KR100527888B1 - Electronic rice cooker's cooling pan device - Google Patents

Abstract

According to the present invention, a cooling fan installed at the rear of the product allows air to be sucked from the inlet of the front, thereby suppressing a rise in temperature due to heat generation of the internal electronics, thereby improving the durability of the product and efficiently utilizing a space for arranging the product. A cooling fan structure of an electric rice cooker, the inlet is formed in the front of the body, the outside air is sucked in, the outlet formed in the rear of the body, the air sucked through the inlet is discharged to the outside, the inside of the outlet As it is installed and includes a cooling fan that forms a flow so that the air sucked through the inlet is directed toward the outlet, it is economical to maintain the cooling efficiency without mounting an expensive fan, the inlet or outlet Air guides can be installed to concentrate the flow direction of air, The heat generated by this can be solved quickly, which can improve the reliability of the product.

Description

Electronic rice cooker's cooling pan device

The present invention relates to a cooling fan structure of an electric rice cooker, and in particular, a cooling fan installed at the rear of the product allows air to be sucked from the inlet port of the front to suppress temperature rise due to heat generation of the internal electrical appliance, thereby improving durability of the product. The present invention relates to a cooling fan structure of an electric rice cooker that can efficiently utilize the arrangement space of product durability.

Referring to Figures 1 and 2 with respect to the cooling fan structure of the conventional rice cooker as follows. 1 is a front sectional view of a general induction heating rice cooker, Figure 2 is a side sectional view of a conventional induction heating rice cooker.

As shown in FIG. 1, the induction heating electric rice cooker has a main body 1, an inner pot 2 seated inside the main body 1 to contain food, and a cooked food contained in the inner pot 2. It consists of a cooking heater (3) mounted on the lower portion of the inner pot (2) or inside the main body (1).

Such an electric rice cooker is a household appliance used to cook food contained therein by heating it to a temperature or higher than a predetermined level, or to keep cooked food for a long time. The user adjusts the amount of rice or other additives and water suitable thereto. By putting in the inner pot (2), the inner pot (2) is seated on the main body (1) of the electric rice cooker and then can operate the input unit (not shown) formed in the appearance to input the cooking amount and method.

The input unit, which is usually composed of one or more buttons, is connected to the PCB control board 4 inside the main body and transmits an input control command. The PCB control board 4 includes a plurality of chipsets, and in particular, is a electrical appliance including a microcomputer that generates and outputs a control signal for controlling a cooking situation so that cooking is automatically performed according to a cooking program implemented by a producer. .

The electric rice cooker may be classified according to the method of providing cooking heat to the inner pot (2), in particular, the coil is formed at a predetermined interval on the main body (1) portion of the electric rice cooker in which the inner pot (2) is inserted into the coil Due to the magnetic field generated as the current flows, a method of heating the inner pot by causing an eddy current to be generated in the inner pot 2 made of a magnetic material is called an induction heating electric rice cooker. Induction heating electric rice cooker will be described as an example.

In the induction heating electric rice cooker, as the current is applied to the internal coil, in addition to the heat used as a heating source of the food, the temperature of the internal space may increase due to heat generated during data processing on the PCB controller board 4. This not only degrades the performance of temperature sensitive electronics, but can also cause operational errors.

The structure of the cooling fan, which is installed to prevent the temperature rise in the internal space of the main body, is installed in the form of a vortex in front as shown in FIG. 2.

Induction heating electric rice cooker is generally installed on the front of the liquid crystal display (5) and the input unit, the PCB control board (4) connected thereto is installed in the front of the body bar, the cooling fan (6) is the PCB control board In order to solve the heat generation in (4), the lower part is installed in parallel with the bottom surface.

As the cooling fan 6 is rotated, an inlet 7 is formed to allow the outside air to be sucked into the inside, circulating the inner space through the cross-section indicated by the dotted line to dissipate heat, and to discharge the outlet 8 provided at the rear. Through the outside.

That is, the air sucked through the inlet 7 of the bottom passes through the main body front space to which the PCB control board 4 is attached and the space below the inner pot in which the coil is formed, and then is discharged through the rear outlet 8 to discharge electricity. It functions to suppress the temperature rise in the space inside the cooker.

However, the cooling fan 6 installed in a narrow space in front of the conventional one should have used a small fan due to the limitation of the installation space, and in order to suck a large amount of external air, an expensive high capacity fan is used. I should have done it. This, in turn, raises production costs and puts a price burden on consumers.

In addition, in the conventional cooling fan structure, inlet 7 and the bottom surface of the bottom surface must maintain a certain height space in order to sufficiently intake external air, which is a limiting factor in the development of miniaturization of the product.

The present invention has been made to solve the above-mentioned problems of the prior art, the purpose is to provide a sufficient space for air intake by installing the cooling fan in the rear, sufficient cooling even using a low-cost cooling fan It is to provide a cooling fan structure of the electric rice cooker can be expected efficiency.

According to a feature of the cooling fan structure of the electric rice cooker according to the present invention for solving the above problems, the inlet is formed on the front of the body, the outside air is sucked, and the air sucked through the inlet is formed It is characterized in that it comprises a discharge outlet discharged to the outside, and a cooling fan is installed in the interior of the discharge port, the air sucked through the suction port to form a flow toward the discharge port.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. 3 is a side cross-sectional view of the electric rice cooker, the cooling fan structure of the electric rice cooker according to the present invention is shown, the structure of the present invention is not limited by the type of electric rice cooker.

The basic structure of the induction heating rice cooker of the present invention is the input unit and the liquid crystal display unit 50 is located in front of the main body, the PCB control plate 40 connected thereto is disposed in the front interior. In addition, the inner pot is seated on the coil wound W_COIL_BASE to generate eddy currents. The inner pot with stainless steel coating becomes the resistance of the generated eddy currents and supplies the heat source so that the inner pot is 110 degrees Celsius or more.

