KR850001383Y1 - Smoke tube type hot water boiler - Google Patents

Abstract

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Description

Plumbing hot water boiler

1 is a longitudinal sectional view of the present invention.

2 is a cross-sectional view taken along line A-A of the present invention.

3 is a longitudinal sectional view of a conventional inverting boiler.

* Explanation of symbols for main parts of the drawings

2: Roton 2a: Rear thread

3: combustion gas induction pipe 4: flow chamber

5: exhaust gas induction pipe 6: collection chamber

The present invention relates to an associated hot water boiler which makes it possible to associate an induction pipe (2-pass tube) and an exhaust induction pipe (3-pass tube) of combustion gas on the same circumference. In the case of the inverted hot water boiler, since the combustion gas is reversed in the furnace 2 as shown in FIG. 3, the combustion gas enters the return chamber 4 and is collected in the collecting chamber 6 through the exhaust gas induction pipe 5 and discharged in communication. Incomplete flow of flame led to incomplete combustion, and the combustion gas induction pipe was concentrated in the upper part of the furnace to the flow chamber at the rear of the fuselage, and a plurality of exhaust induction pipes were piped to the collecting chamber at regular intervals on both sides. In general, the furnace boiler had to be largely unnecessarily configured in the diameter of the fuselage. Since the fuselage is large, the irrigation capacity is unnecessary, and the heating time is long, so that the fuel consumption is high, as well as the transportation and installation. There was a big problem.

The present invention forms a rear chamber behind the furnace formed in the center of the boiler body in order to reduce such defects, and connects several combustion gas induction pipes at regular intervals and connects them to the combustion gas return chamber formed at the front. In addition, the exhaust induction pipe is connected to the gypsy chamber between several combustion gas induction pipes, and the boiler body is ideally induced while the combustion gas is reduced. If it can be described in detail by the accompanying drawings to be able to increase the efficiency of the boiler as follows.

In the usual case in which the furnace cylinder 2 is formed at the center of the body 1, a rear chamber 2a is formed behind the furnace cylinder 2, and several combustion gas induction pipes 3 are curved at regular intervals. To the normal flow chamber (4) formed in front of the furnace cylinder (2) and between the flow chamber (4) and a predetermined interval between the combustion gas induction pipe (3) so as to be located on the same circumference as the combustion gas induction pipe (3). The exhaust gas induction pipe 5 is piped to the collecting chamber 6 formed at the rear side.

Reference numeral 7 denotes an induction wall and 8 a cleaning door. Referring to the effect of the present invention made as described above are as follows.

The furnace cylinder 2 is formed in the center of the body 1, and several combustion gas induction pipes 3 are curvedly connected to the rear chamber 2a formed at the rear of the furnace cylinder 2 at a predetermined interval in front of the furnace cylinder 2. Since the piping was connected to the formed flow chamber 4, the gas burned in the furnace 2 was formed behind the furnace 2 without causing an incomplete combustion state when the combustion gas was inverted in the furnace 2 as shown in FIG. Reburn is performed when passing through the rear chamber 2a, and the combusted combustion gas is led to the combustion gas induction pipe 3 connected to the rear chamber 2a at regular intervals, and enters the circulating chamber 4, thereby providing several combustion gases. It is picked up and communicated with the collecting chamber 6 through the exhaust gas induction pipe 5 piped to the collecting chamber 6 formed at the rear of the flow chamber 4 and the fuselage 1 between the intervals of the induction pipe 3. Because it is discharged to the same circumference, three-pass flow of combustion gas is ideally made, so that complete combustion can be achieved. It is possible to reduce at the same time the boiler (1) as much as possible, so that the heating capacity at the same time the appropriate amount of irrigation is carried or simple construction can be heated in a short time will be in the advantage of increasing the efficiency of the boiler.

Claims (1)

In the usual case in which the furnace cylinder 2 is formed in the center of the body 1, a rear chamber 2a is formed behind the furnace cylinder 2, and several combustion gas induction pipes 3 are curved at regular intervals. To a normal return chamber (4) formed in front of the furnace cylinder (2) and located in the same circumference between the combustion gas induction pipe (3) and to the collecting chamber (6) formed at the back of the return chamber (4). Plumbing hot water boiler which connected piping exhaust gas induction pipe (5).