KR100259709B1 - Heat observing device from exhaust gas - Google Patents

Abstract

PURPOSE: A heat absorption mechanism of exhaust gas is provided to heat air flowing into a gas boiler by absorbing heat from exhaust gas of a burner and to improve thermal efficiency by heating indoor air. CONSTITUTION: A heat absorber(9) is mounted in the middle between an exhaust pipe(5a) and a feed pipe(7a). A case(90) has a space(92) therein, a couple of connecting member(91a,91b) outside and a drain valve(94) for draining a condensate. A pipe(95) is mounted in the case with a couple of connecting members(94a,94b) having both ends exposed to the upper outside of the case. One(94a) of the connecting members is connected with the exhaust pipe of a gas boiler while the other one is coupled with another exhaust pipe(5b). The connecting member(91a) is connected with the feed pipe(7a) while the other connecting member(91a) is coupled with another feed pipe(7b). The heat absorber raises indoor air by absorbing heat from high-temperature exhaust gas. The heat absorber heats the air sucked into the gas boiler. Therefore, the heat absorber enhances thermal efficiency.

Description

Heat Absorption Device of Exhaust Gas

The present invention relates to a heat absorption device of a gas boiler, and more particularly, to absorb heat from exhaust gas discharged after being burned in a burner, to heat the air flowing into the gas boiler, and to heat the air in the room at the same time. The present invention relates to a heat absorption apparatus for exhaust gas, which can improve efficiency.

Gas boilers are increasingly used in homes and industries because they do not cause pollution due to their ease of use and low emission of environmental pollutants. Gas boilers are used to heat indoors or to supply hot water by using combustion heat generated when burning gas.

Although not shown in the related art, a gas boiler, a burner provided for burning a gas supplied from the gas valve, an igniter for generating a flame, and a salt voltage meter for detecting a combustion state after ignition, and the burner A heat exchanger for heating the heating water and the direct water by using the heat generated by the exhaust gas, an exhaust pipe for discharging the exhaust gas generated after the combustion in the burner, and a flow for detecting the movement state of the direct water flowing through the direct water supply pipe A switch, a hot water discharge pipe for discharging hot water heated by the hot water heat exchanger after being introduced through the direct water supply pipe, a heating water supply pipe for guiding heating water discharged from the hot water heat exchanger into the room, and the heating water supply pipe To control the heating water return pipe and the heating direction of the heating water It includes a bi-directional pump for supplying water, and a water tank supplied with direct water through an automatic refill water valve to compensate for insufficient heating water.

Exhaust gas discharged after combustion in the burner is discharged to the outside through the exhaust pipe 5a-exhaust pipe 3 connected to the upper side of the gas boiler body 1 as shown in FIG. It is supplied through the air supply pipe 3-the air supply pipe 7a. The exhaust pipe is provided with a flow path for inducing exhaust gas and air separated from each other.

In the conventional gas boiler as described above, since relatively high temperature exhaust gas is directly discharged to the outside, heat cannot be efficiently used, and thus there is a waste. In addition, since the air directly supplied from the outside through the supply and exhaust pipe 3 has a very low temperature, when the combustion in the burner takes away a large amount of heat, there is a problem in that thermal efficiency is lowered.

The present invention has been made to solve the above problems, an object of the present invention is to absorb the heat from the exhaust gas discharged after burning in the burner to heat the air flowing into the gas boiler, and at the same time to heat the air in the room By providing a heat absorption device of the exhaust gas to improve the heat use efficiency.

The heat absorption apparatus of the exhaust gas of the present invention for achieving the above object is an exhaust pipe for discharging the exhaust gas burned in the burner, an air supply pipe for supplying air required for combustion in the burner, the exhaust pipe and the air supply It is installed in the gas boiler including a supply and exhaust pipe connected to the pipe to discharge the exhaust gas to the outside and inflowing the outside air, is installed in the middle of the exhaust pipe and the supply pipe, the space is formed inside the upper surface And a pipe having a sealed case in which an air supply connector and another air supply connector are formed on one side, and a pair of exhaust connectors installed inside the case and exposed at both ends thereof on the upper surface of the case. It is connected to the exhaust pipe of the gas boiler, the other exhaust connector is connected to the exhaust pipe of the supply and exhaust pipe, the air supply The connector is connected to the air supply pipe of the gas boiler, characterized in that the air supply connector formed on the side is connected to the air supply pipe of the supply pipe.

