KR19990034477U - Boiler - Google Patents

Abstract

The present invention relates to a boiler.

Conventional boilers have most of the combustion chamber made of steel, so the heat conducts quickly when the heat is applied. However, the boiler has to burn a large amount of fuel in order to maintain a constant temperature at all times because of the fast cooking. Therefore, there is a disadvantage in that a large amount of fuel is consumed and a lot of costs due to the operation of the boiler. In addition, the high-temperature exhaust gas generated by combustion is discharged to the atmosphere as it is, resulting in a large amount of energy loss.

Therefore, the present invention has a combustion chamber in the lower part and a bucket in the upper part, and installs the communication through the central part of the bucket from the upper part of the combustion chamber to the upper part of the boiler, and the soil or stone is filled in the lower side of the combustion chamber and the predetermined height of the bucket The upper part is filled with insulation, and wound around the communication in the upper part of the combustion chamber, one end is exposed to the side of the boiler, the other end is provided with a copper pipe connected to the bucket, and the exposed pipe to the outside through the recovery pipe A circulation pump for collecting and forcibly circulating is installed, and the upper part of the bucket is configured with a heater for treating water, an air discharge pipe, and a supply pipe for transferring the heated water to a required place, thereby forming a boiler.

This structure minimizes heat loss and maximizes thermal efficiency.

Description

Boiler

The present invention relates to a boiler, and once heated, mixes soil and stone having a characteristic of maintaining the heat for a long time to form a circumference of a combustion chamber, and at the same time, pipes a copper wire through which water is circulated, and exhaust gas of high temperature It relates to a boiler that maximizes the thermal efficiency while minimizing the heat loss by allowing the communication to discharge through the copper tube and the center of the water tank.

In general, a boiler is a device that heats water to generate steam and circulates the steam or circulates the heated water to generate power or heat.

The boiler has a structure such as a combustion chamber that burns fuel to generate heat, a tube that heats and circulates water simultaneously with the combustion chamber, a bucket for storing heated water, and a circulation pump for forced circulation of the water in the bucket.

Conventional boilers have most of the combustion chamber made of steel, so the heat conducts quickly when the heat is applied. However, the boiler has to burn a large amount of fuel in order to maintain a constant temperature at all times because of the fast cooking. Therefore, there is a disadvantage in that a large amount of fuel is consumed and a lot of costs due to the operation of the boiler. In addition, the high-temperature exhaust gas generated by combustion is discharged to the atmosphere as it is, resulting in a large amount of energy loss.

The present invention was devised to solve such a conventional closed end, and once the combustion chamber is heated, it is formed by mixing soil and stone which retains its heat for a long time, and the exhaust gas is discharged from the copper pipe to the center of the bucket. The purpose of the indirect heating is to indirectly heat the water with the high temperature exhaust gas passing through the communication through the installation, so that the heat efficiency of the boiler is maximized and the heat loss is minimized.

1 is a perspective view showing the appearance of a boiler according to the present invention,

Figure 2 is a longitudinal sectional view showing the internal structure of the boiler according to the present invention.

* Explanation of symbols for main parts of the drawings

10 case 12 circulating pump

13: recovery tube 14: copper tube

16: bucket 18: air discharge pipe

19: supply pipe 20: electric heater

22: combustion chamber 23: inner tube

24: heating tube 25: side wall portion

26: heating portion 27: side plate

28: upper heating unit 29: communication

30: switchgear 32: insulation

It has a combustion chamber in the lower part and a water tank in the upper part, and installs communication through the central part of the water tank from the upper part of the combustion chamber to the upper part of the boiler. Furnace is filled with insulation, and wound around the communication in the upper part of the combustion chamber, one end is exposed to the side of the boiler, the other end is provided with a copper pipe connected to the bucket, and the exposed copper pipe to recover the water through the recovery pipe A circulation pump for forced circulation is installed, and the upper portion of the water tank is composed of a heater for treating water, an air discharge pipe, and a supply pipe for transferring the heated water to a required place.

