KR20090083999A - Electric a boiler - Google Patents

Abstract

An electric boiler is provided to suppress electric accidents due to disconnection and leak and to extend the life span of the radiating pipe by using silicon carbide or near infrared ray heater. An electric boiler(1) comprises a heating pipe(22), a body, and a controller. The heating pipe is embedded with a linear heater. The body comprises an inlet port(13), an outlet port(14) for letting heating water(4) in and out, a plurality of water storage pipes(11) which are stacked vertically and fitted with stoppers(21) on both sides, and a connection pipe(12) connecting the water storage pipes. The controller controls the heating water temperature by regulating the flow of current through the set heating water temperature and the signal from an operating switch. The outlet port is connected to the upper side of the water storage pipes and the inlet port is connected to the lower side of the water storage pipes.

Description

Electric boiler

The present invention relates to an electric boiler, and more particularly, a plurality of reservoir pipes are stacked in a vertical direction to provide a connection pipe connecting each reservoir pipe and an outlet at the top of the reservoir pipe and an outlet at the bottom thereof in a zigzag manner. A heating tube with silicon carbide heater or near-infrared heater is installed inside the heater to directly heat the heating water through a plurality of water pipes, and the heating water flowing through the inlet moves zigzag along the stacked water pipes with lower power. It is possible to reduce power consumption by rapidly heating at high temperature.

In general, a boiler is a device in which a heating device is built-in and the heating water is heated indirectly or directly by the heating device, and the heated heating water is circulated to be heated. The gas or petroleum boiler is mainly used as a water supply source. The water supplied from the heating was instantaneously heated to increase the temperature to provide heating water or to be heated through the heating pipe.

However, these boilers are classified into combustion type and electric type. In the case of combustion type, most of the heat efficiency decreases by indirect heating method, and heating boiler is more expensive than electricity in the high oil price era, and it causes air pollution. This is the preferred situation.

The electric boiler to solve this problem is provided with a separate large-capacity storage tank for storing the water supplied from the water supply source and an electric heater for heating the water contained in the storage tank to convert the water heated in the storage tank into heating water. It is designed to supply water by heating electric water by operating electric heater using low electricity rate mainly in the middle of the night, and economically by supplying heating water to heating pipe and tap water pipe by using heat storage of water heated in the middle of the night. It is possible to solve the problem of heating and supply of heating water, as well as to save the heat generated by using low-cost electric power at low cost in a large storage tank and use it for supplying heating and heating water.

An example of a conventional electric boiler is a heating water tank each provided with an inlet and an outlet connected to a heating hose in Korean Patent Publication No. 10-2007-0073137 (name of the invention: electric boiler); A circulation pump provided in the discharge unit and discharging the heating water discharged into the heating water tank by circulating the heating hose; A heat dissipation tube provided inside the heating water tank and provided with a carbon fiber heating element in a circular glass tube; Heating unit consisting of; A power supply device installed outside the heating water tank and supplying power to a carbon fiber heating element; And a heat dissipation tube equipped with a carbon fiber heating element, which is provided with a main body for accommodating the warm water tank, the power supply device, and the circulation pump. There was a problem that was difficult to use.

The present invention is to solve the above-mentioned conventional problems, in order to solve the problem of the electric boiler using a heat dissipation tube having a carbon fiber heating element as described above, a plurality of water pipes in the longitudinal direction of the interior of the electric boiler is laminated in the longitudinal direction. Zigzag inlet and outlet in the lower part of the connection pipe and the reservoir, and a plurality of heating tubes provided with silicon carbide heater or near-infrared heater inside the multiple water pipes at equal intervals. It is possible to reduce the power consumption by heating high temperature of heating water quickly with only a small amount of electric power.In addition, electric accidents such as disconnection, electric leakage, electric shock, and fire caused by overheating are common in heating devices using conventional carbon fiber heating elements. Can be reduced.