1 is a state diagram of a conventionally used gas boiler,

Figure 2 is an installation state of the gas boiler is installed the heat absorption device of the present invention,

3 is a cross-sectional view showing an embodiment of the heat absorption device of the present invention.

<Explanation of symbols for main parts of drawing>

1: gas valve, 2: wall,

3: supply and exhaust pipe, 5a, 5b: exhaust pipe,

7a, 7b: air supply pipe, 9: heat absorber,

90: case, 91a, 91b: air supply connector,

92: space, 93: pin,

94: drain valve, 94a, 94b: exhaust connector,

95: pipe.

Hereinafter, the heat absorption apparatus of the exhaust gas of the present invention will be described in detail with reference to the accompanying drawings.

The heat absorbing device of the exhaust gas of the present invention is discharged after being burned in a gas boiler and deprived of some heat while passing through a heat exchanger. It is a device for improving the

2 is a configuration diagram showing the installation state of the heat absorption apparatus of the exhaust gas of the present invention. As shown in the drawing, the exhaust pipe 5a and the air supply pipe 7a, which are connected to the conventional air supply and exhaust pipe 3, are respectively located in the middle of cutting into two parts. In addition, it is installed between the outside of the gas boiler (1) and the wall (2) in order to increase the thermal efficiency.

The heat absorber 9 absorbs heat from the exhaust gas discharged at a relatively high temperature to raise the indoor air, and the main feature is to heat the air sucked into the gas boiler 1. Heated air has an effect of increasing heat utilization efficiency because it facilitates the temperature rise compared to low-temperature air.

The apparatus of the present invention is largely composed of a case having a sealed space therein and a pipe inserted into the case to perform heat exchange. 3 is a side cross-sectional view of one embodiment of the heat absorption device 9 of the present invention.

As shown, the heat absorbing device 9 is to cut the middle of the exhaust pipe (5a) and the air supply pipe (7a) and is installed therein, the case 90 has a space 92 formed therein and the top On the outer surface of the air supply connector 91a, another air supply connector 91b is formed on one side of the opposite position, and a drain valve 94 for draining the condensed water is provided on the bottom surface.

In addition, the pipe 95 is installed inside the case 90 and has a pair of exhaust connectors 94a and 94b, both ends of which are exposed on the upper outer surface of the case 90. Same as

The exhaust connector 94a is connected to the exhaust pipe 5a of the gas boiler, the other exhaust connector 94b is connected to the exhaust pipe 5b of the air supply exhaust pipe 3, and the air supply connector 91a is a gas boiler. It is connected to the supply pipe (7a) of the air supply connector 91b formed on the side is connected to the air supply pipe (7b) of the supply and exhaust pipe (3).

If the operation effect of the heat absorption apparatus of the exhaust gas of the present invention having the above configuration is as follows.

When the combustion stroke is performed in the gas boiler 1, the exhaust gas generated by the combustion in the burner is discharged through the exhaust pipe 5a after heating the heating water while passing through the heat exchanger. The discharged exhaust gas is a relatively high temperature, and the temperature is so high that it burns when it comes in contact with the hand.

The high temperature exhaust gas enters the pipe 95 installed in the inner space 92 of the case 90 through the exhaust connector 5a formed on the upper side of the heat absorbing device 9, and then the other outlet of the pipe 95. That is, it flows into the supply and exhaust pipe 3 through the exhaust pipe 5b connected to the exhaust connector 94b. Inlet exhaust gas is discharged to the outside. The exhaust gas discharges heat to the outside of the pipe 95 while passing through the movement path as described above.

Meanwhile, the fresh air introduced through the air supply passage of the air supply and exhaust pipe 3 flows into the space 92 of the case 90 through the air supply pipe 7b connected to the air supply connector 91b of the heat absorbing device 9. . The introduced air is again supplied to the internal burner of the gas boiler 1 along the air supply pipe 5a coupled to the air supply connector 91a formed on the upper surface of the case 90.

