KR200374076Y1 - Boiler use heat medium oil - Google Patents

Abstract

The present invention relates to a boiler using heat medium oil. More specifically, the heat medium is provided inside the body of the boiler to fill the heat medium oil having high heat conductivity and heat storage property. An electric coil that generates heat by means of a separate power supply device is connected to the outside, and heat is transferred to the spiral pipe through the heat medium oil so that hot water can be discharged through the discharge pipe. The production cost is low, and since heat is generated by electric coils, it eliminates the need for a chimney of a boiler that is burned by conventional briquettes, gases, and petroleum. will be.

That is, the injection hole (2) is provided in the upper portion of the body (10) of the boiler (1) and the heat medium tank (16) for accommodating the heat medium therein, a plurality of winding rods (11) on one side of the heat medium tank (16) Protruding to form a spiral tube (13) wound around the winding (11) to provide an input pipe 14 and the discharge pipe 15 through both ends to the outside, the lower portion of the heat transfer tank (16) the electric coil (12) By installing it is to connect to the outside through the usual external power supply (17).

Description

Boiler use heat medium oil

The present invention relates to a boiler using thermal oil, and more particularly, to improve heating efficiency and facilitate hot water supply by filling a thermal fluid having high heat conductivity and heat storage property inside the body of the boiler.

Commonly used boilers use briquettes, oil, and gas as raw materials to burn in a burner, and the heat is discharged through exhaust pipes through the heat and exhaust parts through a plurality of associations, where the heat of the burners is associated with the combustion chamber. By passing through the reheating unit and the exhaust gas through the water of the tank to enable heat exchange with the heat exchanger.

However, since these boilers have to burn and consume briquettes, oil, and gas in the burner as raw materials, the cost of raw materials rises and the heat generated at the same time is easily discharged to the exhaust pipe through the regenerator and the flue gas. Difficulties in maintaining the heat in the furnace make it uneconomical and of low thermal efficiency.

Therefore, the above problems of the conventional non-economic and low thermal efficiency boiler are improved, and the high thermal efficiency and economical boiler is preferred.

The present invention is to solve the above-mentioned conventional problems, in order to solve the inefficient and uneconomical problems of the boiler as described above, by filling the heat medium oil inside the boiler to place a spiral tube in the center through the inlet and outlet pipe In addition, by providing a separate heat transfer device on one side to transfer heat to the heat medium oil through a discharge pipe through the input pipe, a boiler that facilitates the hot water supply easily.

This will be described in more detail together with the accompanying drawings.

1 is an exemplary view showing an embodiment of the present invention

2 is a front view illustrating an embodiment of the present invention

3 is a cross-sectional view taken along line AA ′ of FIG. 2.

4 is a cross-sectional view taken along line BB ′ of FIG. 2.

5 is an exploded perspective view of the present invention.

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

1: boiler 2: inlet

10: body 11: a winder

12 electric coil 13 spiral tube

14: input pipe 15: discharge pipe

16: heat exercise 17: power supply

As the configuration of the boiler (1) using a heat medium to achieve the object of the present invention as shown in Figure 1 provides an injection port (2) in the upper portion of the body 10 of the boiler (1) and the fruit that can accommodate the heat medium inside Providing gymnastics (16), but one side of the heat exercise (16) protruding to form a plurality of plunger (11) wound around the spiral tube (13) on the brace (11) inlet pipe 14 through both ends to the outside And the discharge pipe 15 is provided, and the electric coil 12 is installed in the lower portion of the heat transfer tank 16 is connected to the outside through a normal external power supply device 17.

In the embodiment of the electric coil 12 installed in the lower portion of the heat transfer tank 16, as shown in FIG. 4, a zigzag arrangement may be used to facilitate heat transfer of the heat transfer tank 16. As shown in FIG.

The winding stand 11 is formed to protrude upward from the lower side of the inside of the body 10 as shown in FIG. 3 to facilitate the winding of the spiral tube 13 and to fix the wound spiral tube 13. .

In general, the heat medium oil used in the present invention functions to transport heat, and when heat is directly heated without circulating the heat medium oil, it is used for a long time under high temperature conditions from 100 ° C to 400 ° C. It is recommended to select a product with good safety, low vapor pressure, high flash point, flash point and spontaneous flash point, low viscosity and low coefficient of thermal expansion.

Shell thermia oil (Shell Thermia Oil) which is most suitable for the present invention among the commonly used heat medium oils is manufactured using mineral oil as base oil, and can be used up to 320 ° C in a closed indirect heating method, and the vapor pressure of oil at a temperature below this temperature. Since it is kept below atmospheric pressure, no steam is generated inside the sealed system, therefore, no high pressure piping or heat exchanger is required, and because of its excellent temperature / viscosity characteristic, it has a high heat transfer coefficient at high temperature and high refined base oil is used. It maintains excellent thermal stability until the end of pyrolysis and oxidation rate, so it guarantees long life, and it is not corrosive and harmless to human body.

The present invention configured as described above seats a spiral tube 13 wound several times on a plurality of winding rods 11 formed on one side of the heat transfer tank 16 provided inside the body 10 of the boiler 1 so that both ends of the body 10 ) The inlet pipe 14 and the outlet pipe 15 are provided to communicate with the outside, and the electric coil 12 is provided at the lower portion of the heat medium tank 16 to be connected to the external normal power supply device 17 to connect the body 10. Filling the heat medium oil by the injection hole (2) formed in the upper portion.

Thus, when heat is generated at one side of the heat transfer tank 16 of the body by the electric coil 12 operated by the conventional power supply device 17, the heat is transferred to the filled heat transfer fluid oil so that the maximum temperature can be transferred to 320 ° C. When the heat is transferred to the spiral pipe 13 located in the center through the discharge pipe 15 through the external inlet pipe 14 to enable hot water supply.

The electric coil 12 installed in the lower portion accommodates the lower bottom front surface of the heat medium tank 16 so as to arrange the electric coils in a zigzag shape to facilitate the transfer of heat generated from the electric coil 12 to the heat medium oil. It is.

Therefore, the present invention makes it possible to fix the spiral tube inside the body by a plurality of winding rods, and to fill the heat medium oil to transfer heat by the electric coil on one side, so that a separate tank is not necessary and thus the structure is simple. The production cost is low and heat is generated by electric coils, which eliminates the need for a boiler chimney that is burned by conventional briquettes, gases, and petroleum, thus eliminating manure to clean the boiler as well as the environment. Even there is an advantage to facilitate.

Claims (1)

The injection hole 2 is provided in the upper part of the body 10 of the boiler 1 and the heat medium tank 16 which accommodates a heat medium is provided inside, but the one side of the heat medium tank 16 protrudes and forms a plurality of winding stands 11. The spiral pipe 13 is wound around the winder 11 to provide an input pipe 14 and an outlet pipe 15 passing through both ends to the outside, and an electric coil 12 is installed at the lower portion of the heat tank 16. Boiler using thermal fluid, characterized in that connected to the outside through a normal external power supply (17).