KR19990064387A - Oil heating boiler - Google Patents

Abstract

The present invention is to provide a heating oil and hot water within a short time it is possible to provide an oil heating medium boiler that can significantly save energy. The present invention is a boiler including a heat exchanger for indirectly heating the heat medium filling the storage tank by the heat of the combustion unit to heat the fluid therein, and a hot water heat exchanger and a heating device for heating and circulating the water supply by the fluid heated through the heat exchanger. In the above, the heat medium of the storage tank is characterized by using oil having a higher boiling point than water.

Description

Oil heating boiler

The present invention relates to a boiler using a heated fluid to heat a room by heating the room and using the water supplied as hot water, and more particularly, using a heat medium as an oil to increase the temperature to a high temperature in a short time and heat for a long time. This relates to an oil heating medium boiler that does not fall easily.

In general, to maintain a constant temperature in a certain space to increase the efficiency of work is called air conditioning, the artificial means used at this time is called an air conditioning device. An air conditioner includes a cooling device that lowers the temperature of indoor air and a heating device that increases the temperature.

At this time, the heating device is divided into various types according to the energy source, and is divided into an oil boiler using oil and a gas boiler using gas. Both oil boilers and gas boilers use oil and gas as ignition materials to heat the fluid in the heat exchanger using heat generated by the oxidization of these ignition materials, and increase the temperature in the room by circulating the heated fluid. At the same time serves to provide hot water.

On the other hand, the heating device (hereinafter, referred to as a boiler) raises the temperature of the heat exchanger by boiling water by heating the combustion device (fire) by placing water as a heat medium in a storage tank when indirectly heating the fluid of the heat exchanger. At this time, the temperature of the water in the storage tank is up to 100 ℃, the steam temperature inside the boiler only rises up to 150 ℃.

Therefore, the hot water of the hot water heat exchanger, which heats the water supplied by using the heating water heated by the heat exchanger, is also used to use water as a heat medium inside the storage tank for indirectly heating the heat exchanger since the temperature is determined by the heating water. There is a limit and this necessitates the need for another thermal medium with good thermal efficiency.

In addition, the boiler raises the temperature of the fluid by heat exchange between the burned heat of the combustion unit and the fluid of the heat exchanger without using a storage tank when it is desired to directly heat the fluid of the heat exchanger. This type of boiler is cheap and uses water as the fluid of the heat exchanger. Even in the direct heating method, the boiling temperature of the water inside the heat exchanger is only 100 ° C. Again, there was a hassle to ignite the heat of the combustion section to raise the water temperature of the heat exchanger.

The present invention devised to solve the above problems can be secured heating and hot water within a short time by using oil instead of the water used in the heat medium in the storage tank when the boiler is indirect heating structure of the heat exchanger. The purpose is to provide an oil-heated boiler that can significantly save energy.

The present invention devised to solve the above problems is to secure heating and hot water in a short time by using oil instead of water when the boiler is an integrated heating heating structure of the heat exchanger. And this has another purpose to provide an oil heating boiler that can save a lot of energy.

1 is a system diagram showing a gas boiler which is an embodiment of an indirect heating type oil heating medium boiler according to the present invention;

2 is a system diagram showing an electric boiler which is another embodiment of an indirect heating type oil heating medium boiler according to the present invention;

Figure 3 is a system diagram showing an embodiment of the oil heating medium boiler of the direct heating method according to the present invention.

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

10,40: combustion part 12,42: gas valve

12a, 42a: control valve 14, 44: manifold

14a, 44a: Bunsen burner 16, 16 ', 46: pipe

16a, 46a: heat absorbing plate 17, 47: ignition transformer

17a, 47a: flame detector 18, 48: overheat protection sensor

48a: temperature sensor 19,49: blower

20,50: heat exchanger 22,54: pump

24 ,: safety valve 36: electric heater

The object of the present invention described above is a heat exchanger for heating the fluid inside by indirectly heating the combustion medium and the heat medium filling the storage tank by the heat of the combustion part, and a hot water heat exchanger for heating and circulating the water supply by the fluid heated through the heat exchanger A boiler comprising a heating device and a heating device is achieved by an oil heating medium boiler characterized by using oil having a higher boiling point than the heating medium of the storage tank.

Another object of the present invention described above includes a combustion unit, a heat exchanger for directly heating the fluid inside by the heat of the combustion unit, a hot water heat exchanger and a heating device for heating and circulating the water supply by the heated fluid of the heat exchanger. In the boiler, the fluid of the heat exchanger is achieved by an oil heating medium boiler, characterized in that the use of oil having a higher boiling point than water.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a system configuration diagram illustrating a gas boiler which is an embodiment of an indirect heating type oil heating medium boiler according to the present invention. The gas boiler of the present invention is close to the combustion unit 10 and the combustion unit 10. And a storage tank 30 for heating oil, which is a heat medium 32 filling the inside by the heat of the combustion unit 10, and a heat exchanger 20 for heating the fluid inside by heating the heat medium in the storage tank 30. Although not shown in the drawings, and a hot water heat exchanger for heating the water supply by the fluid heated through the heat exchanger 20, and a heating device for circulating the heated fluid of the heat exchanger 20 to heat the room. .

Combustion portion 10 of the gas boiler is a gas boiler structure of a conventional indirect heating method is supplied with gas through the solenoid valve 12a for adjusting the amount of gas supplied through the gas valve 12, the Bunsen burner ( The manifold 14 with 14a) is being fixed. In the Bunsen burner 14a, an ignition transformer 17 for igniting initial combustion and a flame detector 17a for detecting that the degree of flame has been excessively overheated after being ignited are provided. In the lower part of the manifold 14, the blower 19 which supplies air for ignition and combustion is provided.

