KR20050051598A - Manufacturing Formation and Installation Method of Boiler Communication with Large Eta (2) - Google Patents

Abstract

The present invention relates to exhaust communication of various boilers (chimneys) in addition to gas and oil. More specifically, the present invention relates to a communication having a large eta function in the application of the application number 2020050006887. Manufacturing and production of a heating boiler exhaust communication system for increasing the indoor temperature by detecting and sucking the heat flowed through the exhaust communication to the outer foil through the exhaust communication as a high amount of heat on the exhaust communication surface. It is about installation construction method

To this end, the large eta communication (1) surface is formed in a rectangular shape with a long space at a narrow interval where the front and rear spaces are about 20 m / m or less, and its surface is somewhat curved (groove) (9) (9). Form a large quantity so that there are ') (9 "), and attach the temperature sensor (12) and the warm air fan (11) on the outer surface of the large eta cylinder (1), and release the temperature-emitting vanes (4) (4') ( 4 ") (24) is attached to the front and back in large quantities, and on the surface thereof, wrapped with a communication protection mesh (7) or a protective box (7 '), and formed to attach with bolts or the like. 1) is attached to the wall of the interior 400 of the bedroom using the attachment support holes 19, 19 'of the pedestal 13, 13' and the boiler 100 and the exhaust (general) communication (3) to each other The outer surface of the exhaust pipe is wrapped with insulation material 300 to keep warm, and it flows inside the large eta communication 1 whenever the boiler is operated. It reduces the amount of carbon monoxide emissions by reducing the operating time of the boiler 100 by increasing the temperature inside the room due to the heat of the exhaust gas, and at the same time, it reduces the fuel costs and electricity costs for each household. To reduce and reduce foreign currency waste and provide great help to the national economy.

Description

Manufacturing formation and installation and construction method of boiler communication which combines large eta (2) {omitted}

The present invention relates to exhaust communication of various boilers (chimneys) in addition to gas and oil. More specifically, the present invention relates to a communication having a large-eta function in the designation of the application number 2020050006887, and exhausted from the inside of the boiler during operation of various boilers. Manufacture of heating boiler exhaust communication to raise the indoor temperature by detecting and sucking the (L) heat of gas that flows through the exhaust communication to the outer foil through the exhaust communication with a high amount of heat on the exhaust communication surface instead of the large eta It relates to formation and installation method of the same

Conventionally, the heating boiler 100 used in a house includes a gas boiler 100 using gas and an oil boiler. In addition, there are a boiler using wood and a briquette boiler. In general, the boiler 100 is directly imported from foreign countries, which is used to operate the boiler 100. Therefore, it is a waste of a lot of foreign currency. For example, when the boiler 100 is activated, the boiler 100 is lit by a burner. As the blower rotates to burn fuel and the inside of the boiler 100 is filled with high calories, the exhaust gas is generated, and the exhaust gas is connected to the exhaust pipe (chimney) 200 of the boiler 100. Through 3), the heat in the high exhaust gas of about 200 degrees C or more is emitted directly to the outside each time the boiler 100 is operated.

Therefore, in recent years, the exhaust pipe (3) close to the boiler 100, his (L) calorie portion is connected to the boiler 100 burner feed mechanism back to the exhaust pipe forcibly sucked and recycled. The high (loss) calories of the exhaust gas flowing out through the exhaust communication (3) by means of the method is forcibly sucked and used, but the loss of exhaust gas flowing out through the exhaust communication (3) is effective. It is not possible to use 100% of the heat completely, and only one part of the heat can be used, so only about 10% of fuel can be saved, and there is no effect of the temperature inside the room. And at the end of the exhaust gas communication (3 '), when the boiler (100) starts up, it always emits high (loss) heat to the outside foil. People go to work early in the morning, turn off the power switch of the boiler (100) and then come back home from work when the temperature of the room is very low temperature at this time, if you turn on the boiler (100), but the boiler is operating It is only about 1 ~ 2 hours to raise the room temperature and the proper temperature. The temperature of the room is only slightly warm and there is a problem of warming after a long time. When you go out for a few hours, you must go out with the boiler on. And because the indoor floor is very cold, the internal temperature rise is slow and only a lot of fuel is consumed. And even during the shower, the boiler keeps running for a long time, so it uses a lot of fuel to use hot water. While burning, the calorie temperature in the exhaust gas cannot be utilized There has been a big problem

As such, the boiler 100 (chimney) exhaust communication section 3 sends high (L) calories from the inside of the boiler 100 to the outside. The exhaust gas exhausted through the communication section 3 is carbon monoxide exhaust. As a gas, it is also a major cause of environmental air pollution.

