KR200269041Y1 - The close type heating boiler - Google Patents

Abstract

The present invention relates to a hermetic boiler for indoor heating, and more particularly, to improve the internal structure of the boiler with high efficiency while reducing fuel consumption by providing a closed boiler by improving the complicated interior of the boiler into a simple structure and miniaturizing the overall size. It relates to a closed boiler for.

The present invention is the body 10 is coupled to the cover 10a, the chamber 15 is filled with water on the inner surface of the body 10, and the heater 30 for heating the water 50 to a predetermined temperature And, a bellows 20 for preventing the pressure from rising due to expansion of the heated water 50, a circulation pump 40 for circulating the heated water 50, a discharge pipe 16 and an inlet pipe 17. It is configured to be sealed.

Description

Hermetic boiler for indoor heating {THE CLOSE TYPE HEATING BOILER}

The present invention relates to a hermetic boiler for indoor heating, and more particularly, to improve the internal structure of the boiler with high efficiency while reducing fuel consumption by providing a closed boiler by improving the complicated interior of the boiler into a simple structure and miniaturizing the overall size. It relates to a closed boiler for.

In general, the boiler mainly uses gas or petroleum as fuel, and the boiler is provided with an ignition part at the lower part of the fuel container and a communication for discharging the gas generated during combustion at the upper part of the fuel container. It has a structure equipped with a hot water circulation tube to supply fuel to the fuel tank to generate fire that is ignited by the ignition unit, such a fire is heated by the hot water circulation pipe provided around the outside of the fuel tank to supply hot water to the distribution pipe Configured to be heated while circulating. And a blower for supplying air necessary for combustion is formed on the outer peripheral surface of the ignition unit.

Since the boiler configured as described above uses fuel such as kerosene or gas, the heating efficiency is high while the consumption of fuel is high, which causes a burden on the home. And since the internal structure of the boiler is complicated and the overall size is large, it is impossible to install in a narrow place, and there is a problem that the price is high.

In addition, since waste heat having a heat source is passed through the combustion chamber as it is, there is a problem in that fuel is wasted.

In order to solve the above problems, the present invention is to provide a boiler that can be installed in a narrow place by improving the complex interior of the boiler to a simple structure and downsizing the overall size. And it is an object of the present invention to provide a hermetic boiler for indoor heating that can form a sealed interior of the boiler to reduce the loss of fuel using waste heat.

1 is a perspective view showing a hermetic boiler for heating the present invention.

Figure 2 is a plan sectional view showing a hermetic boiler for heating the present invention.

Figure 3 is a partial cross-sectional view showing a state in which the bellows of the present invention is operated.

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

10: body 11: inner cylinder 12: outer cylinder

13: Insulation material 14: Hole 15: Chamber

16: outlet line 17: inlet line 20: bellows

21: bellows tube 22: spring 23: flange

24: through-hole 30: heater 31: coil

32: core 33: appearance 40: circulation pump

50: water 100: boiler

The present invention for achieving the object as described above, the body 10 is coupled to the cover 10a, the chamber 15 is filled with water on the inner surface of the body 10, and the water 50 is predetermined A heater 30 for heating to a temperature, a bellows 20 for expanding the heated water 50 to prevent a pressure rise, a circulation pump 40 for circulating the heated water 50, and a discharge pipe 16 and the inlet pipe 17 is configured to be sealed.

A flange 23 is further provided to couple the bellows 20 to the body 10.

The body 10 is formed with an inner cylinder 11 and an outer cylinder 12, and is provided with a heat insulating material 13 for reducing the heat loss between the inner cylinder 11 and the outer cylinder 12.

The spring 22 is built in the bellows 20 to facilitate the expansion and contraction.

Hereinafter, a detailed description of the preferred embodiment configuration of the hermetic boiler for heating the room according to the present invention in detail as follows.

1 is a perspective view showing a hermetic boiler for indoor heating of the present invention, Figure 2 is a cross-sectional view showing a hermetic boiler for indoor heating of the present invention, Figure 3 is a state in which the bellows 20 of the present invention is operated Some cross-sectional view that shows.

As shown in FIGS. 1 and 2, the subject innovation is a body 10 to which a cover 10a is coupled, and water 50, a bellows 20, a heater 30, and a circulation pump inside the body 10. 40, the discharge pipe 16 and the inlet pipe 17 is configured.

The body 10 has an inner cylinder 11 and the outer cylinder 12 is formed between the inner cylinder 11 and the outer cylinder 12 is provided with a heat insulating material 13 is heated by the heater 30 It is possible to reduce the heat loss by preventing the heat source of the water 50 to escape to the outside.

The circulation pump 40 is provided to be operable in the water of the chamber. And it is connected with the discharge pipe 16 to circulate the heated water 50 to a constant temperature.

