KR20120060524A - Water heating device using wasted heat of boiler exhaust outlet - Google Patents

Abstract

PURPOSE: A water heating device using waste heat of an exhaust outlet of a boiler is provided to enhance a recovery rate of the waste heat by delaying the flow of combustion gas exhausted through an exhaust pipe. CONSTITUTION: A water heating device using waste heat of an exhaust outlet of a boiler comprises an installation pipe(100), a waste heat recovery pipe(200), a foam stone-filled wall(300), and a foam stone(400). The installation pipe is composed of inner and outer pipes(130,110) and an intermediate pipe(120). The intermediate pipe is fixed along a same axis with the outer pipe inside of the outer pipe. The internal pipe is fixed along the same axis with the outer pipe inside the intermediate pipe. One end part of the waste heat recovery pipe is connected to a boiler. The other end part of the waste heat recovery pipe is connected to the boiler after the waste heat recovery pipe installed in a spiral shape in a space between the outer and intermediate pipes and successively installed in the spiral shape in a space between the intermediate and inner pipes. The foam stone-filled wall formed outside of the outer pipe of the installation pipe. A space between the outer pipe and foam stone-filled wall is filled with foam stones so that combustion gas exhausted through an exhaust pipe isolates heat emitted out of the outer pipe.

Description

Hot water heating device using waste heat of boiler exhaust port {WATER HEATING DEVICE USING WASTED HEAT OF BOILER EXHAUST OUTLET}

The present invention relates to a hot water heating device using the waste heat of the boiler exhaust port, more specifically, is installed in the boiler exhaust port to heat the water by the waste heat of the combustion gas discharged through the exhaust port, the outside of the exhaust port to insulate the waste heat of the combustion gas At the same time, the present invention relates to a hot water heating apparatus using waste heat of a boiler exhaust port configured to delay the flow of combustion gas discharged through the exhaust port and improve the waste heat recovery rate of the combustion gas.

Boiler is a device that heats cold water to high temperature for the purpose of heating indoor space or using hot water directly. These boilers are divided into electric boiler, gas boiler, oil boiler and briquette boiler according to the type of energy source. Commonly, the water is heated to circulate the heating water through a heating pipe embedded in the floor of the room, or the water is heated to provide hot water through the hot water pipe.

Referring to FIG. 1, the boiler generally has a main body 10 including an inner cylinder 20 having a combustion chamber formed therein, and an outer cylinder 30 formed to be sealed at an appropriate interval from the inner cylinder. And the combustion chamber of the inner cylinder 20 is provided with a burner 22 for obtaining heat by burning the supplied oil, gas, briquettes, etc., the outer surface of the inner cylinder 20 is wrapped in a water pipe 40 for hot water Has And, one side of the boiler is provided with an exhaust port 24 for discharging the combustion gas generated by the burner 22 to the outside. Therefore, when the burner 22 is operated, the inner cylinder 20 is heated, and the heat is transferred to the water pipe 40 surrounding the inner cylinder to heat the water transferred along the water pipe to supply hot water. Of course, the water supply pipe 42 is integrally formed at one end of the water pipe 40, and the hot water discharge pipe 44 is integrally formed at the other end.

And the heat generated while the burner 22 is operated to heat the heating water flowing between the inner cylinder 20 and the outer cylinder 30 through heat exchange. Then, the heated water is guided to the supply distributor 50 provided in a part of the outer cylinder 30, and passes through each room through a plurality of heating tubes 70 connected to the supply distributor, each The heating water supplied with heating while passing through the room flows back into the boiler main body 10 through the collecting distributor 60. In this way, the heating water is circulated and continuously supplies heating to each room.

However, the conventional boiler constructed and operated as described above not only lowers the thermal efficiency due to the generation of waste heat that is wasted in order to obtain the required heat, but also consumes a large amount of energy since the temperature required to be heated for a certain time can be obtained. There was a problem that takes a lot of heating costs. In other words, the conventional boiler has a problem that most of the flame and hot gas generated from the burner during combustion is not recycled and is immediately discharged through the exhaust port and discarded as waste heat.

The present invention has been made to solve the above problems, the purpose of which is installed in the boiler exhaust port to heat the water with the waste heat of the combustion gas discharged through the exhaust port, while insulating the waste heat of the combustion gas outside the exhaust port and at the same time It is to provide a hot water heating device using the waste heat of the boiler exhaust port configured to delay the flow of the combustion gas discharged through to improve the waste heat recovery rate of the combustion gas.