In addition, the installation place of the boiler 100 currently used in apartments or houses is generally selected in a secluded place, and the exhaust communication 3 connected to the boiler 100 (chimney) exhaust pipe 200 is directly installed toward the outside of the lamp shade. Every time the boiler is operated and 100, the large amount of heat is directly flowed to the outside of the building. It is a spring that spends money, and furthermore, it is a big problem to cause environmental pollution by directly discharging foreign currency and releasing a large amount of carbon monoxide exhaust gas. Therefore, in recent years, the name of the design of the application No. 2020050006887 In the communication (1) having, the effect of (L) thermal efficiency emission is large, but the manufacturing cost is rather high and its structure is cylindrical Since the protrusions appear high when attached to the bedroom (400) wall, there is a problem that the length of the large eta communication (1) is a long problem, and the designation of the application No. 2020050007324 In manufacturing formation and installation method, there is no hot air fan (11) that can circulate hot air temperature inside the large surface area of the large ethanol (1) by quickly blowing air into the room. There is a problem that the effect of mixing high and low temperatures inside the room is late.

It is an object of the present invention that the surface of the large eta communication (1) so that it can detect the suction (cal) calories in the exhaust communication (3) inside the center of the exhaust gas discharged from the various boilers 100 without calorie detection suction jaw In the form of a square, the distance between the front and the back is less than about 20 m / m, making it narrow and long so that the caloric emission surface area becomes wider, and at the same time, it is formed so as not to be caught by reducing the height that protrudes when attached to the room. The surface of the object is somewhat curved (groove) (9) (9 ') (9 ") to form a large amount of exhaust heat flows out of the mixing (large) (1) as much as possible (L) On the outer surface of the large eta communication (1), the temperature emitting vanes (4) (4 ') (4 ") (24) are attached to the front and back so that a large number of them are protruded. The calories are blown to the warm air fan (11) by sensing the heat source (12). The high temperature is rapidly transmitted to the room by zooming. The large eta communication (1) is surrounded by a protective mesh (7) or a protective box (7 '), and the support is formed. (400) or the living room (500) is fixed to the wall and connected to each other and the boiler 100, the exhaust port 200 by the exhaust communication (3), and then the exhaust communication (3) the outer surface of the heat insulation effect is not burned well to burn well Wrapped with the material 300 and installed to keep warm, the exhaust gas flows to the outer foil every time the boiler 100 is operated and all the (cal) calories are radiated through the large eta (1) surface and the heat-dissipating wings ( 4) The large eta-communication (1), which is designed to release only in (4 ') (4 ") (24) to raise the temperature inside the bedroom (400), is characterized by remodeling and installation. Gas by reducing the operating time of the boiler 100 every time It is a boiler communication system that combines the radiator which reduces the carbon or monoxide emissions, which contributes to the individual and national economy by reducing various sources of imports through the reduction of rain or oil prices and electric charges. ) To provide the manufacturing method and installation method

Hereinafter, described in detail by the accompanying drawings as follows.

Fig. 9 shows the communication (1) (1 ') of the boiler in the form of large eta installed on the walls of the home bedroom (400) and the living room (500) and the exhaust (normal) communication (3) (3') (3 "). ) Is an embodiment of a state that can increase the temperature of the room by using the exhaust gas (L) heat amount of the boiler 100 by the installation and construction method showing the state connected to the boiler 100 and coupled to each other.

3 is a view showing a state in which the manufacturing formation process of the communication (1) also serves as a large eta of the present invention will be described as follows.