As described above, heat exchange is performed while the high temperature exhaust gas and the low temperature air supplied are crossed in a sufficient space. That is, heat is emitted from the exhaust gas discharged through the pipe 95, and the heat is radiated to the space 92 of the case 90 to heat the low temperature air to increase the temperature.

In this case, it will be apparent to those skilled in the art that the contact area may be increased by further extending the flow path of the pipe 95 and forming a corrugation on the surface in order to further increase the efficiency of heat exchange.

As another thermal efficiency enhancing means, a plurality of heat radiation fins 93 may be provided on the surface of the pipe 95 as shown in FIG. 3. By doing so, the heat exchange efficiency is greatly increased. In addition, since heat is also transferred to the outside of the heat absorbing device 9, the side effect of heating the room air may be obtained.

When the hot exhaust gas and the low temperature air are in contact with each other, the temperature is lowered and the air is condensed to generate water. Air condensate is relatively harmless to metal products, but if condensate increases with the use for a long time, the heat exchange efficiency is lowered, so it is preferable to discharge the condensate quickly.

For this purpose, the lower surface of the case 90 is inclined toward the center so that the condensate can be concentrated, and a drain valve 94 for discharging the condensate is installed at an end thereof. It will be apparent to those skilled in the art that the drain valve 94 can be coupled using a screw method.

In addition, it is possible to install a filtering means in the air supply connector (91b) in order to remove the foreign matter contained in the incoming air. The inclusion of foreign matter in the air increases the probability of incomplete combustion at the time of combustion, thereby preventing environmental pollution. Moreover, the air pollution can be reduced by attaching filtering means to the exhaust connector 94b where the exhaust gas is emitted.

In the above, the high temperature exhaust gas is discharged through the pipe 95, but the heat is discharged. However, by changing the connection of the pipes, the exhaust gas is discharged into the inner space 92 of the case 90 and the fresh air is discharged through the pipe 95. It will be apparent to those skilled in the art to which the present invention pertains that the gas boiler 1 can be configured to be introduced into the gas boiler 1 through. By changing the exhaust gas movement path in this way, it is possible to easily remove the acidified condensate when the condensate is generated, thereby preventing the surroundings from becoming dirty due to the condensate. This can be achieved by changing the connection of the pipes.

As described above, according to the present invention, there is an advantage of improving heat efficiency by absorbing heat from exhaust gas discharged after being burned in a burner and heating air flowing into the gas boiler, and simultaneously heating air in the room.

Although the invention has been described in detail only with respect to the described embodiments, it will be apparent to those skilled in the art that modifications and variations can be made within the spirit and scope of the invention, and such variations or modifications will belong to the appended claims. .

Claims (3)

An exhaust pipe 5a for discharging the exhaust gas burned by the burner, an air supply pipe 7a for supplying air for combustion in the burner, and an exhaust pipe 5a and the air supply pipe 7a for exhaust In the gas boiler comprising a supply and exhaust pipe (3) for discharging the gas to the outside and inflowing outside air, Installed between the exhaust pipe 5a and the air supply pipe 7a, a space 92 is formed therein, and an air supply connector 91a is formed on the upper surface and another air supply connector 91b on one side thereof. And the closed case 90 is provided with a drain valve 94 for draining the condensate on the bottom bottom, It is installed in the case (90) and consists of a pipe (95) having a pair of exhaust connectors (94a, 94b) both ends exposed on the upper surface of the case (90), The exhaust connector 94a is connected to the exhaust pipe 5a of the gas boiler, and another exhaust connector 94b is connected to the exhaust pipe 5b of the supply / exhaust pipe 3, Heat supply of the exhaust gas, characterized in that the air supply connection 91a is connected to the air supply pipe (7a) of the gas boiler and the air supply connection (91b) formed on the side is connected to the air supply pipe (7b) of the air supply exhaust pipe (3) Device. The heat absorption apparatus of exhaust gas according to claim 1, wherein a plurality of heat dissipation fins 93 are attached to a surface of the pipe 95 to facilitate heat dissipation. The heat absorption apparatus of exhaust gas according to claim 1, wherein a filtering means is further provided inside the air supply connector (91b) and / or the exhaust connector (94b).

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