KR101212379B1 - liquid induction heating device - Google Patents

Abstract

The present invention relates to a liquid induction heating apparatus, and more preferably, to a device for heating a liquid which is formed by a low frequency magnetic field by an induction coil to which power is applied and which does not have chemical interaction with heat generated in the magnetic field. It is intended to be used to supply hot water and heating to heating systems, agricultural and municipal facilities using heated liquids.

Description

Liquid induction heating device

The present invention relates to a liquid induction heating apparatus, and more preferably, to a device for heating a liquid that is formed by a low-frequency magnetic field by a coil to which power is applied and does not have chemical interaction with heat generated in the magnetic field. It is intended to be used to supply hot water and heating to heating systems, agricultural and municipal facilities using heated liquids.

Generally, the liquid induction heating apparatus has one or more induction coils covering one or more liquid pipes. The liquid flows through the channel system with the loops and spirals that make up the ground fault circuit. When the induction coil is turned on, the channel system is heated so that the liquid flowing therein is also heated (EPV № 0075811, H05B 6/10, F24 H 1/10, 1983).

However, the disclosed patent has a disadvantage in that the energy loss due to the high electric resistance, that is, the efficiency of the device is insufficient because the channel system volume is large. Alternatively, numerous rings and spirals in the channel system not only impede the flow of liquids, but also the induction heating apparatus is difficult to manufacture and the channel system includes a large number of components, which leads to high metal material consumption. In addition, since a low frequency current (50 mA) is used to manufacture the coil of the device, copper wire is used a lot.

The liquid induction heating apparatus also includes one induction heater comprising at least one induction coil with a gasket. Induction coils cover the round tank tanks connected to the pipes for the purpose of supplying and discharging liquid through the inlet branch pipes which are sequentially connected to the AC power regulator. The power source uses the -AC frequency of 50 ((France № 2568083, H05 B 6/10, 1986).

Electromagnetic energy of the induction heater shell tends to have low power factor (0.70 to 0.78) because of incomplete absorption and heat release from the external induction coil surface to the contact space. In addition, a thick induction coil composed of a copper wire due to the use of a low frequency current (50 mA) is used. This results in a loss of resistance, resulting in a low efficiency factor down to 0.80 to 0.85. In addition, the method of manufacturing the device is non-saving because of the thick walls.

And the closest analogue of the disclosed technology device is a liquid induction heating device such as water described in patents "SU № 1019676 A1, H05B 6/10, 1983".

The device is mounted in a circular barrel body having a lid and a lower end, an inner ring having a hole and a branch pipe for entry and exit of the heating liquid, an inductor, an entry pipe for passing the heating liquid, and a tube with an annular gap. Solid cores with end-to-end channels for liquid passage. The end-to-end channel is connected to the outlet branch, the annular gap is connected to the inlet branch on one side and the core end-to-end channel on the other side. The connection area is covered by a cover adjacent to the tube.

Therefore, the apparatus has the following disadvantages.

As the liquid passes through the end-to-end channel, the sediment (scale) particles are pressurized and inevitably accumulate on the inner wall of the channel by the stream. As the scale builds up, the sections of the channel are smaller, which reduces the performance and efficiency of the device. In addition, over time, the channel is completely blocked and the device fails. The relatively long lengths and small diameters of the channels make routine maintenance difficult, increasing operating costs.

The direct contact area between the inner wall of the tube and the liquid is small due to the heat dissipation from the induction coil surface to the contact space and the relatively small heating area. This limits the heating rate.

-The efficiency of converting electrical energy into heat energy due to heat release from the induction coil surface is limited.

There is a technical problem and the cost of solid core materials with end-to-end channels.

[Document 1] EPV № 0075811, H05B 6/10, F24 H 1/10, 1983. [Document 2] France № 2568083, H05 B 6/10, 1986. [Document 3] SU № 1019676 A1, H05B 6/10, 1983

The present invention was created to solve the above problems, and an object of the present invention is to provide a liquid induction heating apparatus capable of maximum heat exchange and rapid and continuous heating due to a simplified design.

