KR20000012787A - Pipe Heat Recovery Apparatus and Boiler System - Google Patents

Abstract

PURPOSE: A recollecting device of flue heat is provided to improve the thermal efficiency by heating the cold water by recovering exhaust gas and to be easily installed by being installed between flues and manufactured as a cylindrical shape. CONSTITUTION: The boiler system is formed by:a boiler(2); a hot water tank(9) storing hot water; a flue(3a, 3b) feeding exhaust gas of the boiler; a flue heat recycler (40) installed between flues and possessing a cylindrical housing(20) having cold water inlet(34) and a hot water outlet(35) installed with a specific interval and plural preheating pipes(22) installed inside of the housing; and the housing having a safety pin(31), a thermometer(32), a thermostat(33) and a cleaning hole(21a, 21b).

Description

Flue heat recovery device and boiler system using same {Pipe Heat Recovery Apparatus and Boiler System}

The present invention relates to a flue heat recovery apparatus for improving thermal efficiency using exhaust gas. In addition, the present invention relates to a boiler system to increase the thermal efficiency by using a flue heat recovery device.

In general, there are few places where boilers are not used from homes or industrial sites to farms. As a fuel for these boilers, oil is mainly used depending on the amount imported.

In order to increase the thermal efficiency of the boiler, an economizer has been developed to preheat the water supply using the heat of the flue gas exhausted from the boiler. Such an economizer not only improves the thermal efficiency but also has the advantage of reducing the thermal stress caused by the temperature difference in the boiler drum. This mill is rectangular in shape and is installed inside the flue. However, there is a problem that a conventional coal mill is required to have a large installation space in its structure. For this reason, the conventional coal mill is limited to only some large boilers and cannot be installed in a small boiler of 1,000,000 Kcal / HR or less used for heating or a sauna.

Accordingly, it is an object of the present invention to provide a flue heat recovery device which is easy to install while improving thermal efficiency using exhaust gas.

Another object of the present invention to provide a boiler system to increase the thermal efficiency by using a flue heat recovery device.

1 schematically shows a boiler system according to the invention;

Figure 2 is a partial cutaway perspective view showing in detail the flue heat recovery machine shown in FIG.

<Description of Symbols for Main Parts of Drawings>

2: boiler 3a, 3b: year

4: cold water supply pipe 5, 7, 11, 13: valve

6,12 pump 8: hot water supply pipe

9: hot water tank 10: hot water supply pipe

14: water supply pipe 20: housing

21a, 21b: cleaning hole 22: preheating pipe

23: top plate 24, 26, 28: euro control plate

25, 27, 29: opening 30: lower plate

31: safety pin 32: thermometer

33: temperature controller 34: cold water inlet

35: hot water outlet 40: flue heat recovery machine

In order to achieve the above object, the flue heat recovery apparatus according to the present invention is a cylindrical housing having an inlet for supplying water and an outlet for supplying water and an outlet for discharging water, and is installed inside the housing to provide high temperature exhaust gas. A plurality of preheating tubes supplied with a plurality of preheating tubes and openings having a predetermined size through which the preheating tubes penetrate and guide the water upwards of the housing, and are installed at predetermined intervals inside the housing to increase the elapsed time of water passing through the preheating tubes. The flow path adjusting plates are provided.

The boiler system according to the present invention has a cylindrical housing having an inlet for supplying water and an outlet for discharging water, and a plurality of preheating tubes installed in the housing to supply high temperature exhaust gas and preheating. The pipes are penetrated, and openings of a predetermined size are formed to guide the water upwards of the housing, and are installed at predetermined intervals inside the housing, and are composed of a plurality of flow control plates for increasing the elapsed time of the water passing through the preheating tubes. Between the flue heat recovery unit, a hot water tank for storing water discharged from the flue heat recovery unit, a first pipe installed between the flue heat recovery unit and the hot water tank for supplying water to the flue heat recovery unit, and between the flue heat recovery unit and the hot water tank Installed in the second pipe for supplying water heated by the flue heat recovery machine to the hot water tank; And a boiler for heating the water supplied from the hot water tank, is provided between the hot water tank and the boiler comprises a third pipe for supplying the water stored in the hot water tank to the boiler.

Other objects and features of the present invention in addition to the above objects will become apparent from the description of the embodiments with reference to the accompanying drawings.

Hereinafter, exemplary embodiments of the present invention will be described with reference to FIGS. 1 and 2.

Referring to FIG. 1, a boiler system according to the present invention includes a boiler 2, a hot water tank 9 storing hot water, flues 3a and 3b to which exhaust gas of the boiler 2 is supplied, and flue 3a. And, the flue heat recovery unit 40 is provided between the 3b). The boiler 2 burns oil, gas or wood to heat hot water supplied from the hot water tank 9. Hot water heated by the boiler 2 is supplied to a heating coil or a radiator (not shown). The boiler 2 is provided with a flue 3a for discharging the exhaust gas generated by fuel combustion to the outside. Water is supplied to the hot water tank 9 from the outside through the water supply pipe 14. The hot water supply pipe 10 is installed between the boiler 2 and the hot water tank 9. The hot water supply pipe 10 is provided with valves 11 and 13 for opening and closing a flow path of hot water supplied to the boiler 2 and a hot water pump 12 for smoothly supplying hot water. Flue heat recovery unit 40 is installed between the flue (3a) and the flue (3a) serves to preheat the cold water at room temperature supplied from the hot water tank (9) using the exhaust gas to supply to the hot water tank (9) again. Done. The cold water supply pipe 4 and the hot water supply pipe 8 are installed between the flue heat recovery unit 40 and the hot water tank 9. The cold water supply pipe 4 is provided with valves 5 and 7 for opening and closing the flow path of the cold water supplied to the flue heat recoverer 40 and the cold water pump 6 for smoothly supplying the cold water. Cold water at room temperature is supplied from the hot water tank 9 to the flue heat recovery unit 40 through the cold water supply pipe 4, and hot water preheated by the flue heat recovery unit 40 through the hot water supply pipe 8 is a hot water tank ( 9) is supplied.