Hereinafter, with reference to the accompanying drawings a specific structure of the present invention.

As shown in FIG. 1, the boiler is covered with a case 10 to the outside, and a lower portion of the case 10 has a combustion chamber 22 to be described later, and an upper portion thereof with a bucket 16, and a front door of the combustion chamber 22. D) is installed. And the center of the boiler is provided with a communication 29 is installed vertically through the combustion chamber 22, the lower side is provided with a circulation pump 12 for forced circulation of hot water.

In addition, the combustion chamber 22 has a cylindrical inner plate 23 having a space inside and below the case 10 as shown in FIG. 2, and has a cup shape with a central portion penetrating through the upper portion of the inner plate 23. The heating plate 24 which forms the ceiling of 22 is provided, and the space of the combustion chamber 22 is secured. In addition, the side plate 27 is installed across the combustion chamber 22 and the water tank 16 while being coupled to the upper end of the heating plate 24, and the lower end is connected to the center of the heated plate 24 through the Communication 29 is penetrated through the center to the top of the boiler. In the upper portion of the communication 29, an opening and closing device 30 for adjusting the amount of exhaust gas is provided.

In addition, soil and stone are mixed and filled in the space between the inner plate 23 and the case 10 of the combustion chamber 22 to form a side wall 25, and soil and stone are mixed and filled in the upper space of the heating plate 24 to heat the heating part. (26). Then, the soil and stone are mixed and filled in the space between the diaphragms 27 at the daytime side of the bucket 16 to form an upper heating part 28, and the space between the upper part of the bucket 16 and the case 10. The heat insulating material 32 which preserves the heat inside is filled in the inside. Since the heat insulating material 32 is provided in the upper part, it can be made into things like a sponge and a cotton other than the asbestos material which has fire resistance.

A copper plate 14 (a tube made of a material having high thermal conductivity, good corrosion resistance, and heat resistance in addition to the copper tube) is wound around the communication 29 between the heating unit 26 and the upper heating unit 28. Exposed to the outside is connected to the circulation pump 12 is installed on one side lower portion of the boiler, the other end is connected to the lower portion of the bucket 16 in an airtight manner. At this time, the circulation pump 12 is connected to the recovery pipe 13 for recovering hot water to force circulation of the hot water.

In addition, the upper portion of the bucket 16 is provided with an electric heater 20 for heating the water with a nighttime electricity or solar electricity, one side of the air discharge pipe 18 is installed so that the air generated in the circulation process is discharged. The upper side of the bucket 16 is provided with a supply pipe 19 for supplying the heated water to the required place. In particular, in the case of the electric heater 20, when the temperature is about 70 ° C. or more, the electric heater 20 is disconnected to prevent the boiler from overheating.

In the present invention having such a structure, a boiler can burn fuel such as petroleum, coal, wood, etc. in the combustion chamber 22. Once the fuel is combusted in the combustion chamber 22, the inner plate 23 and the heating plate 24 are first heated by the thermal power, and then the side wall 25 and the heating unit 26 and the side plate (mixed with stone and soil) 27) and the upper heating portion 28 in that order. And the copper pipe 14 piped in the inside of the side wall 25, the heating part 26, and the upper heating part 28 is heated by the structure which wraps around the communication 29. As shown in FIG. When the copper tube 14 is heated, water flowing inside the copper tube 14 is naturally heated. At this time, the water of the bucket 16 is directly heated by the heated upper heating portion 28.

In particular, the exhaust gas combusted in the combustion chamber 22 retains a considerable amount of heat. However, the communication 29 is wound in the form of a coil and passes through the central portion of the copper tube 14 piped and the central portion of the bucket 16. Since it is designed to pass through the exhaust gas when the exhaust gas is exhausted to the circumference of the communication 29 to reheat the pipe copper plate 14, as well as to heat the water in the bucket 16. Therefore, the heat efficiency of the boiler is improved because the heat lost through the exhaust gas is minimized. And the soil and stone properties do not heat up quickly, but once heated they retain the heat for a long time. Therefore, even if only a slight heat is applied to the heated side wall 25, the heating section 26, and the upper heating section 28, the temperature is continuously maintained. Heats up water quickly, which saves a lot of fuel.