The technical results of the present invention are also aimed at increasing the efficiency, increasing the durability of the device due to minimization of scale and increasing the stability and durability of all components.

Referring to the configuration of the present invention for achieving the above object based on the accompanying drawings as follows.

As shown in the drawing, a plurality of protrusions protrude to one side of the core 220 wound around the coil 210 to form the protruding core 221, and the protruding core 221 can be inserted therein. The first connection pipe 271 connected to the liquid supply pipe 250 is formed by forming a plurality of liquid storage tanks 230 having through holes 240 connected to the liquid storage tank 230, and connected to the liquid storage tank 230. The second connection pipe 270 provides a liquid induction heating device, characterized in that configured in connection with the liquid discharge pipe 260.

In addition, in the present invention, the core 220 is fixed to the liquid storage tank 230 so that the protruding core 221 of the core 220 is fixedly inserted into the through hole 240 of the liquid storage tank 230, and the liquid storage is performed. Tank 230 provides a liquid induction heating device, characterized in that configured to be fixed to the support (280).

In addition, the present invention is the liquid storage tank 230 is connected by a storage tank 110 for storing hot water and the circulation pump 100, the hot water stored in the storage tank 110 is connected to the heating and hot water supply line It provides a liquid induction heating device characterized in that the configuration.

The present invention by the above configuration can reduce the waste of electricity because it forms a magnetic field to heat the liquid has the effect of increasing the coefficient and efficiency coefficient of useful conversion of electrical energy to thermal energy to 0.99.

In addition, there is an effect of increasing the liquid heating rate value due to the increase in the resistance heating surface associated with 3-channel heat removal.

In addition, since the present invention heats the liquid in the liquid storage tank by the heat generated in the magnetic field generated by the low frequency, the structure is simple and the effect can be made compact.

And when liquid flow continuously and repeatedly traverses the magnetic field generated by the low frequency in the core (when setting its reasonable strength), the service life is extended because the formation of scales on the inner and outer surfaces of the structural elements of the device is reduced as much as possible. .

The low frequency liquid induction heating apparatus of the present invention is widely used in heat supply systems. That is, there is an effect that can be used a lot in buildings and facilities for greenhouses and production industries.

1 is a cross-sectional view showing a liquid induction heating apparatus of the present invention.
2 is a schematic diagram of a liquid induction heating apparatus and hot water and a heating apparatus of the present invention.

Hereinafter, with reference to the accompanying drawings will be described a preferred embodiment according to the present invention.

As shown in Figures 1 and 2, when explaining the configuration of the liquid induction heating apparatus 200 'of the present invention, a plurality of protruding core 221 is formed on one side of the core 220 to generate heat The outer circumferential surface of the protruding core 221 is formed by winding an induction coil 210. The liquid includes all substances that can generate heat while being heated, such as water.

And installed to correspond to each of the protruding core 221, a plurality of liquid storage tank 230 is formed with a through-hole 240 in one surface inside so that the protruding core 221 can be inserted.
At this time, the through hole 240 is formed inside each of the liquid storage tank 230 separately. Therefore, in order to heat the liquid stored in each liquid storage tank 230 with the heat generated from the induction coil 210, the protruding core 221 is inserted into the through hole 240 formed in each of the liquid storage tanks 230. do. At this time, in order to prevent the protruding core 221 inserted into the liquid storage tank 230 from being flowed or separated, the liquid storage tank 230 and the core 220 are fixed by the fastener 300.