In order to achieve the above object, the present invention provides a heating tube 22 with a built-in heater 23 and a vacuum sealed tube, and a storage pipe 11 inside the case 2 to introduce the heating water 4. Body part 10 including the inlet 13 and outlet 14 for overflow and outflow, and the flow of current in response to the signal of the temperature sensor and heating water (4) set temperature and the operation switch in the body portion 10 In the conventional electric boiler configured to control the temperature of the heating water (4) by controlling the

The body portion 10 provided in the case 2 has a plurality of reservoir pipes 11 stacked in a vertical direction, but the connection pipe 12 and the stacked reservoir pipes connected between the stacked reservoir pipes 11 are stacked. The outlet port 14 and the inlet 13 in the lower part of the upper portion (11) in a zigzag and the stopper 21 is provided on both sides in each of the reservoir pipe 11 to connect the stopper 21 on both sides A plurality of heating tubes 22 are formed at equal intervals, but a linear heater 23 is provided inside the heating tube 22.

Therefore, in order to solve the problem of the electric boiler which appears when using the heat dissipation tube provided with the carbon fiber heating element as described above, a plurality of water pipes are provided vertically in the interior of the electric boiler and between each water pipe. Zig-zag connection pipes are installed in the water pipes to provide a number of heating tubes with silicon carbide heaters or near-infrared heaters.The heated heating water is moved zigzag along the stacked water pipes. It can generate heat quickly and reduce power consumption, and reduce the risk of fire by reducing electric accidents such as disconnection, electric leakage, electric shock and fire caused by heating device using conventional carbon fiber heating element. Of course, silicon carbide or near-infrared heaters can extend the life of the heat sink. It is.

Before describing the configuration for achieving the object of the present invention, the near-infrared heater is described, in which all materials with heat emit infrared rays, the sun being the most important natural light source of infrared rays and about 60% of the radiation from the sun It is composed of infrared rays, and infrared rays are short infrared rays, near infrared rays are long infrared rays, and near infrared heaters used in the present invention are infrared rays closest to the radiant heat of solar heat generated when the temperature of the heating element is 1800-2200 ° C. As the wavelength is 0.8㎛ ~ 1.4㎛, it does not warm air and heat is transmitted only to people and objects, and it is harmless to the human body. It is harmless to the human body and its thermal effect is 30 times better than that of far-infrared heater. The drying effect is good because heat is transferred to the dry object immediately without any heat loss.

In addition, SIC heater is a so-called silicon carbide heater as a synthetic material, the most important carbide in the ceramics field is the β phase with a cubic crystal structure and the α phase with a hexagonal crystal structure, β phase is 1400 ~ 1800 ℃ Stable in temperature range, α phase is formed at 2000 ℃ or higher, SiC has a molecular weight of 40.1, specific gravity is 3.21, and decomposes at 2500 ℃ or higher, so SiC has high temperature strength, wear resistance, oxidation resistance, corrosion resistance, creep resistance, etc. Due to its excellent properties, it is attracting attention as a high temperature structural material.

Electric boiler according to the present invention for achieving the above object is provided with a heater 23, a heating tube 22 sealed in a vacuum and a water reservoir 11 in the case 2 to provide a heating water ( 4) the inlet 13 and outlet 14 for the inlet and outlet of the body portion 10, and the temperature sensor and heating water (4) in the body portion 10 set the temperature and the signal of the operation switch In a conventional electric boiler configured to control the flow of current to control the temperature of the heating water (4),

As shown in FIG. 3, the body portion 10 provided in the case 2 has a plurality of reservoir pipes 11 vertically stacked, but a connection pipe 12 connecting between the stacked reservoir pipes 11. ) And the inlet 13 in the lower portion of the reservoir pipe 11 and the stacked inlet zigzag to connect.

A plurality of body parts 10 may be provided on the inner surface of the case 2 in which the water storage pipes 11 in which the plurality of water storage pipes 11 are stacked in the vertical direction are provided in the case 2 of the electric boiler 1. It is to fix the body portion 10 by forming the locking jaw (3).

The water storage pipe 11 formed in the body portion 10 is connected between the water storage pipe 11 adjusted by adjusting the number of water storage pipes 11 stacked in the longitudinal direction according to the capacity of the electric boiler (1). (12) can be used by zigzag connection.

As shown in FIG. 4, a plurality of heating pipes 22 are formed at equal intervals in the plurality of storage pipes 11 to provide stoppers 21 on both sides and to connect stoppers 21 on both sides. As shown in the inside of the heating tube 22 is to provide a linear heater (23).

