KR100741316B1 - Boiler Utilizing the method of Microwave Dielctric Heating - Google Patents

Abstract

The present invention relates to a boiler using a microwave dielectric heating method, and more specifically, one or more multi-stage microwave chamber (3) is installed up and down or left and right in the chamber, the synthetic resin water passing through the material having a low dielectric constant A plurality of pipes 31 are installed to communicate with each other, and a microwave generator consisting of a horizontal electric copier 32, a vertical electric copier 33, a magnetron 34, and a high-voltage transformer 35 is installed on the side of the chamber. When passing through the water pipe 31 installed in (3) as a boiler to irradiate the water in the water pipe 31 from the microwave generator from the microwave generator installed on the side of the chamber (3) to heat the water by the microwave dielectric heating method It is a new type of boiler that has the function of hot water or steam boiler according to the setting of heating temperature. Allowed to cool treatment in such a way as to cool the heat generated in the device with water, a semi-permanent boiler with improved energy efficiency using up by supplying the pre-heated water in the water pipes in the chamber (3), wherein waste heat generated.

Microwave, Chamber, Water Pipe, Vertical Field Copy Machine, Horizontal Field Copy Machine

Description

Boiler Utilizing the method of Microwave Dielctric Heating             

1 is a boiler configuration of the present invention

Figure 2 is a longitudinal side view of the waveguide copier of the present invention.

3 is an inner side view of the waveguide copier of the present invention.

Figure 4 is an example of mounting the vertical electric radiation of the present invention

5 is an exemplary view of mounting the horizontal electric radiation of the present invention

Figure 6 is an exemplary configuration of the thermostat according to the present invention

7 is an exemplary view illustrating a steam generating boiler according to the present invention.

* Explanation of symbols for main parts of the drawings

A: direct inlet B: return inlet

C: Overflow D: Drain

E: Hot water outlet G: Electric field direction

F: Electric Field 1: Expansion Tank

2: Steady Themal Tank

3: Microwave Chamber

4: Preheat Tank

10, 50: solenoid valve 101: direct inlet pipe

102: overflow pipe 103: return pipe

104: water supply pipe 20: temperature sensor

201: auxiliary heating circulation pipe 202: hot water discharge pipe

203: expansion tube 204: hot water inlet tube

30: sleeve ring 301, 302: cooling water return pipe

303, 304: cooling water inlet pipe 31: water pipe in the chamber

32: horizontal electric copy machine 32 ': copy opening

33: vertical electric copier 33 ': copy opening

34: magnetron 34 ': antenna

35: high pressure transformer 36: magnetron cooling water pipe

37: high pressure transformer cooling water pipe 401: preheated water supply pipe

60: circulation pump 70: drain valve

80: hot water reservoir 801: air discharge pipe

802: hot water outlet 90: steam tank

91: steam safety valve 92: condensate valve

93: water tank 94: steam opening and closing valve

93a: water supply unit 901: water supply pipe

902: condensate recovery pipe 904: steam outlet

The present invention is a invention in which water is heated by microwave dielectric heating in a boiler, a synthetic resin water pipe made of a low dielectric constant material in the chamber by constructing a microwave chamber in one or more than one stage in the boiler heating portion. The present invention relates to a boiler using a microwave dielectric heating method, which is capable of directly heating water in a tube by irradiating microwaves from a microwave generator installed on the side of the chamber and passing through a water pipe in the chamber.

Various boilers currently used take the form of heating water using oil, gas and electricity as heat sources. Oil and gas boilers burn oil or gas into a burner to heat the pipe through which the heat of combustion passes, and this heated heat is transferred into the pipe to heat the water. Due to the high temperature of the inner wall of the pipe, the inorganic material such as lime or iron dissolved in water is fixed to the wall of the pipe, causing scale, and reducing the thermal efficiency of the boiler. There is a problem that needs to be replaced.