First, in the large eta communication (1) used in connection with the boiler exhaust (chimney) (200), as shown in Figure 1, the thickness of the large eta communication (1) using a thin iron plate of about 0.5mm or less On the outer surface, when the exhaust gas is discharged, the hot (L) heat flows through the inside of the communication with the air resistance, causing the heat of the exhaust gas flowing out to the center to be sucked up and conducted quickly to the large eta communication (1) surface. To make the large eta communication (1) slightly bent (groove) parts (9) (9 ') (9 ") to protrude toward the inside, run a large number of gaps on the front and back to form a large number of parts and back On the one side, the L-shaped base 13 'formed of iron plate is fixedly attached to the wall to attach the large eta communication (1) to the wall. Perforations 19 and 19 'respectively, and in the middle In the upper part, drill a hole 15 "to attach the protective wire mesh 7 or the protective box 7 'with bolts, and attach a warm air fan 11 to one side of the connector 5 side. After the step of forming the N-shaped support 23 is fixedly attached and the temperature sensor 12 switch is attached to the surface of the part, the exhaust gas temperature (L) is passed when the exhaust gas passes inside the large eta communication 1. Large eta communication (1) The surface area is rectangular in shape so that all the calories can be sucked up in a large amount in a short length. The inner area of the boiler 100 is about 10% wider than the area value of the exhaust (chimney) port 200 of the boiler 100, and the exhaust gas intake connector (5) and the exhaust connector (6) other exhaust communication ( 3) Make the connectors (5) (6) easy to connect and engage with (3 '). Each hole is formed by drilling a plurality of bolt holes 10 and 10 'so that the bolts can be connected to each other and the bolts are connected to each other. In order to release a large amount of temperature heat to the outside, the heat dissipation plate 4, 4 ', 4 ", 24 having a heat dissipation plate is formed to be somewhat curved, so as to jump slightly apart as shown in FIG. A large number of parts are fixed to the front and back of the part by welding, and the hot calorie temperatures sensed on the surface of the large eta communication (1) are blown into the interior to mix the hot and low temperatures with each other. The hot air fan (11) is attached to the hole using a bolt, and the surface of the large eta communication (1) thus formed becomes hot when the boiler (100) is operated to prevent its risk. As shown in Fig. 5, the communication protection wire mesh 7 is formed by assembling the wire protection wire 7 with a steel wire of about 3m / m thick, or by using a non-flammable non-flammable material to form a communication protection box without a back side. The protective wire mesh 7 may be attached and bonded to the middle hole 15 "of the pedestal 13 and 13 'and the protective wire support hole 15 and 15' using a bolt. Communicating (1) is a fixed attachment installation using the support holes (19, 19 ') of the base 13, 13' formed on the large eta communication (1) on the wall of the bedroom 400 or living room 500 It becomes a usable step.