In addition, a pipe 16 bent in an S shape to circulate the water supplied from the pump 22 is wound around the combustion unit 10, and a plurality of heat absorbing plates 16a are vertical between the pipes 16. It is provided with. One side of the pipe 16 is provided with an overheat prevention sensor 18 and a temperature sensor (not shown) to maintain the temperature of the oil at an appropriate level. In addition, the upper portion of the storage tank 30 is provided with a safety valve 24 for adjusting the internal pressure increased by the heating of the oil.

In the gas boiler according to the present invention, when the oil filling the storage tank 30 is heated by heat generated from the Bunsen burner 14a, heat exchange is performed between the heated oil and the fluid (water) transferred to the pressure of the pump 22. At this time, in the case of using a cheap vegetable oil, for example soybean oil in the storage tank 30, the temperature of the heat medium can be raised to about 400 ℃.

Therefore, since the gas boiler according to the present invention uses the heat medium of the storage tank 30 as oil, the fluid of the heat exchanger 20 is heated to a high temperature within a short time by the burner heating of the combustion section 10, and thus, the ordinary hot water supply part. And heat the water supply through the heating device and circulate it to heat the room.

FIG. 2 is a system configuration diagram showing an electric boiler which is another embodiment of an indirect heating type oil heating boiler according to the present invention, and the same parts as those shown in FIG. 1 use the reference numerals of FIG. 1.

The electric boiler shown in FIG. 2 is equipped with an electric heater 36 as a means for heating the oil of the storage tank 30, and uses oil instead of water for the heat medium of the storage tank 30. As shown in FIG. In this case, since the pipe 16 ′ of the heat exchanger 20 is bent in an S shape in the form of a corrugated pipe, heat exchange between the oil in the storage tank 30 and the internal fluid is large.

Then, when the electric boiler according to the present invention operates with heating or hot water, the oil in the storage tank 30 is quickly heated by the heating of the electric heater 36 so that the fluid of the heat exchanger 20 is heated to a high temperature within a short time. As a result, the hot water is supplied through the corresponding hot water supply to supply hot water, or the heated fluid is circulated to heat the room.

3 is a system configuration diagram showing an embodiment of an oil heating boiler of a direct heating method according to the present invention, wherein the gas boiler is close to the combustion unit 40 and the combustion unit 40 and the combustion unit 40. Heat exchanger 50 for heating the oil which is an internal fluid by the heat of c), a hot water heat exchanger for heating the water supply by oil heated through the heat exchanger 50, although not shown in the drawing, and the heat exchanger 50 It consists of a heating device for heating the room by circulating the heated oil.

Combustion portion 40 of the gas boiler is a gas boiler structure of a conventional direct heating method is supplied with gas through the solenoid valve 42a for adjusting the amount of gas supplied through the gas valve 42, the end Bunsen burner ( The manifold 44 with 44a is being fixed. In the Bunsen burner 44a, an ignition transformer 47 for igniting initial combustion and a flame detector 47a for detecting that the degree of flame is excessively overheated after being ignited are installed. A blower 49 is provided below the manifold 44 to supply air for ignition and combustion, and an outlet 52 for discharging combustion heat of the Bunsen burner 44a to the outside of the heat exchanger 50. Is provided.

In addition, the heat exchanger 50 of the gas boiler is disposed above the combustion unit 40, and the pipe 46 bent in an S shape to circulate oil transferred from the pump 54 is wound, and the pipe 46 A plurality of heat absorbing plates 46a are vertically provided between the two electrodes. One side of the pipe 46 is provided with an overheat prevention sensor 48 and a temperature sensor 48a to maintain the temperature of the oil flowing in the pipe 46 at an appropriate level.

The gas boiler according to the present invention is heat exchanged between the heat generated from the Bunsen burner 44a and the oil flowing in the pipe 46 by being transferred to the pump 54 pressure. At this time, if the oil is a cheap vegetable oil can be used to increase the temperature of the oil to about 400 ℃. Therefore, in the gas boiler of the present invention, the oil of the heat exchanger 40 is heated to a high temperature within a short time by the heating of the Bunsen burner 44a to heat and circulate the water supply through a normal hot water supply unit and a heating device to heat the room. do.

Therefore, the boiler of the direct heating method and the indirect heating method according to the present invention can maintain the hot water heating and heating temperature in the current state for a long time because the heat is continuously maintained for a long time even after the temperature of the heat exchanger is raised. .

According to the present invention described above, since oil is used instead of water normally used in the heat medium in the storage tank for indirect heating of the heat exchanger, or oil is used as a fluid in the pipe for direct heating of the heat exchanger, It achieves heating and hot water functions, which can save a lot of energy.

The present invention is not limited to the above-described gas boilers and electric boilers, and it is apparent that many modifications are possible by those skilled in the art within the technical idea of the present invention.

Claims (2)

And a heat exchanger for heating the fluid therein by indirectly heating the combustion medium, the heat medium filling the storage tank by the heat of the combustion unit, and a hot water heat exchanger and a heating device for heating and circulating the water supply by the fluid heated through the heat exchanger. In the boiler, Oil heating medium boiler, characterized in that for using the oil boiling point than the heat medium of the storage tank. In the boiler comprising a combustion unit, a heat exchanger for directly heating the fluid inside by the heat of the combustion unit, a hot water heat exchanger and a heating device for heating and circulating the water supply by the heated fluid of the heat exchanger, The fluid of the heat exchanger is an oil heating medium boiler, characterized in that the use of oil having a higher boiling point than water.