In the case of an electric boiler, a heat transfer heater (a rod-shaped resistor made of tungsten, etc.) is placed in a tank containing water, and electricity is supplied to the heat transfer heater to generate heat to the heater so that the water in the tank contacts the heater. The water was allowed to heat up. At this time, since the surface temperature of the heat transfer heater to which water is high is high, minerals such as lime or iron dissolved in the water are fixed to the heat transfer heater to generate scale. Even in this case, if the scale is continuously stacked, the thermal efficiency is decreased, and heat in the heater is not dissipated out, and the electric heater melts and disconnects. As such, the conventional boiler has a problem in that the heating efficiency is gradually reduced due to the accumulation of scale in the heating tube due to the high heat generated by the combustion energy or the electrical energy, thereby indirectly heating the water, and eventually the heating tube needs to be replaced.

The present invention is to invent a boiler for heating water using a microwave dielectric heating method to solve the above problems, described in detail with the accompanying drawings as follows.

The microwave chamber (3) is installed in multiple stages up and down or left and right (I have illustrated three stages installed up and down here), and the horizontal electric field copier 32 and the vertical electric copier 33 ) And a microwave generator consisting of a magnetron (34) and a high voltage transformer (35). Attach the horizontal electric field copying machine 32 so that the horizontal electric field is copied inside, and then install the magnetrons 34 on the horizontal electric field copying machine 32 and the vertical electric field copying machine 33 respectively.

The upper and lower boundary surfaces of the chamber 3 are attached with a sleeve ring 30 for shielding the water pipe, and a lower dielectric constant through these sleeve rings 30 is made of synthetic resin. The water pipe 31 of the lower chamber (3) is installed to pass through the upper chamber (3), each of the water pipe is configured in a coil shape and the pipe 31 coming out of the upper chamber (3) to collect the connection pipe (204) To the constant temperature water tank (2).

The magnetron 34 is equipped with a coil pipe 36 for cooling water circulation and a coil pipe 37 for cooling water circulation is also attached to the high pressure transformer 35, so that these cooling water circulation pipes 36 and 37 are circulating pumps. 60) It is connected to the outlet and the drain outlet is connected to the preheating tank (4).

The upper portion of the constant temperature water tank (2) is connected to the temperature sensor 20 and the hot water discharge pipe 202, and also connected to the expansion pipe 203, the opposite side of the expansion pipe 203 falls into the expansion tank (1).

The bottom side of the constant temperature water tank (2) is connected to the constant temperature auxiliary heating circulation pipe 201, which is connected between the preheat tank (2) and the lower chamber (3) via a solenoid valve (50). .

Float switch (11) is installed on the upper part of the expansion tank (1), and an overflow pipe (102) and a water pipe (101) are installed on the upper side and a solenoid valve (10) on the pipe opposite to the water supply pipe (10). ).

