KR200320170Y1 - The warming boiler by oil circulation - Google Patents

Abstract

The present invention relates to a boiler for circulating oil and heating.

The boiler for circulating and heating the oil of the present invention, the heating medium storage unit is filled with oil; Heating means for heating the oil filled in the heating medium storage to a predetermined temperature; A heating pipe on one side of which is connected to an upper portion of the heating medium storage portion, and the other side of which is connected to a lower portion of the heating medium storage portion via a heating zone, and in which oil filled in the heating medium storage portion circulates; An oil circulation pump forcibly circulating oil filled in the heating pipe; An oil replenishment tank for replenishing oil in the heating pipe; Outflow detecting means for detecting leaking of oil filled in the heating medium storage part by reducing the amount of oil; It is configured to include a control unit for controlling the operation of each component, and if the oil is detected to prevent the heating means to operate.

When using the boiler to circulate and heat the oil of the present invention, the oil is heated and circulated to transfer heat to the heating area, the thermal efficiency is excellent, and the explosion due to the overheating and outflow of oil can be used safely.

Description

Boiler that circulates and heats oil {THE WARMING BOILER BY OIL CIRCULATION}

The present invention relates to a boiler, and more particularly to a boiler for heating and circulating the oil is heated to circulate the oil after heating to prevent explosion due to leakage of oil or the like.

In general, a boiler is a system that heats a heating medium of a heating medium storage unit to a predetermined temperature by heat generated by combustion of oil or gas or heat generated by electric energy, and then circulates to a heating zone through a heating pipe to heat the heated medium.

However, the heating media used in such a boiler were those in which specific components were diluted in relatively high heat or water.

Therefore, the temperature rise rate of the heating medium is slow, it takes a relatively long time to increase the temperature of the heating area, and the heating means is operated for a long time, so that the heat efficiency was lowered.

In order to solve this problem, an electric boiler using oil as a circulation medium (Korean Utility Model No. 0265356, filed date Sep. 28, 2001) has been devised.

However, the above boilers do not consider the flammability, which is the characteristic of the oil while using the oil as a heating medium, and thus have the risk of explosion due to the overheating and spillage of the oil and the explosion risk due to the volume expansion of the oil during heating. there was.

Due to this problem it has not been practical.

The present invention is to solve the above problems, and more specifically, to improve the thermal efficiency by using oil as a medium for heating and circulating to transfer heat to the heating area, but to provide a heating boiler that prevents explosion. .

1 is a schematic diagram of a heating system using a boiler for heating and circulating oil of the present invention, wherein the heating medium is water, and the medium for circulating the heating pipe is oil.

2 is a schematic view of a boiler of another embodiment of the present invention, wherein the heating medium is oil, the oil configured to circulate the heating pipe directly

Figure 3 is a schematic diagram for explaining the heating means of the present invention is formed oil drainage

Figure 4 is a schematic view of the boiler of the present invention of another embodiment having an explosion-proof structure

5 is a schematic view for explaining a hot air supply device that is a component of the present invention

<Explanation of symbols for main parts of drawing>

10. Heating medium storage unit 20. Heating piping

25. Heat exchanger pipe 30. Heating means

31. Heating element 32. Case

33. Oil drain 34. Communication

35. Gas outlet 40. Control box

50, 51. Spill detection means 60. Oil supplement tank

70. Controller 80. Oil circulation pump

90. Filter 100. Inner case

105. Outer case 110. Drip tray

120. Pressure regulator 130. Circulation path converter

140. Hot air supply unit 141. Gas collection unit

142. Heat exchanger pipe 150. Hot water supply pipe

The present invention relates to a boiler for circulating oil and heating.

In the present invention, unlike the filling of heating water in the heating pipe of the conventional boiler, the heat supplied from the heating means is quickly transferred to the heating pipe by filling the oil and circulating so that the heating zone is quickly heated.

In addition, in order to prevent explosion due to the use of flammable oil, the oil is not overheated above a predetermined temperature, and the oil is not contacted with the heating element of the heating means even if the oil is leaked.

Therefore, the boiler which circulates and heats the oil of this invention,

A heating medium storage unit in which a heating medium is filled;

And heating means for heating the heating medium filled in the heating medium storage unit.

In addition, the oil is circulated therein, the heating oil is circulated to the heating zone after the circulated oil is heated while heating the heating medium storage;

An oil circulation pump for forcibly circulating oil in the heating pipe;

Oil refill tank to replenish oil in heating pipe.