An object of the present invention is an external pipe which is integrally connected to a section of the boiler exhaust port, an intermediate pipe fixedly installed coaxially with the outer pipe inside the outer pipe, and coaxial with the intermediate pipe inside the intermediate pipe. An installation pipe composed of an internal pipe fixedly installed; A waste heat recovery tube installed spirally in the space between the outer pipe and the intermediate pipe and then spirally installed in the space between the intermediate pipe and the inner pipe; A foamed stone filling wall formed outside the outer pipe of the installation pipe; It comprises a foamed stone filled in the space between the outer pipe and the foamed stone filling wall to block heat emitted from the combustion gas discharged through the exhaust pipe to the outside of the outer pipe, the waste heat recovery pipe By re-introducing into the boiler through the water through the waste heat recovery pipe can be achieved by providing a hot water heating apparatus using the waste heat of the boiler exhaust port characterized in that the heated by the waste heat to be re-introduced into the boiler.

Here, a fixed screw is installed inside the inner pipe, and the hot combustion gas discharged into the inner pipe flows while rotating along the fixed screw to delay the flow of the combustion gas, thereby improving the waste heat recovery rate of the combustion gas. desirable.

In addition, in the upper space between the outer pipe and the intermediate pipe and the upper space between the intermediate pipe and the inner pipe, a flow delay plate having a discharge hole is formed to delay the flow of the combustion gas, so as to improve the waste heat recovery rate of the combustion gas. One is preferable.

The hot water heating apparatus using the waste heat of the boiler exhaust port according to the present invention is installed in the boiler exhaust port to heat the water by the waste heat of the combustion gas discharged through the exhaust port, while insulating the waste heat of the combustion gas outside the exhaust port and discharged through the exhaust port at the same time There is an effect that it is possible to improve the waste heat recovery rate of the combustion gas by delaying the flow of the combustion gas.

1 is a view showing a conventional boiler,
Figure 2 is a cross-sectional view of the hot water heating apparatus using the waste heat of the boiler exhaust port according to the present invention,
3 is a view showing a boiler to which a hot water heating device according to the present invention is applied.

Hereinafter, with reference to the accompanying drawings will be described in detail the hot water heating apparatus using the waste heat of the boiler exhaust port in accordance with the present invention.

2 is a cross-sectional view of the hot water heating apparatus using the waste heat of the boiler exhaust port according to the present invention, Figure 3 is a view showing a boiler to which the hot water heating apparatus according to the present invention is applied.

Referring to the drawings, the hot water heating apparatus according to the present invention comprises an installation pipe 100, waste heat recovery pipe 200, foamed stone filling wall 300 and foamed stone 400.

The installation pipe 100 includes an outer pipe 110, an intermediate pipe 120, and an inner pipe 130.

The outer pipe 110 is a pipe that is integrally connected to a section of the boiler exhaust port 24 is to install the hot water heater of the present invention by coupling the outer pipe to a section of the exhaust port. Here, the outer pipe 110 may be integrally coupled to the boiler exhaust port 24 by welding, and may be coupled to be separated and connected through a circular clamp or adhesive tape to facilitate post management.

The intermediate pipe 120 and the inner pipe 130 are pipes sequentially formed inside the outer pipe coaxially with the outer pipe 110 and are fixedly installed inside the outer pipe through a connecting rod, not shown.

The waste heat recovery pipe 200 is one end is connected to the boiler 10, the spiral pipe is installed in a space between the outer pipe 110 and the intermediate pipe 120, and then between the intermediate pipe 120 and the inner pipe 130 After the spiral is installed sequentially in the space of the other end is configured to be connected to the boiler 10 again.

More specifically, the waste heat recovery pipe 200 is preferably formed of a flexible material of the steel material can be easily bent in a spiral, both ends are connected to the boiler, the low temperature water flowing out of the boiler waste heat recovery pipe It is configured to circulate the temperature so that the temperature rises and then flows back into the boiler. Here, it is natural that the circulation pump 210 is provided at a suitable place for circulating the water of the boiler.

The waste heat recovery pipe 200 is continuously installed in a spiral between the space between the outer pipe 110 and the intermediate pipe 120 and the space between the intermediate pipe 120 and the inner pipe 130, the spiral is installed This is to increase waste heat recovery time by increasing the water path.

The foamed stone filling wall 300 is a wall formed outside the outer pipe 110 of the installation pipe 100, the foaming stone to be described later filled in the space between the foamed stone filling wall 300 and the outer pipe 110. do.