A water supply pipe 104 is installed between the lower part of the expansion tank 1 and the circulation pump 60, and a drain valve 70 is connected to one end of the T pipe by connecting a T pipe in the middle of the water supply pipe 104. And the return pipe 103 is installed to complete the boiler device.
Referring to the operation process of the present invention as described above, the present invention can be classified into two functional processes.
The first function is a process of heating the cold water flowing into the direct water to the set temperature, the cold water is supplied to the expansion tank (1) through the direct water inlet (A), the solenoid valve 10 and the direct water inlet pipe 101 and the expansion tank ( The cold water of 1) passes through the high pressure transformer cooling water pipe 37 and the magnetron cooling water pipe 36 through the water supply pipe 104, the circulation pump 60, and the water supply pipe 303, 304, and the cooling water return pipe 301 ( The preheat tank 4 is reached via 302. The preheated water reaching the preheating tank 4 is fed to the preheating water supply pipe 401 to the water supply pipe 31 in the chamber so that the preheated water is heated by the microwave while passing the water supply pipe 31 and heated. The water passing through the water pipe (31) is sent to the constant temperature water tank (2) at this time, the temperature sensor in the constant temperature water tank (2) detects the temperature of the heated water entering the constant temperature water tank (2) and the microwave chamber ( 3) By adjusting the amount of water going into the circulation pump 60 to maintain a constant temperature of the water.
The second function is that the heated water in the constant temperature water tank (2) cools down and reaches the set temperature.
If the water flows into the constant temperature water tank (2) at the initial temperature of the boiler does not reach the set temperature, the circulation pump (60) is stopped and the water in the constant temperature water tank (2) is the auxiliary heating circulation pipe (201) and Water supplied through the solenoid valve 50 to the water pipe 31 is heated by microwaves while the preheated water passes through the water pipe 31, and the water passing through the heated water pipe 31 is a constant temperature tank ( The water continues to circulate until the temperature of the heated water sent to 2) and into the constant temperature tank (2) reaches the set temperature. When the water in the constant temperature water tank 2 reaches the set temperature, the solenoid 50 is closed and the circulation pump 60 starts operation again to heat cold water.
In the above, the heated water introduced into the constant temperature water tank (2) is sent to the heating system or the hot water storage tank through the hot water discharge pipe (202), and the expanded water and the generated air in the constant temperature water tank (2) is expanded tube (203) It is sent to the expansion tank (1) through.
Thus, the boiler of the present invention has a function of maintaining the constant temperature by opening and closing the solenoid valve 50 to reach the set temperature of the water temperature in the constant temperature tank (2) and of the water supplied to the boiler with the circulation pump (60) By adjusting the amount, the water temperature of the boiler can be controlled.
When the temperature sensor 20 in the constant temperature water tank 2 is set at 100 ° C. in the boiler, water is heated until the water in the thermostat reaches a boiling point, and thus steam may be generated.

In the present invention as described above, the microwave energy passes through the tube 31 in the chamber 3 in the chamber 3 and is irradiated directly to the water in the tube 31 so that the water is heated by the dielectric heating method. Temperature is much lower than the surface temperature of the heating tube or electric heater, so the mineral dissolved in the water sticks to the tube and scale does not occur. Also, the scale does not cause clogging or decrease in thermal efficiency. . In addition, the heat loss in the magnetron and the high-pressure transformer generated during the microwave generation process preheats the boiler water by cooling water circulation method, thereby minimizing the heat loss, thereby improving the thermal efficiency of the boiler and the energy of the microplate attached to both sides of the chamber Since the electric field progress direction of both sides becomes vertical and horizontal so as not to interfere with each other in the inside, a high electric field is formed and rapid heating is performed. Such a boiler can be applied to a hot water boiler, a thermostat and a steam boiler, and thus has high utilization, construction, and food. It is of great advantage in industrial fields such as medical, medical and textile processing.

Claims (4)

An electromagnetic wave shielding sleeve 30 is installed above and below the microwave chamber 3, and a plurality of water pipes 31 in the chamber made of synthetic resin are made of a material having a low dielectric constant. Arranged so as to be moved upward from the lower side and forming radiation openings 32 'and 33' on the outer wall of the chamber, perpendicular to the horizontal electric field copying machine 32 in which horizontal electric fields are radiated to each of the radiation openings 32 'and 33'. A vertical electric field copying machine (33) is attached to both sides of the chamber so that an electric field is radiated, and a magnetron (34) is installed on each of the horizontal electric field copying machine (32) and the vertical electric field copying machine (33). 31) A boiler using a microwave dielectric heating method that operates a microwave generator when water is passed through, so that the water in the water pipe 31 in the chamber can be heated by the microwave dielectric heating method. The microwave chamber 3 is a boiler using a microwave dielectric heating method of claim 1, wherein the microwave chamber 3 is multistage in one or more stages, and the chambers 3 are stacked one above the other, vertically or horizontally to heat a large amount of water by the microwave dielectric heating method. delete The method of claim 1, wherein the water is heated in the microwave chamber (3) to set the temperature sensor in the constant temperature tank to reach a boiling temperature of 100 ℃ or more to generate steam and to store the steam in the steam tank (90) Boiler using microwave dielectric heating method

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