speed.

In addition, the rotation time of the hood fan 16 also increases or decreases according to the input heating time.

In addition, the lighting controller 13 of the control unit 7 determines that cooking is started when it is detected that power is supplied to the heating unit 3 and turns on the lighting lamp mounted on the stove hood 4. Conversely, when the power supply to the heating unit 3 is cut off, it is determined that cooking is completed and the lighting lamp is turned off.

On the other hand, the magnetic field detection method is applied in the case of induction. Since the magnetic field sensing element S mounted on the induction 3 detects whether a magnetic field is generated in the induction coil 11, it determines whether the induction 3 operates. can do. In addition, when a magnetic field is sensed, this signal is transmitted to the control unit 7 so that the operation unit 12 operates the hood fan 16.

At this time, the calculation unit 12 may set the rotation speed and rotation time of the hood fan 16 according to the strength of the magnetic steel.

1: Range hood system
3: Induction
4: Range hood
5: power sensing element
7: Control
10: input
12: operation section
13: Lighting controller
14: output
15: Electric heating coil

Claims (4)

At least one induction coil 11 or an electric heating coil 15, which is arranged to form a heating source 3;
A range hood (4) for discharging odor or smoke generated from the heating part (3) to the outside;
A power sensing element 5 provided in the outlet 17 of the wall to sense the electric power applied to the heating unit 3 by sensing the amount of current applied when the power cable C is inserted; And
It is mounted on the stove hood 4 and connected to the power sensing element 5, thereby controlling the air volume and rotation speed of the stove hood 4 according to the amount of power and time of use when sensing the used power of the heating unit 3 ),
The control unit 7 includes an input unit 10 through which a signal is transmitted from the power sensing element 5; An operation unit 12 for operating the range hood 4 by calculating the operation time of the range hood 4 according to the signal input to the input unit 10; A lighting controller 13 connected to the calculation unit 12 to turn on / off the lighting lamp; It includes an output unit 14 for operating the hood fan 16 or controlling the lighting according to the result calculated by the calculation unit 12,
The operation unit 12 is a range hood system 1, characterized in that to operate by calculating the operating speed and time of the hood fan 16 in proportion to the amount of power and time. delete According to claim 1,
When the induction coil 11 is disposed as the heating part 3, the range hood system detects whether a magnetic field is generated in the induction coil 11 by mounting the magnetic field sensing element S at an adjacent position of the induction coil 11 ( One). According to claim 3,
When the signals of the magnetic field sensing element S and the power sensing element 5 are input through the input unit 10 of the control unit 7, the calculating unit 12 primarily checks the signals of the magnetic field sensing element S, , Secondly, a range hood system that determines whether the induction is activated by checking the signal of the power sensing element 5.

Images