On the other hand, the heated water rises by the operation of the circulation pump 12 and the convection phenomenon (hot water rises, cold water falls) to enter the interior of the bucket 16 and the heated water introduced again By the convection and the operation of the circulation pump 12 is supplied circulated through the supply pipe 19 to the required place. The circulated water is again recovered to the circulation pump 12 through the recovery pipe 13 and is heated in the copper pipe 14 to repeat the circulation process flowing into the bucket 16.

In addition, in the middle of the night, the electric heater installed in the upper part of the boiler can be used to heat water, so that it can be used instead of fuel such as oil, coal, and wood. In other words, since the consumption of electricity is low at night, it is preferable to use electricity at this time.

In addition, it is possible to supply electricity obtained through solar heat during the day, and charge the electricity obtained by solar heat in the capacitor, and then operate the electric heater 20 at night to operate the boiler.

In addition, when operating the boiler by installing a remote control circuit in the boiler can control the combustion operation of the combustion chamber and the electric heater by remote control or telephone. In particular, the combustion operation of the combustion chamber can be remotely controlled more effectively in the case of gas burners or oil (oil) burners.

The present invention as described above is composed of a soil and stone sidewall 25, the heating portion 26 and the upper heating portion 28, etc., which do not cool well once the circumference and the upper portion of the combustion chamber 22 are heated. 29) The advantage is that water can be quickly heated to high temperatures even with low fuel combustion. And the communication tube 29 is wound in the form of a coil passes through the center of the copper tube 14 piped and through the central portion of the water tank 16, when the high-temperature exhaust gas is exhausted, the copper tube is wound around the tube 29 Reheating (14) as well as heating the water in the bucket (16). Therefore, the heat efficiency of the boiler is improved because the heat lost through the exhaust gas is minimized. In this way, there is an advantage to save fuel because it increases the heat efficiency and reduces the heat lost to a minimum.

In addition, at night, the electric heater 20 may be heated to operate the boiler, and the electric heater 20 may be operated with electricity obtained by solar heat.

Claims (1)

The combustion chamber 22 is provided in the lower part of the inside of the case 10, and the water tank 16 is provided in the upper part. In a boiler, it is provided with the case 10 and the space, and the cylindrical inside which ensures the space of the combustion chamber 22 is secured. Plate 23; A heating plate 24 installed at an upper portion of the inner plate 23 to form a cup-shaped correspondence penetrating the central portion thereof to form a ceiling of the combustion chamber 22; A side plate 27 coupled to an upper end of the heating plate 24 and installed between the combustion chamber 22 and the water tank 16; A communication unit 29 which passes through the center of the water tank 16 from the center of the heating plate 24 and passes through the upper portion of the boiler and discharges exhaust gas of the combustion chamber 22; A side wall 25 filled with a mixture of soil and stone in the space between the inner plate 23 and the case 10 of the combustion chamber 22; A heating part 26 mixed with soil and stones filled in the upper space of the heating plate 4; An upper heating part 28 in which soil and stones are mixed in a space between the diaphragms 27 at a side of the bucket 16 at a predetermined height; A heat insulating material (32) filled in the space portion between the upper portion of the bucket (16) and the case (10); A pipe wound around the communication unit 29 of the heating unit 26 and the upper heating unit 28, the one end of which is exposed to the outside of the boiler, and the other end of which is connected to the water tank 16; A circulation pump 12 connected to one side end of the copper pipe 14 exposed to the outside and connected to a recovery pipe 13 for recovering hot water circulated to forcibly circulate the hot water; An electric heater 20 installed at the upper portion of the bucket 16 to heat water with a late-night electricity or solar electricity, but when the water reaches a predetermined temperature or more; Boiler, characterized in that the supply pipe (19) for supplying the heated water to the required place on the upper side of the bucket (16).