In the inner area of the communication (1) combined with the large eta formed above, the width is narrowed in a rectangular shape to increase its (vertical) length so that the thickness of its width is lowered. In total, the rectangular shape rather than the circular one can make the external area more than three times wider, so that the length of the inlet connector (5) and the outlet connector (6) from which exhaust gas flows is shortened. Simultaneously, the exhaust gas (L) calories pass through the narrow space width of the large eta communication (1) while conducting a large amount of heat to the large eta communication (1) surface and attached to the interior wall of the bedroom (400). This prevents the protrusions from being jammed due to the low level, and at the same time, it is possible to release more heat in a large area even at short lengths. Although it is rather low, it can be supplied to consumers by reducing the burden. However, in some cases, the method of burying the large eta barrel (1) by forming a protective box in the form of a square instead of the protective wire mesh (7) may be expensive. The method of installation of the large eta communication (1) thus formed is connected to the boiler 100 and connected to each other and used in the bedroom and living room. One large eta communication (1) on the wall of the bedroom (400) and one on the wall of the living room (500). The large eta communication (1) is attached to the support holes (19, 19 ') of the pedestal (13) (13'). Use a bolt or the like to firmly support the wall, and connect the power line for warm air (11) to the power line of the burner (blower), and connect the temperature sensor (12) switch in series. To be operated by operation of 12) One side of the exhaust (general) communication (3) is inserted into the (chimney) exhaust port 200 of the boiler 100, and the exhaust communication (3) opposite the large eta communication (1) attached to the wall of the bedroom (400). One side suction connector (5) is interlocked with bolts (14) with an interlocking baring (2) through which exhaust gas can flow out, and the exhaust surface (3) of the outer surface is kept warm without burning well. It is wrapped with a high-efficiency insulating material (300) and heat-treated, and the upper surface is wound with a tape (8), and the large eta communication (1) of the discharge chamber (6) of the bedroom (400) is in between. A bar (2) is inserted into the other side of the exhaust communication (3 ') and the bolt (14) is coupled to the other side of the exhaust communication (3') the large eta communication (1 ') attached to the wall of the living room (500) Put the suction connector (5 ") and baring (2) into the bolt (14), and connect the exhaust pipe (3 '). The outer surface is not burned well and the heat retention effect is high. It is wrapped in material (300 ') and insulated, and the large eta communication (1') outlet connector (6) attached to the living room (500) has another exhaust communication (3 ") on one side and the baring (2). Put together and connect with each other bolt (14) and the opposite end of the communication (3 ") is installed outside the end of the general communication ((3") end of the building to go long when the boiler 100 is operating Do not allow carbon monoxide exhaust gases to enter the room, and in long spaces of approximately 5 m or more, the length of the exhaust flue (3) (3 ') (3 ") will increase, leading to exhaust communication to the foil (3"). ) At the end, the exhaust fan 30 is installed, and the damper 20 to control the amount of air is inserted and fixed by bolts. In the damper 20, the exhaust fan 30 is about 10w or less. Attach small-capacity ones and connect the power line with the power line of the burner. Whenever 100 is operated, exhaust gas flows out, and when the boiler 100 is operated, an ammeter is applied to the power line of the burner (blower) to measure the amount of current so that no force is applied when the burner (blower) is turned. When the current amount of the blower is increased, a force is applied to the burner (blower) to rotate the air inlet plate 17 up and down so that the outside air does not flow into the damper 20 so that the air inlet 16 is opened. When closed in a suitable amount and tightly fastened with a fixing bolt, the exhaust gas flowing into the communication (3 ") smoothly escapes to the outer foil while being fixed, thereby lowering the amount of current. As such, the air inflow of the damper 20 is reduced. When the holes 16 are closed a lot, only the exhaust gas contained in the exhaust communication 3 "is sucked out. When the holes of the air inlet 16 are opened, the outside air flows directly into the damper 20. By controlling the amount of exhaust gas so that a large amount can be introduced, the exhaust fan 30 having the damper 20 attached thereto is controlled by adjusting the amount of exhaust gas discharged using the air inlet 16 of the damper 20. When attached to the end of the communication, there is no big problem in the length and the bent portion of the large eta communication (1) (1 ') and the exhaust communication (3') (3 ") (3) connected to the boiler 100. In addition, the exhaust gas emitted at the end of the exhaust pipe (3 ") senses and absorbs a large amount of heat in the large eta pipe (1) (1 ') installed in the bedroom 400 and the living room 500, and has already used more than 95% of the exhaust gas. Only a small amount of lukewarm exhaust gas flows into the foil at the end of the exhaust communication (3 ") damper (20) and (30).

As described above, the effects of raising the indoor temperature after installing the large eta communication (1) (1 ') in the bedroom 400 or the living room 500 will be described in detail. When the temperature controller 600 is turned on and the temperature is set, the burner (blower) of the boiler 100 rotates, and when the inside of the boiler 100 catches fire, the boiler 100 continues to burn fuel such as gas or oil in itself. All