The heater 23 provided in the heating tube 22 is most preferably used a near infrared heater or silicon carbide heater.

At this time, in order to provide a silicon carbide heater in the heating tube 22, it is most preferable to use an alumina tube that is an insulating material on the outer surface of the silicon carbide heater.

In addition, the present invention is characterized in that the heating circulation device (not shown) for circulating the heating water 4 in the interior of the water storage pipe 11 is further provided, and also installed in the electric boiler 1 and heating water (4) The control unit (not shown) for controlling the temperature of the power supply, the power of the power supply, the heating time of the heater and the operation of the heating circulation device is further provided.

Therefore, the electric boiler 1 of the present invention heats cold heating water 4 provided in each of the water storage pipes 11 of the body portion 10 by applying electricity to the heater 23 of the heating pipe 22. By zigzag to circulate through the body portion 10 to quickly heat the heating water (4).

In the present invention configured as described above, as shown in FIGS. 1 and 2, when heating or heating water 4 is required, when power is supplied to the electric boiler 1, power is immediately supplied to the heater 23 and at the same time the heating pipe 22 Heat is transmitted to the heat dissipation in the heating tube 22 and the heat dissipated is radiated to the surface of the heating tube 22 is heated to the provided heating water (4) of the water storage pipe (11) the body portion The heating water 4 filled in (10) is heated so that the temperature rises.

The high temperature heating water 4 flows through a heating pipe (not shown) through the outlet 14 by a heating circulation pump (not shown) to supply the necessary heating and heating water 4 and cold heating water 4 ) Will be introduced into the body portion 10 through the inlet (13).

In addition, the controller compares the heating water 4 temperature sensed by the temperature sensor (not shown) built into the body 10 with the set temperature, and controls the electricity applied to the heating pipe 22 to control the heating water 4. ) Can be controlled, the input signal and the control method of such a control is a technique commonly used in this field and a detailed description thereof will be omitted.

As described above, when the heating water 4 for heating purposes is required, the present invention directly controls the electric power applied to the heater 23 provided in the water storage pipe 11 to the inside of the water storage pipe 11. The heating pipe 22 is radiated to the heating pipe 22 of the provided heating unit 20 to urgently heat the heating water 4 provided in the respective storage pipes 11, and the heating pipes provided inside the storage pipe 11 ( 22, the heating water 4 provided in the interior of the reservoir pipe is heated and moves along the body portion 10 zigzag in the vertical direction while flowing through the inlet 13 provided in the lower portion of the body portion 10 As the cold heating water 4 is heated, it is to be discharged through the outlet 14 provided on the upper portion of the body portion 10.

1 is a front view illustrating an embodiment of the present invention.

Figure 2 is an exemplary side view showing an embodiment of the present invention

Figure 3 is a perspective view of the body portion of the present invention

4 is an exploded perspective view illustrating a disassembled water reservoir of the present invention.

5 is an exemplary view showing a cross-sectional state of the heating tube of the present invention.

* Description of the symbols for the main parts of the drawings *

1: electric boiler 2: case

3: hanging jaw 4: heating water

10: body portion 11: water reservoir

12 connector 13 inlet

14: outlet 20: heating portion

21: stopper 22: heating tube

23: heater

Claims (1)

Inlet 13 and outlet for the inlet and outlet of the heating water (4) by providing a heater (23) built-in and the vacuum tube 22 and the water reservoir (11) inside the case (2) Body part 10 including 14, and the temperature sensor and temperature of the heating water (4) built in the body part 10 receives the signal of the set temperature and the operation switch to control the flow of current to control the temperature of the heating water (4) In the ordinary electric boiler which comprises a control part to control, The body portion 10 provided in the case 2 has a plurality of reservoir pipes 11 stacked in a vertical direction, but the connection pipe 12 connecting the stacked reservoir pipes 11 and the stacked reservoir pipes The outlet port 14 and the inlet 13 in the lower part of the upper portion (11) in a zigzag and the stopper 21 is provided on both sides in each of the reservoir pipe 11 to connect the stopper 21 on both sides A plurality of heating pipes 22 are formed at equal intervals, but an electric boiler is provided with a linear heater 23 inside the heating pipe 22.

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