The upper side of the main body has a lid and an opening and closing device for detachable inner pot, the right side is formed with a hinge that can be fixed when opening and closing the lid.

Electric rice cooker of the present invention having such a structure is characterized in that the cooling fan 60 is located in the rear to avoid the front or the center of the narrow space such as W_COIL_BASE that supports the inner pot and the coil is wound.

The cooling fan 60 installed on the rear side of the cooling fan 60 sucks cool external air from the front inlet port 70 so as to dissipate heat generated by a plurality of chipsets and coils including a microcomputer formed on the PCB control board 40. Pass through the interior space. As a result, after cooling the air so that the temperature of the inner space of the electric rice cooker body is within a specific range, the warmed air is discharged through the outlet 80 located behind the cooling fan 60.

First, the suction port 70 formed in the front of the main body, the outside air is sucked may be located on the bottom that is not aesthetically identified, but when using a support such as a towel or a cloth on the bottom surface on which the cooker is placed, Since sufficient space may not be secured between the bottom surfaces, a significant decrease in cooling efficiency may be a concern, and thus, the suction port 70 in the present invention is formed to be inclined to face the bottom portion at the corner portion where the bottom surface and the main body front surface are connected. Therefore, enough outside air can be inhaled in the range which does not harm aesthetics.

The inlet 70 may be formed in a horizontal lattice, a vertical lattice, or a net, and may have a size that does not penetrate externally from an object such as chopsticks, and may be wide enough to allow external air to flow therein. I can make it.

The suction port 70 is disposed to be close to the liquid crystal display unit 50 and the input unit and the PCB control plate 40 connected to the front, and the sucked air is severely heated by the suction air guide 71. The heat dissipation fin 41 of the PCB control board 40 is moved toward.

To this end, the suction air guide 71 has a guide wall 72 for concentrating it toward the heat dissipation fin 41 so that the sucked air does not spread to the surrounding space so as to surround the space on the front and both sides of the heat dissipation fin 41. Is formed.

At this time, it is the cooling fan 60 mounted on the rear to serve to allow the outside air to flow into the main body internal space through the suction port 70, the cooling fan when the current is applied to the coil under the control of the microcomputer 60 rotates so that the introduced air flows toward the outlet 80 while releasing heat generated through the internal space.

The cooling fan 60 is a laminar flow fan that is generally used, and is installed by the inside of the rear of the main body. Since the installation space can be easily secured compared to the related art, the inside of the main body can be sufficiently cooled without adopting an expensive small fan.

The discharge port 80 corresponding to the cooling fan 60 is discharged after the internal air that has become hot after performing heat exchange with heat generated by the PCB control board 40 or the coil, etc., passes through the cooling fan 60. The outlet 80 may also be installed at the corner or the rear of which the rear and bottom surfaces of the main body are connected for the same reason as the inlet 70. In addition, the outlet 80 also has a sufficient cross-sectional area so that the internal air can be smoothly discharged in the range that the obstacles such as chopsticks do not penetrate.

At this time, the discharge port 80 is configured to further include a discharge air guide 81 for controlling the discharge direction of the air, the discharge air guide 81 concentrates the air warmed in the inner space to the discharge port 80 And a guide wall 82 for directing.

By the cooling fan structure of the present invention as shown in Figures 3 to 5 can be formed by the arrow, the heat generated by the internal electrical components and the heat generated by the coil can be eliminated.

Although the cooling fan structure of the electric rice cooker according to the present invention as described above with reference to the illustrated drawings, the present invention is not limited by the embodiments and drawings disclosed herein, it is to be applied within the scope of the technical spirit is protected. Can be.

The cooling fan structure of the electric rice cooker of the present invention configured as described above is economical because it is possible to maintain the cooling efficiency without mounting an expensive fan due to the cooling fan installed by the rear in a space with a sufficient space, the air in the inlet or outlet By installing a guide to focus the flow direction of the air, heat generated by the electronics and the coil can be quickly eliminated, thereby improving the reliability of the product.

1 is a front sectional view of a general electric rice cooker,

Figure 2 is a side sectional view showing a cooling fan structure of the electric rice cooker of the prior art,

Figure 3 is a side cross-sectional view showing a cooling fan structure of the rice cooker of the present invention,

Figure 4 is a perspective view of the air guide for suction employed in the rice cooker of the present invention,

5 is a perspective view of the air guide for discharge employed in the rice cooker of the present invention.

<Explanation of symbols on main parts of the drawings>

40: PCB control board 50: liquid crystal display unit

60: cooling fan 70: inlet

71: intake air guide 80: outlet

81: discharge air guide

Claims (6)

An inlet formed in the front of the main body and into which outside air is sucked; A discharge port formed at a rear surface of the main body and configured to discharge air sucked through the suction port to the outside; And And a cooling fan installed inwardly of the outlet and forming a flow such that air sucked through the inlet is directed toward the outlet. The suction port is provided with a suction air guide for controlling the flow direction of the suction air, the suction air guide is a cooling fan structure of the rice cooker characterized in that is formed to open toward the heat radiation fin formed on the PCB control board. The method of claim 1, The suction port is a cooling fan structure of the electric rice cooker, characterized in that the inclined toward the bottom portion connected to the front and bottom body. delete delete The method of claim 1, The outlet is a cooling fan structure of the electric rice cooker, characterized in that formed to be inclined toward the bottom of the corner portion is connected to the rear and bottom of the main body. The method of claim 1, The discharge port is a cooling fan structure of the electric rice cooker further comprises an air guide for discharge to control the discharge direction of the air.