KR940003255Y1 - Electric plate - Google Patents

Abstract

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Description

Water cooled electric plate

1 is a block diagram according to an embodiment of the present invention.

2 is a view showing the connection state of each member of the present embodiment.

3 is an assembled cross-sectional view in the induction coil in this embodiment.

* Explanation of symbols for main parts of the drawings

10: electronic control means 20: induction coil

21: distilled water 22,24: insulated water pipe

30: cooling device 32: cold air fan

34: cooler 40: water tank

43 dustproof decompression tube 50 absorption pump

The present invention relates to an electric plate, and more particularly, to a water-cooled electric plate in which an induction coil used for heating within a power range of 30 KW or less is integrally combined with a circulating water cooling means or a high frequency induction electronic equipment.

In the induction coil of the conventional electric fan for heating the pan, an insulation layer is mounted on the upper surface of the induction coil in which the conductor is wound in a disk shape, so that a magnetic fly pan can be placed on the insulation layer. Induction eddy currents are generated in the fly pan through the currents in the coils and are heated by the heat generated thereby. However, almost all of the conventional electric plates are air-cooled, and if they are used continuously for a long time, the temperature rises and the electrical resistance increases, resulting in waste of energy. .

1. When the efficiency is the highest, it reaches 90%, but it is a precondition that the flypano does not intervene with the induction coil, and only allows an insulation layer having a thickness of 2 mm.

2. Be sure to use pots of homogeneous steel or steel, and if stainless steel pots are used, the work efficiency is only about 80% in some cases.

3. Be sure to use a fly pan with a thickness of 4 mm or more at the bottom, so that efficiency can be maintained. If the bottom thickness is 1 mm or less, the work efficiency falls below 80%.

Summarizing the above three factors, only 80% of left and right work efficiency is maintained, and the loss of 20% is caused by the induction coil to 90%, that is, the loss of about 19% is caused by the induction coil.

Also, it is important to note that if the power needs to be increased 10 to 20 times to cook a large amount of food rapidly, for example, 16 times, that is, to 16 KW and the voltage is quadrupled, the current is also 30A to 120A. This generates a large amount of heat, and if the original induction coil is used as it is, the induction coil of the electric plate will be burned out.

In view of the problems with the conventional air-cooled electric plate, the present invention is used for heating of a power range of 30KW or less, and the cooling water can improve the service life, stability and efficiency by always maintaining a constant temperature during food cooking An object of the present invention is to provide a water-cooled electric plate in which a circulation unit and an electromagnetic device of high frequency induction are integrally combined.

In order to achieve the above object, the present invention is an electronic control means combined with a power supply means, the hollow tube is formed in a disk shape, filled with circulating coolant inside the hollow tube, the induction connected to the electronic control means It is connected to a coil and the inlet means of the said induction coil, and forms the circulation circuit of a coolant, and it is comprised combining the cooling means of the coolant and the cooling device 30 provided with the suction / exhaust means in the circuit integrally. .

The hollow tube is made of copper (Cu) metal, and distilled water is used as the circulating cooling water of the induction coil, and at the same time, the distilled water is flowed by the cooling device from the outlet of the induction coil. An appropriate pipe is bent and circulated in a reciprocating parallel cooler to be cooled by a cold air fan or a heat exchanger, and an insulated water pipe of sufficient length is connected to both ends of the induction coil to form a coil in both insulated water pipes. It is preferable to apply pressure in both the insulated water pipes, distribute the distilled water into the induction coil to cool, and install a dustproof depressurization pipe on the top end surface of the water storage tank.

According to the present invention configured as described above, as in the prior art, a fly pan is placed on the upper surface of the induction coil, and when a high, medium, or weak high frequency current passes through the induction coil, a magnetic field is generated by the induction, and the fly pan inductance An eddy current can be generated to generate induction heat, but the induction coil is formed into a hollow tube to distribute circulation cooling water, and both ends of the cooling device are connected to both ends of the induction coil, and the cooling means of the cooling device generates the circulation cooling water. It cools, pressurizes the circulating cooling water by the suction and drainage means of the cooling device, and connects the electronic control means connected to the power supply means to the cooling coil, and is integrally assembled. The circulating distillation in the induction coil hollow tube is cooled by flowing it to a cooling apparatus, and then introduced into the induction coil hollow tube. And it can be cooled to Toko day, so while induction heating may be a fly fan to cool the induction coil, so while induction heating the fly fan the induction coil itself, can always maintain a constant temperature.