In addition, the leak detection means for detecting the leakage of oil;

A control unit for controlling the operation of each of the components and for preventing at least the heating means from being activated when oil leakage is detected.

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

However, the accompanying drawings are only examples to illustrate the technical idea of the present invention in more detail, and thus the technical idea of the present invention is not limited to the accompanying drawings.

The present invention has the purpose of making the heat circulating medium 20 to circulate the heating pipe 20 is excellent in heat efficiency, and for this purpose, a low specific heat oil is used as the medium circulating the heating pipe 20.

However, since oil is excellent in flammability, there is a risk of explosion due to ignition due to overheating or direct contact with the heating element 31 of the heating means 30.

Accordingly, in heating the oil having excellent flammability, a means for preventing explosion due to ignition of oil is required.

To this end, the heating medium filled in the heating medium storage unit 10 and the medium circulating the heating pipe 20 are isolated, but the medium circulating the heating pipe 20 is made of oil, and the heating medium has a higher specific heat than oil. It can be set as water which is a normal heating medium.

That is, the medium circulating the heating pipe 20 and the heating medium of the heating medium storage unit 10 are not mixed but separated by the heat exchange pipe 25 located in the heating medium storage unit 10 as shown in FIG. 1. It is.

In addition, the oil circulating in the heating pipe 20 is introduced into the heat exchange pipe 25 so as to be heated by heat exchange with the external heating medium in the process of circulating the heat exchange pipe 25.

In addition, the heated oil is circulated to the other side of the heat exchange pipe 25 via the heating zone through the heating pipe 20 connected to one side of the heat exchange pipe 25 to be heated.

When configured in this way, the oil circulating in the heating pipe 20 can not be overheated enough to ignite.

This is because the heating means 30 heats water, which is a normal heating medium, to a predetermined temperature, and this water heats oil.

In addition, even if the operation of the boiler by the control box 40 located in the room is operated at a predetermined time interval irrespective of the room temperature, the rising temperature of the water does not reach the ignition temperature of the oil.

In addition, when configured as described above, even if the oil circulating in the heating pipe 20 is introduced into the heating medium storage unit 10 does not contact the heating element 31 of the heating means 30 does not occur explosion.

That is, cracks are generated in the heat exchanging pipe 25 so that oil flows out of the heat exchanging pipe 25, and even if the oil flows into the heating medium storage unit 10, the oil is placed on the water surface of the water, which is the heating medium, and heating means. (30) is not in direct contact with the explosion will not occur.

In particular, the heating element 31 of the heating means 30 is installed at a position lower than the water surface of the heating medium filled in the heating medium storage unit 10, the heating away from the water surface of the heating medium storage unit 10 Less chance of oil and medium contact.

However, when oil is leaked to the outside of the heat exchange pipe 25 and the heating pipe 20, even if no explosion occurs, the boiler's thermal efficiency is reduced, such as the boiler's normal operation is impossible, so that the leak detection means for detecting oil leakage (50, 51) is required.

The oil outflow detection means (50, 51) may be implemented in various forms.

In detail, there is a method in which the oil is regarded as leaking when the buoyancy is below a predetermined value or when the buoyancy is rapidly lowered based on the buoyancy of the filled oil.

More specific example of such a case may be implemented in the form of installing a buoyancy device in the oil filling tank 60 connected to the heating pipe 20, such as a buoyancy device provided in the toilet seat of the toilet.

In addition, when an oil component is introduced into the heating medium storage unit 10 using a sensor, the oil may be regarded as leaked from the heat exchange pipe 25, or when an oil component is detected in the heating zone, the oil is leaked from the heating pipe 20. There's a way to make it look good.

While the method using buoyancy can detect the outflow of oil for the entire section of the heating pipe 20, it is not precise, and the method of providing a sensor in the heating medium storage unit 10 has a high precision while the heating pipe 20 Oil spills cannot be detected for all sections of).

Therefore, it is desirable to mix the two methods properly.

When the outflow of oil is detected, at least the operation of the heating means 30 is stopped by the controller 70 of the present invention, such as a controller provided in a conventional boiler, so that the risk of explosion due to the excessive outflow of oil and heating piping ( 20) it is desirable to prevent breakage.

Filling oil in the heating pipe 20 and circulating this oil as in the present invention to be considered in the oil is that the oil is viscous.