The heater 30 is supplied with alternating current power of a home, and the body 10 is composed of a core 32 wound around a coil 31 and an exterior 33 installed to surround the outside of the core 32. It is installed on one side of the inside.

The water 50 is stored in the inner chamber 15 of the body 10 and the cover is coupled and sealed. In addition, the temperature sensor 34 is fixed to one side of the heater 30 so that the water 50 is raised to a constant temperature.

As shown in Figure 3, the bellows 20 is formed in a convex shape on the outside, the flange 23 is provided on one side and the spring 22 is carried on the inside. In addition, the bellows 20 is preferably made of a material having excellent heat resistance.

The flange 23 is formed with a plurality of through-holes 24 through which air flows in and out, and coupling holes 25 are formed along the outer surface thereof, and the flanges 23 are fixed to one side of the chamber 15 by fixing means.

A plurality of holes 14 are formed in the body 10 to which the bellows 20 is coupled so that air flows in and out.

When the heater 30 heats the water 50 in the coupled state and the water expands inside the chamber 15, the air inside the bellows 20 flows along the through hole 24 to the body 10. The bellows 20 is pushed out to one side to be exited to the hole 14 to contract and maintain a constant internal pressure of the chamber 15. When the temperature of the water 50 inside the chamber 15 is lowered, it is formed to gradually return to its original state by the elasticity of the spring 22 inside the bellows 20.

When explaining the operation and effect as described above, the present invention is provided with a heat insulating material 13 in the outer cylinder 12 and the inner cylinder 11 of the body 10, the flange 15 on one side of the chamber 15 inside the body ( The bellows 20 on which the 23 and the spring 22 are supported is installed, and the heater 32 having the core 32 wound around the coil 31 and the exterior 33 is coupled to the other surface thereof. The discharge pipe 16 and the inlet pipe 17 are formed through the 10 and the chamber 15, and the circulation pump 40 is connected to and fixed to the discharge pipe 16, and the water 50 is connected to the chamber 15. ) And the cover is coupled to the body 10 is configured to be sealed.

When the power is turned on by connecting a home alternating current, when the heater 30 receiving the power sequentially heats the water 50, the water in the chamber 15 is saturated, and the air inside the bellows 20 is saturated. The bellows 20 is contracted in one direction so that the bellows 20 exits through the body 14 and the hole 14 along the through hole 24 to maintain a constant pressure in the chamber 15. When the heated water 50 is raised to a constant temperature, the temperature sensor 34 senses the operation of the heater 30 and stops the operation of the circulation pump 40 to operate the water 50 through the discharge pipe 16. ) Is to maximize the thermal efficiency by operating by closing the boiler 100 is configured to circulate.

When the temperature of the water 50 in the chamber 15 is lowered by introducing the water 50 in which the heat source is lost during the circulation of the water 50 in the circulation process, the temperature sensor 34 detects the The heater 30 is operated and work is repeatedly performed.

The circulation pump 40 is operated while the water 50 is circulated, and the thermal efficiency is improved by allowing the water 50 in the chamber 15 to be heated with a heat source generated while the circulation pump is operated.

Since the boiler 100 can be used by simply replacing the conventionally installed boiler 100, no additional installation cost is added.

As described below, the present invention has a first, first, simple structure, and provides a closed and operable boiler to maximize thermal efficiency.

Second, by miniaturizing the overall shape of the boiler, there is an advantage that can be installed without restrictions on the place.

Third, since the water can be heated by the heat source generated when the circulation pump is installed to circulate the water heated to a certain temperature it has the effect of minimizing heat loss.

Claims (4)

A body 10 to which the cover 10a is coupled, a chamber 15 in which water is filled in the inner surface of the body 10, a heater 30 for heating the water 50 to a predetermined temperature, and heating The bellows 20 to prevent the pressure from rising due to expansion of the water 50, a circulation pump 40 for circulating the heated water 50, and a discharge pipe 16 connected to the circulation pump 40. Closed boiler for indoor heating, characterized in that the water is supplied through the 50 is miniaturized the sealed boiler 100 circulated to the inlet pipe (17). The method of claim 1, Sealed boiler for indoor heating, characterized in that the body further comprises a flange (23) formed with a plurality of through holes (24) to be coupled to the bellows (20). The method of claim 1, The body 10 is characterized in that the inner cylinder 11 and the outer cylinder 12 is formed and the heat insulating material 13 for reducing the heat loss between the inner cylinder 11 and the outer cylinder 12 is provided. Sealed boiler for indoor heating. The method of claim 1, The bellows 20 is a hermetic boiler for indoor heating, characterized in that the spring 22 is supported to smooth the expansion and contraction and the spring 22 is fixed to the inside of the flange (23).