The hollow tubular body is formed of a copper metal material, and distilled water is used as the circulating cooling water of the induction coil, and the warm distilled water flowing out from the outlet of the induction coil is piped to an appropriate length of the cooling device. Is bent and circulated in a reciprocating parallel cooler to be cooled by a cold wind fan or a heat exchanger, and an insulated water pipe of sufficient length is connected to both ends of the induction coil, and the both insulated water pipes are wound in a coil shape to guide the same. It is to be provided with a reactive reactance, and the input to the positive insulated water pipe by the absorption pump again, to distribute the distilled water in the induction coil to cool, and to install a dust-proof decompression pipe on the top end of the water storage tank Therefore, no minerals or foreign substances are mixed in the circulating cooling water, so Innovation can be improved.

These or other objects, features and advantages of the present invention will become more apparent from the following detailed description of the embodiments with reference to the drawings.

1 is a block diagram of each member connection state in the water-cooled electric plate of the present invention. First, the electronic control means 10 is connected to the induction coil 20 of the electric plate, and then the coolant circulation from the induction coil 20 is performed. In this order, it is connected to the cooling device (30), the reservoir tank (4), the absorption pump (50), and the induction coil (20).

2 is a view showing an embodiment according to the present invention, and as shown in the drawings, mainly the electronic control means 10, the induction coil 20, the cooling device 30, and the water storage tank 40. And the absorption pump 50 is made of a combination, among them, the electronic control means 10 is omitted because it does not belong to the features of the present invention as a conventional electronic technology connected to the power supply.

As shown in FIG. 3, the induction coil 20 is formed by winding a hollow tube made of copper in a disc shape, and cooling the liquid 21 by circulating the coolant 21 in the hollow. The use of distilled water in (21) prevents the pipe from being blocked by foreign matters and prevents a short circuit even if it is circulated in a copper pipe for a long time provided with the best insulation. Insulating water pipes 22 and 24 having sufficient lengths are connected to both ends of the induction coil 20, and at the same time, both insulated water pipes 22 and 24 are wound in a coil shape to provide an inductive reactance. A fly pan 25 can be placed above the induction coil 20 to connect the induction coil 20 to the electronic control means 10.

The cooling device 30 is connected to an end portion of the inlet water insulated water pipe 24 of the induction coil 20, and reciprocates parallel to a bent shape in which a tube for cooling hot water (distilled water) flowing out of the induction coil 20 is cooled to an appropriate length. It is distributed to the tube body of the cooler 34 formed by the cooling fan 32 or it is cooled by a heat exchanger.

The water storage tank 40 accommodates and stores the refrigerated distilled water 21 refluxed from the cooling device 30, and is provided with an absorption cap 42 and a dustproof depressurizing tube 43 at its top end face, and prevents the depressurizing pipe ( 43) is isolated from the outside to keep the water quality of the circulating distilled water clean.

The absorption pump 50 connects one end to the bottom of the cooling device 30 and the other end to the inlet of the induction coil 20, and is wound by a small pump onto a coil of sufficient length to have an inductive reactance. By supplying a pressure in the insulated water pipe, the cooling distilled water 21 is circulated in the induction coil 20 formed by the hollow tube for cooling.

The present invention configured as described above is used in a power range of approximately 2KW ~ 30KW (suitable for catering cooking, such as a camp or work), the induction heating the induction coil (20) below the magnetic rich fly pan (25) Adjacent to each other, a strong magnetic field is generated by directing a strong high-frequency current to the induction coil 20 to generate an inductance eddy current in the adjacent surface with the fly fan 25 to generate heat, and to distribute the hollow tube of the induction coil. The induction coil is not damaged by the action of the circulating cooling water.

In fact, when the distillation sugar 21 flowing through the inside of the copper tube used in the induction coil 20 of the present invention is approximately 16 mm and the inner diameter is 12.8 mm, and is absorbed by an absorption pump, induction The distribution means in the coil 20 reaches about 4 liters / min, and can sufficiently cool the induction coil having a capacity of 16 KW. In other words, the heat energy of 1.58KW loss is 1.58KW × 0.24 (electric energy / thermal energy conversion coefficient), which is approximately 396Cal / sec, which is 395Cal × 60 seconds = 23700Cal = 2.37㎉ per minute, but if the owner's rise is less than 10 ℃ Since the amount of cooling water should be 23700 Cal ÷ 10 ° C ÷ 1 (specific heat) ÷ 1000 cc / liter = 2.37 litres, the flow rate of 4 l / min is sufficient.