The foamed stone 400 is a heat insulating member filled in the space between the outer pipe 110 and the foamed stone filling wall 300, the combustion gas discharged through the exhaust port 24 is emitted to the outside of the outer pipe (110). It shuts off the heat. In the present invention, the foamed stone 400 is a foamable particle which is rapidly expanded by pulverizing finely divided vermiculite, pearlite, diatomaceous earth, or pearl rock, and then calcined at a high temperature of 1300 ° C. or higher. It is excellent.

The foamed stone 400 as described above is disposed outside the installation pipe 100 to block the heat emitted from the combustion gas discharged through the exhaust port 24 to the outside of the external pipe 110 to the waste heat recovery pipe 200. Waste heat recovery efficiency will be improved.

On the other hand, according to the present invention, it is preferable that the fixing screw 500 is installed inside the inner pipe 130. This is because the high temperature combustion gas discharged into the inner pipe may flow while rotating along the fixed screw 500 to delay the flow of the combustion gas, thereby improving the waste heat recovery rate of the combustion gas. The fixing screw 500 may be fixedly installed by a suitable method, for example, welding the inner surface of the inner pipe.

Furthermore, the flow delay plate 600 having the discharge hole 601 is formed in the upper space between the outer pipe 110 and the intermediate pipe 120 and the upper space between the intermediate pipe 120 and the inner pipe 130. It is preferable to form, which is the flow of the combustion gas discharged into the space between the outer pipe 110 and the intermediate pipe 120 and the space between the intermediate pipe 120 and the inner pipe 130 is the flow delay plate ( The waste heat recovery pipe disposed between the outer pipe 110 and the intermediate pipe 120 and between the intermediate pipe 120 and the inner pipe 130 by being blocked by 600 and being slowly discharged through the discharge hole 610. The combustion heat of the combustion gas can be efficiently transmitted to the.

The operation and effects of the hot water heating apparatus using the waste heat of the boiler exhaust port according to the present invention configured as described above will be described.

The hot water heating apparatus according to the present invention is installed in a section of the exhaust port 24 of the boiler as shown in Figure 3 so that the waste heat of the combustion gas discharged through the exhaust port of the boiler is recovered in the waste heat recovery pipe. That is, the water of the boiler flowing into the waste heat recovery pipe 200 through the circulation pump 210 passes through the waste heat recovery pipe 200, and the hot water rises due to the waste heat of the combustion gas, and then flows back into the boiler again, thereby reducing the fuel of the boiler. To reduce the cost.

In addition, due to the foamed stone 400 provided on the outside of the installation pipe, the waste heat of the combustion gas is prevented from being discharged to the outside, and at the same time, combustion is caused by the fixing screw 500 and the flow delay plate 600 provided inside the installation pipe. It is an advantage that the waste heat recovery efficiency of the combustion gas can be improved by increasing the flow path of the gas and increasing the residence time in the installation pipe.

24: exhaust port 110: outer pipe
120: middle pipe 130: inner pipe
200: waste heat recovery pipe 300: foam stone filling wall
400: foam stone 500: fixed screw

Claims (3)

An outer pipe integrally connected to a portion of the boiler exhaust port, an intermediate pipe fixedly installed coaxially with the outer pipe inside the outer pipe, and an inner pipe fixedly installed coaxially with the outer pipe inside the intermediate pipe. An installation pipe composed of;
A waste heat recovery pipe having one end connected to the boiler and spirally installed in the space between the outer pipe and the middle pipe, and then spirally installed in the space between the middle pipe and the inner pipe sequentially;
A foamed stone filling wall formed outside the outer pipe of the installation pipe;
It comprises a foam stone filled in the space between the outer pipe and the foamed stone filling wall to block the heat emitted from the combustion gas discharged through the exhaust pipe to the outside of the outer pipe,
The hot water heating using the waste heat of the boiler exhaust port characterized in that the water inside the boiler to be re-introduced into the boiler through the waste heat recovery pipe is heated by the waste heat to be re-introduced into the boiler. Device.
The method of claim 1,
A fixed screw is installed in the inner pipe, and the hot combustion gas discharged into the inner pipe flows while rotating along the fixed screw, thereby delaying the flow of the combustion gas, thereby improving waste heat recovery rate of the combustion gas. Hot water heating device using the waste heat of the boiler exhaust.
The method according to claim 1 or 2,
In the upper space between the outer pipe and the intermediate pipe and the upper space between the intermediate pipe and the inner pipe, a flow delay plate having a discharge hole is formed to delay the flow of the combustion gas, so as to improve the waste heat recovery rate of the combustion gas. Hot water heater using the waste heat of the boiler exhaust.

Images