That is, the conventional medium for circulating the heating pipe 20 is viscous and can be circulated with a conventional circulation pump, but oil is viscous and cannot be circulated using a conventional circulation pump.

Therefore, the present invention should use the oil circulation pump 80 that can circulate the oil as a circulation pump for circulating the oil of the heating pipe (20).

Since the oil circulating pump 80 adopts a screw type transfer method, the oil circulating oil can be smoothly circulated.

However, when the oil is stagnant for a long time and entangled with each other, even if the oil circulation pump 80 is used, circulation is not smooth.

That is, the highly volatile oil has a weak viscosity, so circulation is smooth, but the flammability is so excellent that it is not suitable for use in the present invention.

By the way, the weaker volatile oil is viscous strong, if stagnated for a long time, the oil is tangled with each other, even if the oil circulation pump 80 is used, the circulation is not smooth.

This causes a failure of the oil circulation pump 80, and in severe cases, results in a replacement of the heating pipe 20.

Therefore, the oil circulating in the heating pipe 20 is preferably to be circulated at a predetermined time interval even if the heating is not made.

The method of circulating oil circulating the heating pipe 20 at predetermined time intervals will be described in detail. The controller 70 detects the last operation time of the oil circulating pump 80 and the oil circulating pump 80 for a predetermined time. ) Is not operated, it may be configured to operate the oil circulation pump 80 irrespective of heating.

In addition, the oil circulation pump 80 may be provided with a timer function so as to operate regardless of heating at predetermined time intervals.

This structure is a structure that the oil circulation pump 80 continues to operate even if the main power connected to the controller 70 is cut off.

In the present invention, since the oil is circulated through the heating pipe 20, it is preferable to have an oil replenishment tank 60 for replenishing oil circulating in the heating pipe 20.

The oil replenishment tank 60 is the same as a replenishment tank for replenishing a medium circulating in the conventional heating pipe 20.

Referring to the operation of the boiler having the configuration as described above are as follows.

Assuming that the operating function of the boiler by the operation of the control box 40 located in the room is a function of maintaining the room temperature at 20 ° C, when the room temperature is 20 ° C or less, the heating means 30 and oil of the boiler The circulation pump 80 is operated.

The heating medium is heated as the heating means 30 continuously generates heat until the room temperature reaches 20 ° C.

In addition, the oil filled in the heating pipe 20 continues to circulate until the room temperature reaches 20 ℃ by the operation of the oil circulation pump 80, the heat exchange pipe 25 located in the heating medium storage unit 10 It is heated while passing through.

In addition, as the oil heated as described above dissipates heat to the heating zone via the heating zone through the heating pipe 20, the temperature of the heating zone is increased.

At this time, even though the amount of oil filled in the heating pipe 20 is relatively large, the oil is rapidly heated and quickly dished, thereby rapidly supplying heat received by the heating medium of the heating medium storage unit 10 to the heating zone.

In other words, because the oil cools down quickly, the heat dissipation rate is high, so the heat is quickly deprived of the heating zone and the heating zone is heated quickly. To lose.

However, when the heating medium storage unit 10 is again heated quickly and again via the heating zone, the cooling speed of the oil is a condition that can quickly increase the temperature of the heating zone.

As described above, the case in which the heating pipe 20 is filled with water, water having a high specific heat gradually heats up and cools down slowly, so that it takes a long time to absorb the heat of the heating medium.

In particular, since the amount of water filled in the heating pipe 20 is relatively large, the heating rate is significantly lower than that of oil.

In addition, even if slightly heated water circulates through the heating pipe 20, the rate of heat dissipation is slow, so the temperature rise effect of the heating area cannot be expected. Therefore, the heating effect is expected before the heating medium and the circulated water are heated to a predetermined temperature. I can't.

Therefore, there is a significant difference in temperature rise between circulating oil and circulating water.

As the heated oil circulates the heating zone through the heating pipe 20 as described above, when the temperature of the heating zone is increased to 20 ° C., the heating means 30 stops heating and the room temperature is less than the error range. When it falls down, it works again to keep the room temperature at 20 ℃.

However, as described above, as the temperature rise of the heating zone is made faster due to the circulation of oil, the operation time of the heating means 30 is short.

On the other hand, the rate at which the temperature of the room in the heating zone decreases is not related to the heat loss rate of the oil, but to the insulation effect of the room in the heating zone.