What I would like to explain here is that there will be a tendency to misunderstand the principle of the present invention and the conventional high power melting furnace (typically 100 KW to 1000 KW) as the same, but the capacity of the furnace is so large that the loss of heat reaches 35 to 350 KW. Usually, a large air cooler (approximately 10T ~ 200T size) is used to cool the hot water flowing directly from the copper pipe, or go through a heat exchanger and then cool it in the air cooler.

On the other hand, the present invention is a device that uses a small electric power (up to about 30KW or less), if the air-cooler is installed, it is inconvenient to install a drainage or distribution pipe, which is inconvenient, and also increases the installation space. In the case of adopting 16KW, the loss of high power amount induction melting furnace is about 35 ~ 350KW for the loss of only 1.584KW. For example, if the loss is 100KW, it is about 60 times as 100KW ÷ 10584KW compared to the present invention. Heat energy is lost, and the present invention uses "cooling fan 32" at all costs and convenience, and the distilled water 21 in the cooling device 30 is isolated from the outside, and distilled water By using (21), excellent insulation is maintained, and the amount of thermal energy used is reduced, and even if the induction coil 20 is used for a long time, no minerals or foreign substances are contained in the water, and thus the service life is improved without clogging the pipe.

The present invention also solves the short circuit problem, that is, the inlet and outlet pumping pipes through the induction coil 20 are wound in a coil shape with sufficiently long insulated water pipes 22 and 24 so as to have sufficient inductive reactance. The leakage current of the current can be reduced to less than 1/1000 of the total power. For example, when 220V / 16KW is used, the leakage loss is 16W or less, so P = E ² / R, so that R is 16W = 220 ² / R. = 3025Ω (including electric resistance value and inductive reactance value), and the whole of the present invention is grounded with an advancing wire and the current measurement control device is installed again. It is possible to ensure the safety of users by always displaying the short circuit status.

In addition, the electric plate of the present invention is most ideally about 1000 Hz to 4000 KHz by using a high frequency.

The present invention is constructed as described above, while the induction coil itself always maintains a normal temperature, while distilled water is used as the circulating cooling water and the external air is blocked by induction heating of the fly pan placed on its upper surface. Since the distribution pipeline is not blocked, the service life is long, the fly pan is not burned, and the heat energy is relatively low. Therefore, the induction efficiency is high and the leakage amount is small. .

Claims (8)

An induction coil 20 connected to the electronic control means 10 by forming an electronic control means 10 coupled to a power supply means and a hollow tube body in a disk shape, filling a circulating coolant inside the hollow tube body. And a cooling device (30) integrally connected to the inlet / outlet end of the induction coil (20) to form a circulation circuit of cooling water, and in which the cooling device (30) formed by providing a cooling means and a suction / drainage means in the circuit. Plate, the water tank 40 for receiving the circulating cooling water flowing out from the cooling device 30 and its absorption end is connected to the bottom surface of the water tank 40, the water supply end of the induction coil 20 to the outlet means Water-cooled electrical plate formed by combining the feed pump 50 to connect the integrally. The water-cooled electrical plate according to claim 1, wherein the hollow tube is made of a copper metal material. The water-cooled electric plate according to claim 1, wherein distilled water (21) is used as circulating cooling water of the induction coil (20). 4. The cooling device (30) according to claim 3, wherein the cooling device (30) bends the warm distilled water (21) flowing out from the outlet of the induction coil (20) to a suitable length of the cooling device (30) in a reciprocating parallel manner. A water-cooled electric plate that is circulated in the formed cooler 34 and is cooled by a cold air fan 32 or by a heat exchanger. The water-cooled electrical plate according to claim 4, wherein insulated water pipes (22, 24) of sufficient length are connected to both ends of the induction coil (20). 6. The water-cooled electrical plate according to claim 5, wherein the positive insulated water pipes (22, 24) are coiled to have an inductive reactance. The method of claim 1, wherein the absorption pump (50) of the cooling device (30) is applied to the pressure in the two insulated water pipes (22, 24), the distilled water (21) is conducted in the induction coil (20) Water-cooled electrical plate configured to cool. The water-cooled electric plate according to claim 7, wherein a dustproof depressurization tube (43) is installed at a top end surface of the water storage tank (40) of the cooling device (30).