KR100632128B1 - An associated boiler - Google Patents

Abstract

The present invention relates to an associative boiler, and more particularly, to provide a plurality of associations between the regeneration unit and the flue gas unit in the body to separate the spiral inside the plurality of associations in order to more efficiently manage the heat generated from the burner. By providing a member, it is possible to extend the time of staying in the burner more than the inside of the burner, and at the same time, it takes the dregs generated from the combustion of the burner, thereby improving the thermal efficiency and reducing the energy cost. Soot is also filtered through the helical member, so it removes the soot when discharged into the exhaust pipe has the advantage of helping the environment.

That is, the water tank 11 is formed inside the normal body 10 to provide the heat exchanger 20 connected to the inlet 21 and the outlet 22 communicating with the outside at one side thereof, and the combustion chamber of the burner 12 at the other side ( In the associative boiler (1) which discharges heat to the exhaust pipe (17) via a plurality of plumbing (14) (14 '), through a plurality of plumbing sections (15) and a flue gas section (16).

It is to provide a separate spiral member 30 formed of a spiral plate 31 or a spiral circle 32 in the association (14, 14 ').

Boiler, plumbing, reheating part, flue gas part, heat exchanger, spiral member, spiral plate, spiral circle

Description

A tubular boiler

1 is a state diagram of an associated boiler showing an embodiment of the present invention.

Figure 2 is an illustration of a spiral member showing an embodiment of the present invention

Figure 3 is an illustration of a spiral member showing another embodiment of the present invention

4 is an associated boiler state diagram showing a conventional embodiment of the present invention.

* Explanation of symbols on important parts of drawing

1: boiler 10: body

11: tank 12: burner

13: combustion chamber 14, 14 ': association

15: heat-receiving unit 16: flue gas

17 exhaust pipe 20 heat exchanger

21: inlet 22: outlet

30 spiral member 31 spiral plate

32: spiral round

The present invention relates to an associative boiler, and more particularly, to provide a plurality of associations between the regeneration unit and the flue gas unit in the body to more continuously manage the heat inside the plurality of associations to more efficiently manage the heat generated from the burner. It is about a more economical and effective boiler that makes it sustainable.

In general, the associative boiler 1 is provided with a heat exchanger 20 inside the water tank 11, as shown in Figure 4 so that the heat of the burner 12 is regenerated 15 through the association (14, 14 ') And exhaust through the exhaust pipe (17) via the exhaust pipe (16), wherein the heat of the burner (12) is connected to the regenerator (15) and the exhaust through the combustion chamber (13) and the associated (14, 14 '). By passing through the edge portion 16 to the water in the water tank 11 is to enable heat exchange with the heat exchanger (20).

However, such associative boiler (1) is because the heat generated from the burner (12) is easily discharged to the exhaust pipe (17) through the regeneration unit (15) and the flue gas (16) via the tube (14, 14 '). The heat of the burner 12 is uneconomical and low in thermal efficiency because it is difficult to maintain the heat continuously within the conduit 14, 14 ′.

Thus, by improving the problems of the conventional non-economical and low thermal efficiency of the associated boiler, it is preferred that the economical associated boiler with high thermal efficiency.

The present invention is to solve the above-mentioned conventional problems, in order to solve the problem of low cost and low thermal efficiency of the associated boiler as described above, by providing a separate spiral member inside the plurality of associations associated with the heat generated from the burner To maintain a continuous fire at the same time as well as to burn the debris from the combustion of the burner associated boilers,

This will be described in more detail together with the accompanying drawings.

As a constitution of the associated boiler 1 to achieve the object of the present invention, a water tank 11 is formed inside the conventional body 10 so that one side of the heat exchanger is connected to the inlet 21 and the outlet 22 communicating with the outside. Air is provided to the exhaust pipe 17 through the combustion chamber 13 of the burner 12 and a plurality of pipes 14 and 14 ′, a reheating unit 15, and a flue gas unit 16. In the associated boiler (1) for discharging, it is to provide a separate spiral member 30 inside the pipe (14, 14 ').

In the embodiment of the spiral member 30 is formed of a spiral plate 31 as shown in FIG.

In another embodiment of the spiral member 30 is formed in a spiral circle 32 as shown in FIG.

In the present invention configured as described above, as shown in FIG. 1, the heat generated from the burner 12 moves to the regeneration unit 15 through the association 14 through the combustion chamber 13, and to the regeneration unit 15. The transferred hot air is discharged to the exhaust pipe 17 via the flue 16 through the pipe 14 '.

At this time, the hot air moving in the combustion chamber 13 passes through the spiral plate 31 and the spiral circle 32, which is an embodiment of the spiral member 30 provided inside the tube 14, 14 ', and the hot air is a conventional straight line. To move in the helical direction by the spiral of the helical member 30 so as to extend the time for the heat to linger inside the duct 14, 14 'and at the same time transfer to the helical member 30 for the association. (14) (14 ') keeps the heat inside.

At this time, the soot generated during combustion of the burner 12 is also filtered along the helical member 30 while moving helically along the helical member 30 soot generated in the combustion chamber 13 when heat is discharged to the exhaust pipe 17. It also has the advantage of filtering.

Accordingly, the present invention can provide a separate spiral member inside the plurality of associations as described above to extend the time of staying in the association by allowing the heat to move in a spiral while the heat and soot generated during combustion of the burner move in association. There is an effect that can increase the thermal efficiency and at the same time reduce the energy costs, soot is also filtered through the helical member so that the soot is removed when discharged into the exhaust pipe has the advantage of great help to the environment.

Claims (2)

The water tank 11 is formed inside the conventional body 10 to provide a heat exchanger 20 connected to an inlet 21 and an outlet 22 communicating with the outside at one side thereof, and the combustion chamber 13 of the burner 12 at the other side. In the associative boiler (1) for discharging heat to the exhaust pipe (17) via a plurality of plumbing (14) (14 ') and through the regeneration unit (15) and the flue (16) through Associative boiler, characterized in that to provide a separate spiral member (30) formed of a spiral plate (31) or a spiral circle (32) inside the tube (14, 14 '). delete

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