Therefore, the operating time of the heating means 30 is short, and the temperature lowering speed of the heating zone is the same as the conventional one, thereby saving fuel costs.

On the other hand, when cracks are generated in the heat exchange pipe 25 and the oil flows out to the heating medium storage unit 10, the spilled oil is lighter than the heating medium and is located in the water surface of the water, which is the heating medium.

As a result, even when oil is leaked into the heating medium storage unit 10, the heating medium 31 does not come into contact with the heating element 31, and the temperature of the heating medium does not rise to the ignition temperature of the oil, and thus no explosion occurs.

As described above, when oil is leaked from the heat exchange pipe 20 and when oil is leaked from the heating pipe, the leak detection means 50 and 51 detects this and stops the operation of the heating element 31 in the controller 70. At the same time, oil spills are output through texts and warning sounds.

The structure of the boiler described above is very good in safety, but the thermal efficiency is not maximized.

That is, since the heating medium heated by the heating means 30 is water and the medium circulating the heating pipe 20 is oil, the water, which is the heating medium, is gradually heated, and thus the thermal efficiency is not maximized.

However, since the oil cannot ignite, the safety is very high.

In the case of applying the technical idea of the present invention to a conventional general boiler, the heating medium is heated as oil quickly and circulates the heating pipe 20 directly, thereby maximizing thermal efficiency.

However, since the oil is directly heated by the heating means 30, the risk of explosion due to ignition becomes higher.

When the present invention is applied to the boiler of the above-described method in more detail as follows.

As described above, the structure in which the heating medium directly circulates the heating pipe 20 is filled with oil in the heating medium storage unit 10 as shown in FIG. 2.

In addition, one side of the heating pipe 20 is connected to the upper portion of the heating medium storage unit 10, the other side is connected to the lower portion of the heating medium storage unit 10 via the heating zone to the inside of the heating pipe 20. The oil of the heating medium storage unit 10 is circulated.

In addition, the heating means 30 is a method of heating the oil filled in the heating medium storage unit 10.

Therefore, there is a risk of explosion due to overheating of oil by direct heating of oil.

In the present invention, the oil is heated only to a predetermined temperature so that the oil in the heating medium storage unit 10 does not overheat.

That is, when the oil is a predetermined temperature to block the heat generated by the heating means 30 so that it is no longer heated.

It is preferable that the temperature is not a temperature at which oil is ignited, but a temperature such that a structure such as a floor covering is not deformed.

When the oil is overheated, the volume of the oil is rapidly expanded and the heating medium storage unit 10 is broken and exploded or the heating unit 30 is broken and exploded or the heating pipe 20 may be broken.

Therefore, when the pressure in the heating medium storage unit 10 is greater than or equal to a predetermined value, the pressure regulating device 120 discharges the oil circulating in the heating pipe so that the pressure in the heating medium storage unit 10 is equal to or less than the predetermined pressure. Is preferably provided.

In addition, it is provided with leak detection means (50, 51) for detecting the leak of oil to prevent the ignition of oil by preventing the heating means (30) when the oil leaks.

The method of detecting the outflow of oil may be implemented by a method based on the degree to which the amount of oil is reduced and a method by a sensor.

When the heating means 30 directly heats the oil as described above, if a crack occurs in the case 32 protecting the heating element 31 of the heating means 30, the oil flows into the place where the heating element 31 is located. Can lead to an explosion.

In order to prevent this, the heating means 30 surrounds the heating element 31 in the case 32 so that the oil of the heating medium storage unit 10 and the heating element 31 do not directly contact as shown in FIG. 3, and the case 32. It can be implemented in the form of forming a plurality of oil drains 33 in the lower portion.

That is, a crack is generated in the case 32 so that the oil of the heating medium storage unit 10 flows into the case 32 and flows into the case 32 so that the plurality of oils do not gather together but are discharged to the outside. It is to form the drain 33.

When configured as described above it is preferable to place the oil tray 110 in the lower portion of the oil drain 33.

On the other hand, since the present invention is to circulate the oil filling the heating pipe 20, there is a need for a means to prevent the oil is discharged in the process of filling the oil in the heating pipe 20.

That is, when air enters the heating pipe 20 when filling the circulating medium in the heating pipe 20, the heat transfer becomes very poor, and thus, when filling the circulating medium in the heating pipe 20, the air must be completely removed.