As the fuel is burned in this way, the exhaust gas and the heat are generated, and the exhaust gas thereof is pushed toward the boiler 100 (chimney) exhaust pipe 200 by the force of the burner (blower) air flow and the exhaust communication (3) (3). The inside of the ') (3 ") and the large eta communication (1) (1') are flowed to the outside foil, and the high-temperature calorific temperature of about 200 degrees C is contained in the exhaust gas. Every time the boiler is operated (100), the exhaust flue (3) (3 ') (3 ") connected to the boiler is heated and heated at night, day or night, and discharged. Afterwards, the heat generated in the boiler 100 flows out the exhaust port 200, and the exhaust communication body 3, which is heated to a high calorific temperature, is kept warm without burning the entire outer surface of the exhaust communication. Wrap with a highly effective nonflammable insulation (cover) material (300) to insulate Therefore, the high calorific temperature, which was detected hot on the surface of the exhaust pipe (3), is not discharged to the outside of the exhaust pipe (3), but flows toward the large meta-communication (1) attached to the bedroom (400) and the living room (500). When passing through the inside of the large eta communication (1) attached to the (400), the width of the inside space becomes a very narrow space of 20 m / m or less, so the area of the outer surface of the large eta communication (1) Is actually more than three times wider, the higher exhaust gas flows through the inside of the large eta flow (1) and naturally flows directly into the surface of the large eta communication (1). On the surface of the large eta-communication (1), it is detected and absorbed, and in the protruding bend (groove) (9) (9 ') (9 "), the hot heat flowing in the center of the communication (1) and the low heat passing through the lampshade Mixing mixer evenly with each other The radiator communication (1) on the outer surface and the heat-dissipating plate (4) (4 ') attached to the bedroom 400 as the effect of sensing and inhaling hot heat flowing in the center of the communication at the same time. (4 ") (24) If all of the surface area rises to a hot temperature at this time (Temperature sensing), the (12) switch is operated so that the warm air fan (11) rotates and the large eta communication (1) Hot Temperature Calorie Blowing the air toward the surface, the temperature-emitting vanes (4), 4 ', 4 "and 24 will release many of the calories that are sucked and sensed by cooling. As they spread quickly into the bedroom, the temperature inside the bedroom 400 rises above about 5 degrees c during the shower by the scale value set to the temperature controller 600 of the boiler 100, and the winter heating is 2 to 4 degrees c. And early spring and early autumn are soaring to 1-3 degrees c. At any time, there is always an effect of rising more than 2 ~ 3 ° C higher than the room temperature of the room. And the calories detected in the large eta barrel (1) always emit a lot of heat when the temperature of the bedroom is low. If the temperature is high, less heat is emitted. The reason for this is that if the temperature of the bedroom 400 is low, the difference between the detected temperature on the outside surface of the large eta communication (1) and the temperature inside the bedroom 400 is large ( As the calorie temperature flows, the air around the large eta communication (1) becomes cold and the amount of cooling temperature increases, so the surface of the large eta communication (1) sucks and releases a large amount of heat, so the temperature of the bedroom increases rapidly. As a result, the exhaust gas (L) heat temperature flowing to the outside at the end of the communication 3 'is significantly lowered. On the contrary, when the temperature of the bedroom 400 increases, the temperature detected on the outer surface of the large eta communication 1 is increased. Because the temperature difference between the interior and the bedroom 400 is small, the air around the large heat exchanger (1) through which the calorie temperature flows is high, so the amount of temperature to cool down is also reduced, so the large eta communication (1) is detected. As the difference in suction is small, the amount of heat cannot be released, and thus the temperature of the bedroom gradually increases, and the temperature of the exhaust gas (L) flowing out to the outside at the end of the communication (3 ') is greatly increased. The exhaust gas (L) calorie temperature sent to the outer foil through the communication (3,) is always the same amount, but the exhaust gas (L) temperature is lower at subzero temperatures and the exhaust gas (L) at high temperatures in the image. It can be seen through the exhaust communication (3 ") of the boiler 100 conventionally installed in the state which flows out to an outer foil in the state of high temperature.

As such, the hot calorie temperatures detected on the outer surface of the large eta communication 1 and the temperature emitting vanes 4, 4 ′, 4 ”and 24 are large eta communication 1 when the hot air fan 11 is activated. By blowing all the heat and heat from the surface into the air volume, the hot air is quickly spread out into the bedroom while the cold air is blown back into the large eta communication (1). The outer surface of the large eta barrel (1) and the temperature-emitting vanes (4) (4 ') (4 ") emit high temperatures while continuously inhaling more heat, so the temperature of the interior or bedroom 400 of the house is Every time the boiler 100 is operated, the temperature increases more and more every time the boiler 100 is operated, and all the calorie temperatures remaining and detected in the large eta communication 1 of the bedroom 400 are exhausted. Towards the living room 500 with gas When passing inside, the outside surface of the exhaust communication (3 ') becomes hot as it passes first inside the exhaust communication (3') connected to the large eta communication (1 ') attached to the inside of the living room (500). The outer surface of the exhausted exhaust communication (3 ') is covered with a non-flammable insulation insulation cover (300) having a high thermal insulation effect without being burned well on the entire surface of the exhaust communication (3'). 3 ') The high temperature that was detected on the outside surface emits a large amount of heat to the inside of the living room 500 in the same way as the large eta communication 1 of the bedroom 400 described above. In this way, when the boiler 100 is operated as described above, the large eta communication (1) (1 ') attached to the inside of the bedroom 400 and the living room 500 every time the silver boiler 100 is operated. Repeat the same way each time to raise the room temperature. If there is a slight difference depending on the size of the room such as the bedroom (400) or living room (500), but the temperature of the room rapidly rises by about 1 to 3 degrees c within a short time to shorten the operating time of the boiler (100) This makes it possible to reduce various fuel costs.