As illustrated in FIG. 2, the flue heat recovery unit 40 includes a cylindrical housing 20 in which a cold water inlet 34 and a hot water outlet 35 are disposed at predetermined intervals, and a plurality of preheats installed in the housing 20. Tubes 22. The upper and lower portions of the housing 20 have a taper shape so that the diameter thereof becomes narrower, and exhaust gas inlet / outlet ports through which exhaust gas flows in and out are formed at ends thereof. In addition, the housing 20 is provided with a safety pin 31, a thermometer 32, a temperature controller 33, the cleaning openings (21a, 21b). The preheating tubes 22 serve to heat cold water. That is, hot exhaust gas generated by fuel combustion flows through the preheating tubes 22 and the cold water passing through the surface of the preheating tubes 22 is heated. These preheating tubes 22 are installed at predetermined intervals between the upper plate 23 and the lower plate 30 respectively bonded to the upper and lower portions of the inside of the housing 20, and the flow control plate between the upper plate 23 and the lower plate 30. Will penetrate the fields 24, 26 and 28. The upper plate 23 and the lower plate 30 support the preheating tubes 22 and separate the cold / hot water space and the exhaust gas space in the housing 20. The flow path adjusting plates 24, 26, and 28 divide the cold / hot water space into the plurality of layers in the housing 20 and also serve to form the cold / hot water flow path in the form of a zigzag. To this end, openings 25, 27, and 29 are formed in the channel adjusting plates 24, 26, and 28. The openings 25, 27, 29 guide the cold / hot water of the lower layer to the upper layer. Openings 25, 27, and 29 formed in each of the flow path control plates 24, 26, and 28 are located at opposite sides. In other words, the cold water supplied to the flue heat recovery unit 40 is changed in the traveling direction during the interlayer movement by the openings 25, 27, and 29. Accordingly, the cold water supplied through the cold water inlet 34 in the lowermost layer is gradually heated by the preheating tubes 22 as the upper water is moved upward. In particular, the cold / hot water flow paths heated by the preheating tubes 22 and the heating time are lengthened by the openings 25, 27, 29 of the flow path control plates 24, 26, 28. The efficiency is increased.

The hot water heated by the flue heat recovery unit 40 is supplied to the hot water tank 9 through the hot water outlet 35 of the uppermost layer. Indeed, if the cold water supplied to the flue heat recoverer 40 is 30 ° C., the cold water passes through the preheating pipes 22 and then is 40 to 45 ° C. when the cold water is supplied to the hot water tank 9. Therefore, since the hot water stored in the hot water tank 9 is preheated by a predetermined temperature by the flue heat recovery machine 40, the boiler 2 can heat the hot water from the hot water tank 9 to a sufficient temperature even with a small amount of fuel. have.

As described above, the flue heat recovery apparatus according to the present invention recovers the exhaust gas and heats the cold water to improve the thermal efficiency, and is installed between the flue and the flue and is manufactured in a cylindrical shape to facilitate installation. In addition, the boiler system according to the present invention improves thermal efficiency as well as minimizes fuel consumption by preheating cold water using a flue heat recoverer.

Those skilled in the art will appreciate that various changes and modifications can be made without departing from the technical spirit of the present invention. Therefore, the technical scope of the present invention should not be limited to the contents described in the detailed description of the specification but should be defined by the claims.

Claims (3)

A cylindrical housing having an inlet through which exhaust gas is supplied and an outlet through which water is discharged; A plurality of preheating tubes installed inside the housing and supplied with high-temperature exhaust gas; The preheating pipes are penetrated, and openings having a predetermined size are formed to guide the water upwards of the housing, and are provided at predetermined intervals in the housing, and have a plurality of flow path adjusting plates for increasing the elapsed time of the water passing through the preheating tubes. Flue heat recovery device characterized in that. The method of claim 1, The opening is the flue heat recovery apparatus, characterized in that located on the opposite side of the adjacent opening so that the water flow path in a zigzag form. A cylindrical housing having an inlet through which exhaust gas is supplied and an outlet through which water is discharged, a plurality of preheating tubes installed inside the housing to supply high-temperature exhaust gas, and the preheating tubes pass through the housing. An opening having a predetermined size for guiding water to the upper side of the housing is formed, and is provided at a predetermined interval inside the housing and includes a plurality of flow path adjusting plates for increasing the elapsed time of the water passing through the preheating tubes. Heat recovery unit, A hot water tank storing water discharged from the flue heat recovery unit; A first pipe installed between the flue heat recovery unit and a hot water tank to supply the water to the flue heat recovery unit, A second pipe installed between the flue heat recovery unit and a hot water tank to supply water heated by the flue heat recovery unit to the hot water tank; A boiler for burning fuel to heat water supplied from the hot water tank; And a third pipe installed between the hot water tank and the boiler to supply water stored in the hot water tank to the boiler.