In addition, a plurality of first connection pipes 271 connected to the liquid storage tank 230 are branched from the liquid supply pipe 250 to each of the plurality of liquid storage tanks 230, and to the plurality of liquid storage tanks 230. The plurality of second connection pipes 270 connected to each other are connected to the liquid discharge pipe 260, respectively. That is, the liquid supply pipe (250) through the liquid supply pipe 250 is supplied to the liquid storage tank 230 to be discharged through the liquid discharge pipe 260, respectively, on one side and the other side of the respective liquid supply tank 230 250 and the liquid discharge pipe 260 is a configuration connected by the first connecting pipe (271) and the second connecting pipe (270). As shown in FIG. 2, a circulation pump 100 for circulating the liquid is formed between the liquid discharge pipe 260 and the storage tank 110, and the induction heating apparatus 200 ′ controls the operation. The control unit 120 is connected. In addition, the storage tank 110 for storing the heated liquid is also connected to the control unit 120.

And the hot water detection circuit 111 for detecting the level of hot water is mounted between the control unit 120 and the storage tank 110, and between the circulation pump 100 and the control unit 120 to the circulation pump 100 The circulation pump electricity supply circuit 112 for supplying the is installed. In addition, a power supply circuit 113 is installed between the liquid induction heating apparatus 200 ′ and the control unit 120 so as to control the power on and off.

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Therefore, when the power is turned on by the control unit 120, the power is supplied to the induction coil 210 by the operation of the power supply circuit 113 and the circulation pump 100 connected to the circulation pump electric supply circuit 112 is also used. It works.

The heat generated as described above heats the liquid in the liquid storage tank 230 surrounding the outside of the induction coil 210, and the heated liquid is circulated by the operation of the circulation pump 100 to connect the second connection pipe 270. Through the liquid discharge pipe 260 is supplied to the storage tank 110 and stored.

The liquid stored in the storage tank 110 is used again by moving to the hot water and heating system used by the consumer through the hot water supply line 130. At this time, the water level control of the liquid 80 stored in the storage tank 110 is checked by the hot water detection circuit 111 at any time under the control of the control unit 120 to operate the liquid induction heating apparatus 200 'by low frequency. Control the amount of circulating liquid.

In addition, the temperature of the liquid circulated and heated inside the liquid storage tank 230 is heated to a constant temperature, which is also configured to control the temperature in the control unit 120. And the circulation pump 100 is equipped with a valve system of the back flow type to block the liquid reflux.

In order to smoothly operate the liquid induction heating apparatus 200 'in a stable state, the liquid induction heating apparatus 200' is fixedly supported by the fastener 310 and used.

100: circulation pump 110: storage tank
111: hot water detection circuit 112: circulation pump electricity supply circuit
113: power supply circuit 120: control unit
130: hot water supply line 200 ': liquid induction heating device
210: induction coil 220: core
221: protruding core 230: liquid storage tank
240: through hole 250: liquid supply pipe
260: liquid discharge pipe 270: second connector
271: first connector 280: support
300: fastener 310: fastener
80: liquid

Claims (3)

An induction coil 210 wound on an outer circumferential surface thereof, the core 220 having a plurality of protruding cores 221 formed on one side thereof;
A plurality of liquid storage tanks 230 installed to correspond to each of the protruding cores 221 and having a through hole 240 formed in one surface of the protruding core 221 so as to insert the protruding cores 221;
A liquid supply pipe 250 for supplying a liquid to the liquid storage tank 230;
A plurality of first connection pipes 271, one end of which is branched from the liquid supply pipe 250, and the other end of which is connected to each of the liquid storage tanks 230;
A liquid discharge pipe 260 for discharging the liquid heated in the liquid storage tank 230 to the outside; And
A plurality of second connection pipes 270 having one end connected to each of the liquid storage tanks 230 and the other end connected to the liquid discharge pipe 260; Including,
A fastener 300 for fixing the core 220 to the liquid storage tank 230 such that the protruding core 221 of the core 220 is fixedly inserted into the through hole 240 of the liquid storage tank 230; Wow
Fasteners 310 for fixing the liquid storage tank 230 to the support (280); Liquid induction heating apparatus comprising a further.
In claim 1,
The liquid storage tank 230 is connected by a storage tank 110 for storing hot water and a circulation pump 100, and the hot water stored in the storage tank 110 is connected to a heating and hot water supply line. Liquid induction heating device. delete

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