In addition, even when taking a shower in each home, hot water continues to flow into the foil during the shower, but all the calories of the exhaust gas that flows to the outside for the time that the boiler 100 is operated are all large. (1 ') surface and temperature-emitting vanes (4) (4') (4 ") (24) surface continuously releases many calorie temperatures into the room, so the temperature inside the bedroom 400 and living room 500 is weak. As it keeps rising more than 2 ~ 5c, the fuel cost is reduced even during the shower. Note that the temperature and heat quantity of the exhaust gas emitted from the boiler 100 are limited. The length of the large eta communication (1) can be lengthened if it is installed only in one bedroom.However, if the installation place is more than two, the length of the object should be divided into two parts. bedroom In the second bedroom, the large eta communication (1) uses a longer eta communication (1 ') which is a little longer, and the small large eta communication (1) is installed in the one bedroom to distribute and dissipate its heat evenly. It can be considered desirable

In this way, when the large eta communication (1) is installed only in one bedroom, the length of the large eta communication (1) can be installed long, so that many calorie temperatures can be emitted only in one bedroom at a time. It is possible to raise the temperature above 5 degrees C, so the fuel cost can be reduced to 50 ~ 60% or less than before. Furthermore, after the boiler 100 is turned off even at work or on the cold day below zero When you return home and turn on the boiler (100) again, the burner (blower) is activated so that whenever the exhaust gas flows into the exhaust pipe (3), the large energy (1) continuously emits a large amount of heat directly into the bedroom. As a result, even in a short time within 1 hour, the indoor temperature is increased to a temperature higher than about 5 degrees c.

Thus, whenever the boiler 100 is operated, the large eta communication (1) has the function of serving as the exhaust (normal) communication (3), and heats up with a large amount of heat on its outer surface, thereby raising the temperature inside the room. Furthermore, in the bedroom 400, etc., whenever the boiler 100 is operated, the temperature is emitted from the floor where the heating coil is laid on the floor. As a result, the thermal calories emitted from the large eta cylinder (1) attached to the interior wall of the bedroom are emitted much higher than the thermal calories that are felt in the exhaust tube (3) used in the conventional case. The temperature varies depending on the size of the room. However, when the boiler 100 is operated, the temperature of the room is about 1 to 3 degrees C or more above the scale set in the temperature controller 600. As the operating time of the boiler 100 is shortened by about one to two minutes, the temperature of the room rises even higher, and thus the boiler 100 is stopped for a while. Sometimes it stops for about 15 to 20 minutes for a certain time until it falls below the temperature (scale) set to the temperature controller 600, and the room temperature is below the temperature (scale) set to the temperature controller 600 again. When it falls to this time, when the circulation pump motor is started by running and the heating water temperature is lowered again, the boiler 100 is driven again and the room temperature is repeatedly raised in the same manner every time. The circulation pump motor stops when the temperature rises only about 1 degree c above the temperature set in the temperature controller. Temperature (L) calories in the exhaust gas flowing to the end of the general communication (3 ") facing the outer foil of the water is detected and sucked by the large eta communication (1) (1 ') attached to the bedrooms (400, 500) As all are used, only a little lukewarm calorific temperature is released.