This is a matter that must be taken into consideration when filling water, which is a normal circulation medium, or when filling oil as in the present invention.

In order to prevent the air from being present in the heating pipe 20 as described above, the conventional method of continuously discharging the circulating medium filled until there is no air in the heating pipe 20 is used.

However, in the present invention, when the circulating medium filled in the heating pipe 20 is oil and discharges a considerable amount of oil discharged until there is no air, environmental pollution is caused.

Therefore, the means for introducing the discharged oil back into the boiler so that the oil discharged in the process of filling the heating pipe 20 is not discarded.

To this end, the circulation path converting device for controlling the oil circulating in the heating pipe 20 flows through the heating zone and then circulates into the oil supplement tank 60 or circulates into the heating medium storage unit 10. 130 may be provided.

That is, in the process of filling oil in the heating pipe 20, the oil passing through the heating area is sent to the oil filling tank 60 by the circulation path conversion device 130, and heating is made after filling the oil It is to be sent to the heating medium storage unit 10 to lose.

In addition, the present invention is to circulate the oil through the heating pipe 20, so that the filter 90 in the circulation path of the oil may be to remove impurities mixed in the oil.

The heating means 30 of the present invention, such as the incineration means provided in a conventional waste incinerator, to heat waste such as waste or waste oil introduced from the outside to about 800 ℃ to enable incineration, the heating medium storage unit by the heat generated during incineration Oil or water, which is the heating medium of (10), can be heated.

That is, the incineration means of the conventional waste incinerator has a structure capable of minimizing the generation of harmful substances due to incineration of waste by burning the input waste or waste oil such as waste gas to a gas generated by heating at a high temperature of 800 ℃ or more. This structure is to be used as the heating means 30 of the present invention.

The structure of the incineration means for heating the waste such as waste or waste oil at a high temperature of 800 ° C. or higher is a well-known technique, and Patent Registration No. 0257291 (Improvement Incinerator) and Patent Registration No.0257289 (designed by the inventors of the present application). Advanced incinerators are also specified in detail, and further description thereof will be omitted.

In the case of having the heating means 30 as described above, the heating element 31 is located outside the heating medium storage unit 10 rather than the heating element storage unit 10 so as not to overheat the oil. It is preferable to blow the generated heat to the heating medium storage unit (10). (Not shown)

In addition, the controller 70 preferably controls the respective components provided when the oil filled in the heating medium storage unit 10 exceeds a predetermined temperature so that the oil is no longer heated.

As a method of preventing the oil of the heating medium storage unit 10 from being heated above a predetermined temperature, there is a method of blocking heat from blowing air or cooling the oil by cooling means.

As described above, the method of incineration of trash and the like is suitable for farming rather than household.

That is, it can be used as a means for supplying heat for growing plants in a greenhouse or greenhouse.

In the present invention, it is possible to have a hot air supply device 140 using a high temperature gas discharged to the communication (34).

In detail, the hot air supply device 140 includes a gas collecting part 141 which collects exhaust gas generated from the heating means 30 and to be discharged through the communication 34, and is blown inwardly by a blower fan. A heat exchange tube 142 through which air is moved is passed through the gas collecting unit 141.

In this configuration, the air moved into the heat exchanger tube 142 is heated in the process of passing through the gas collecting unit 141 to supply hot air.

The explosion prevention means described above are to prevent the explosion by blocking the causes of ignition and expansion due to the overheating and outflow of oil.

However, the explosion protection means as described above may cause an explosion due to a malfunction if each component is defective.

Therefore, it is desirable to have a separate explosion protection means that is independent of component defects.

Specifically, there is a method to have an explosion-proof structure using the principle of gaps and gap depths that act as anti-inflammatory.

The principle of crevice and gap depth that is anti-inflammatory is to make the gap and gap depth suitable for safety regulations on the joint surface or moving shaft part of the container so that the gap of the joint is anti-inflammatory, so that the container itself is exploded even if an explosion occurs inside the container. It has a structure that prevents it from happening.

The gaps and gap depths that have such a function are specified by experiments (Nov. 1998 issue of Korea Gas Safety Corporation, etc.).

The explosion-proof structure using the principle of the gap and the gap depth is well known and is used in various industrial fields.

Referring to the specific application of the explosion-proof structure as described above, as shown in Figure 4, the components having the cause of explosion, such as the heating medium storage unit 10 and the heating means 30 is located inside the inner case 100, the inside The outer case 105 is located outside the case 100 has a multi-case structure.