In this way, when the boiler 100 is operated, the radiator communication 1 sends exhaust gas to the outer foil and detects only the calorie intake, so that many calories are consumed within a short time by 1 to 3 degrees c. The operating time of the boiler 100 is shortened by increasing the temperature of the boiler 100. Also, since the boiler 100 is operated at a temperature lower than the temperature (scale) set to the temperature controller 600, the boiler 100 is operated. Although the boiler 100 is stopped for a longer time as the temperature drops, the conventional boiler 100 has a longer operating time and consumes about 50% more fuel and about 20% more electricity. The temperature is lower than 1 ~ 5 degrees c or less, and in the present invention, the boiler 100 equipped with the large ethanol (1) using the calorific value of the exhaust gas has a fuel consumption of about 60% or more in a single compartment. Reduction effect and its In addition, the indoor temperature is increased by 1 ~ 5 degree c while reducing the electricity consumption by 20% and reducing electricity consumption by about 20%. In the case of the communication (1) of this paper, the existing boiler (100) or the new boiler (100) In this case, it is possible to simply install and use all of them.Because of this, the electric charge reduction effect and fuel cost reduction effect can be achieved, and the amount of carbon monoxide exhaust gas emission is reduced by the time when the boiler 100 is stopped. It is a boiler with a radiator that prevents environmental pollution and further reduces the amount of oil imported by saving fuel, which greatly helps the national economic finance and solves the financial problems of individual households. 100) Provides methods for the formation, manufacture and installation of the communication (1).

As described above, the present invention manufactures and forms a large eta communication (1) capable of releasing a large amount of heat into the boiler communication (1) serving as a large eta while flowing exhaust gas, thereby forming a bedroom on which the ondol pipe of the boiler is laid. When the boiler 100 is operated by the installation and installation inside the room such as a living room or the living room, the large energy communication (1) allows the high temperature heat to be emitted directly into the inside of the room. C is about to increase the effect of reducing the operating time of the boiler (100) by about 50% more fuel costs and more than 20% savings in electricity costs

It is effective in strengthening the national economic finance by reducing the waste of dollars due to the reduction of fuel costs. Boiler (100) It is effective in preventing pollution by reducing the amount of carbon monoxide exhaust gas by reducing the operating time. Continues to run so that hot water flows out, but all the heat in the exhaust gas that flows out as much as the time the boiler 100 runs is released inside the room through the large eta communication (1). As a result, the heat of the heat is directly stored and the temperature inside the room is increased by about 3 to 5 degrees or more.

The large eta barrel (1), which can be used for large eta replacement, can be used for the existing boiler (100) and can also be used when the new boiler (100) is removed.

Low manufacturing cost makes it easy for consumers to provide and can be easily installed and used by anyone

As such, the temperature of the bedroom is warmer due to the effect of increasing the temperature of the room, and it saves a lot of resources and saves various sources of imports, which is a great help to the individual and national economy.

1 is a partial cutaway view of a large eta communication separated from the temperature release wing

Figure 2 is a large eta communication formed with a temperature-emitting wing and a hot air fan

3 is a state in which the temperature-emitting wing and the protective wire mesh are attached to the large eta communication;

(A) of Fig. 4 is a plan view and a plan view of the large communication ethanone. 1 (B) is formed with a large Eta communication temperature discharge wing and the hot air fan and a protective wire mesh for attachment to the outer surface

5 is a model state (example) of the protective wire mesh

Fig. 6 is an example of a model state of the temperature emission wing.

Fig. 7A is a view of a damper separated from the air inlet body.

      (B) is a figure of main body of air inlet separated from damper

8 is a view illustrating a state in which the air inlet body and the damper of FIG. 8 are coupled;

9 is a view showing an embodiment of the installation method of attaching a large eta communication in the bedroom and living room and connected to the boiler and the exhaust (general) communication with each other

10 is an example of a state in which a barking is put into and coupled to the exhaust communication and the large eta communication;

Fig. 11 is a view of a pedestal for supporting and attaching a large eta stream and a hot air fan;

(Explanation of symbols for the main parts of the drawing)

1'1: Large eta communication 2: Bar king 3'3 "3: Exhaust communication 4'4" 4 24: Temperature (heat radiating plate) Emission wing 5'5: Suction connector 6'6: Exhaust connector 7'7: Communication Protective wire 8: Tape 9'9 "9: Bend (groove) 10'10: Bolt hole 11: Warm air 홴 12: Temperature 쌘 1313 '23: Base 14'14: Bolt 15'15" 15 19'19 "19" Attachment support hole 16'16: Air inlet port 17: Air inlet plate 18: Insulation material 20: Damper 30: Exhaust fan 100: Boiler 200: Exhaust port (chimney) 300: Thermal insulation material 400: Bedroom 500: Living room 600: Boiler Thermostat

Claims (4)