In addition, the gap and the depth of the joint surface of the outer case 105 and the joint surface of the outer case 105, which can be separated and combined into two parts, have an explosion-proof structure by forming a gap and a gap depth for anti-inflammatory action. Not shown)

In the accompanying drawings, although the means for supplying hot water is not shown in FIG. 1, the hot water supply pipe may be built in the heating medium storage unit 10 to enable hot water supply by heat exchange.

The oil circulating in the heating pipe 20 of the present invention may be used unused clean oil, but may use purified waste oil.

The use of purified waste oil has the advantage of recycling waste oil causing environmental pollution.

According to the present invention, the heat efficiency can be improved by using oil as a medium for heating and circulating heat to transfer heat to the heating area, and the explosion-proof heating of oil can be prevented and the boiler for circulating oil can be safely used. have.

In addition, even if the heating is not carried out for a long time, the oil filled in the heating pipe is automatically circulated at a predetermined time interval so that the oil does not get stuck, there is a feature that can always circulate the oil smoothly.

In addition, since it has an explosion-proof structure using the principle of gap and gap depth, even if some explosion prevention means is defective, it is possible to prevent damage caused by explosion.

Claims (11)

In the boiler, A heating medium storage unit filled with oil; Heating means for heating the oil filled in the heating medium storage to a predetermined temperature; A heating pipe having one side connected to an upper portion of the heating medium storage portion and the other side connected to a lower portion of the heating medium storage portion via a heating zone, and having an oil filled in the heating medium storage portion circulated therein; An oil circulation pump for forcibly circulating oil filled in the heating pipe; An oil replenishment tank for replenishing oil in the heating pipe; Outflow detecting means for detecting leaking of the oil filled in the heating medium storage by reducing the amount of the oil; And a control unit for controlling the operation of each component and preventing the heating means from operating when oil is detected. The method of claim 1, The leak detection means is a boiler for circulating the oil heating, characterized in that to detect the oil leak based on the buoyancy of the oil filled in the heating pipe is rapidly lowered. The method of claim 1, A filter is provided in the circulation path of the oil, characterized in that the impurities mixed in the oil is filtered, the boiler for circulating the oil heating. The method according to any one of claims 1 to 3, The heating means can incinerate waste such as waste or waste oil introduced from the outside by incineration means provided in a conventional waste incinerator to about 800 ° C., and heat the oil of the heating medium storage unit with heat generated during incineration. , The control unit controls the respective components provided when the oil filled in the heating medium storage unit to a predetermined temperature or more, characterized in that the oil is no longer heated, the boiler for circulating the oil heating. The method according to any one of claims 1 to 3, The circulating pump is automatically operated to circulate oil when not operated for a predetermined time even if the heating is not performed, the boiler for circulating the oil heating. The method according to any one of claims 1 to 3, The heating medium storage unit and the heating means are located inside the inner case, and has a multi-case structure in which the outer case is located on the outside of the inner case. The outer case has an explosion-proof structure using the principle of clearance and clearance depth acting as an anti-inflammatory. Boiler which circulates and heats oil, and is characterized by being made. The method according to any one of claims 1 to 3, It is further provided with a hot air supply device having a gas collecting portion for collecting the exhaust gas generated from the heating means to be discharged through the communication, the heat exchange tube through which the air is moved by the blower fan via the gas collecting portion; Characterized in, the boiler circulating oil and heating. The method according to any one of claims 1 to 3, The heating means is surrounded by a case so that the heating element is not in direct contact with the oil of the heating medium storage portion, the crack is generated in the case so that the oil does not gather together even if the oil flowing in the heating medium storage portion flows into the inside of the case is discharged to the outside A boiler for circulating and heating oil, characterized in that a plurality of oil drains are formed in the lower portion. The method according to any one of claims 1 to 3, After the oil circulating through the heating pipe is passed through the heating zone to the oil replenishment tank is circulated or the circulation path conversion device to control the circulated flow into the heating medium storage unit; Oil further characterized in that, To heat the boiler by circulating it. The method according to any one of claims 1 to 3, A pressure regulating device for discharging oil which circulates the heating pipe when the pressure in the heating medium storage unit is equal to or greater than a predetermined value so that the pressure in the heating medium storage unit is less than the predetermined pressure; A boiler for circulating oil and heating, further comprising. delete