In addition to oil and gas, various boilers (100) exhaust port (chimney) 200 and the exhaust communication (3) by connecting the (cal) calorie temperature in the exhaust gas emitted from the boiler (100) boiler communication (1) In the manufacturing formation and installation method of the large eta communication (1) which can emit and release the exhaust gas by sensing and suctioning its heat quantity inside the room, the surface area of the large eta communication (1) is square The inner space of the front and the rear is formed to have a narrow interval of about 20 m / m or less, the inner area thereof is larger than the total sum of the internal area of the exhaust (chimney) 200 of the boiler 100 The openings of the exhaust gas inlet (5) and outlet (6) of the large eta communication (1) are each connected to the connection (5) and (6) to facilitate connection with the other exhaust communication (3). After the forming step, the amount of heat flowing (large) on the inner surface of the large eta communication (1) Forming a large quantity of the curved (groove) (9) (9 ') (9 ") to the mixer and a large amount of hot calorie temperatures that were sucked into the outer surface of the large eta communication (1) The temperature-dissipation blades 4, 4 ', 4 "and 24 are formed to have a bent portion so as to have a heat dissipation effect in order to emit heat. Eta fluctuations (10 hot calorie temperatures detected on the outer surface are fixed to form a temperature sensor (12) and a warm air fan (11) in order to blow out many calorie temperatures into the room in a short time by the wind volume) Is connected to the burner (blower) power line and manufactured to operate the hot air fan (11) by the temperature sensor (12). Or communication box The step of wrapping and the large eta communication (1) is attached to the wall of the bedroom (400) or living room (500) and connected to the boiler (100) and the exhaust communication (3), the large eta each time the boiler 100 is operated In the communication (1), the exhaust gas flows out to the same function as the substitute of the exhaust communication (3) (2 ', 3 ") through which the exhaust gas flows, while the exhaust gas flows to the outer foil while the (cal) calories are radiated. (1) Large-area communication, manufactured and manufactured to have the same characteristics to increase the temperature of the room by using suction on the outside surface (1) The large eta communication (1) of the boiler (100), which serves as a large eta formed and manufactured according to claim 1, has a large amount of heat of the exhaust gas generated in the boiler (100) when the boiler (100) operates. The large eta communication 1 is configured to have a functional effect of the exhaust communication 3 as it flows through the inside of the eta communication 1, and to sense and suck in using the calorie temperatures in the exhaust gas passing through the interior of the synchronous communication. The large eta communication (1), characterized in that used to increase the temperature in the room by attaching a large eta communication (1) inside the various buildings, such as the bedroom (400) or living room (500) of the house in step According to claim 1, on the surface of the large eta communication (1), a hot air fan (11) and a temperature sequencer (12) switch are attached to each other so that the hot temperature heats sensed on the outer surface of the large eta communication (1) are measured. By operating the switch, the hot air fan (11) is actuated, and on the outer surface of the large eta communication (1) and the rear surface (heat radiating plate) on the temperature emitting vanes (4 ') (4 ") (4) (24) Warm air fan (11) to blow all the detected heat into the air flow to circulate the warm air inside the room (11) In the communication (1) formed to have a large eta function, the large eta communication (1) is placed on the wall of the bedroom (400) or the living room (500) (13) ((13 ') support mounting holes (19) (19 "). To the boiler (100) and the exhaust connector (1) to the exhaust connection (3 '). Coupling to connect with the large eta (1) of the other bedroom and / or to release the exhaust gas to the outer foil and the surfaces of the exhaust (general) communication (3) (3 ') (3 ") to the thermal insulation (300) Wrap and insulate to collect the detected calorific temperatures on the surface of the exhaust communication (3) (3 ') (3') and send them to the large eta communication (1) and to the external foil from the large eta communication (1) At the end of the exhaust communication (3 "), the dam with the exhaust fan (30) is attached if the combined length of the large eta communication (1) and the exhaust communication (3) (3") is longer than about 5 m. Insert the fur 20 and rotate the air inlet plate 17 to adjust the amount of air in the air inlet 16 so that when the exhaust gas is discharged together, the fan 30 is rotated together, the boiler 100 is Installation method of the large eta communication (1) is formed to increase the room temperature by the (cal) calories of the exhaust gas flowing from the boiler 100 to the outer foil during operation