KR810002250Y1 - Hot water boiler - Google Patents

Abstract

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Description

Perforated boiler

1 is a cross-sectional view of the present invention.

The present invention relates to a bore coal boiler in which a hot water circulation is made smoothly by installing a pump boiler in a common bore coal boiler. Conventional boilers with three or more rice cakes are formed so that all the heating water tanks communicate with each other. Therefore, when using a pump boiler, at least two pump boilers should be used for complete circulation of the heated hot water and only one pump boiler should be used. Since the circulation amount is small, only the boiler is overheated, and the hot water circulation effect to the heat dissipation unit is not good and at least two pump boilers are installed. However, when two or more pump boilers are installed, there is a drawback that the installation cost of the pump boiler is higher, and since the two pump boilers are all installed between the open tank and the boiler body, which serve as auxiliary tanks, The hot water discharged only flows into the auxiliary tank and is connected to the pump boiler so that the boiler body under pressure of the pump boiler does not circulate hot water through the heat radiating part. Since it flowed into the boiler body in a state, there was a defect that the circulation of hot water through the heat radiating part was intermittently.

The purpose of the present invention is to provide a bore coal boiler that can reduce the cost of the facility and prevent overheating, while continuously circulating the hot water even if only one pump boiler is installed in the boiler having three fire extinguishers. Referring to the drawings in detail as follows.

Boiler through the water supply pipe (4) and the heat dissipation pipe (9) above the boiler body (1) in which the heating water tank (3) (3 ') (3 ＂) is formed on the outer periphery of the hole pellet (2) (2') (2＂). In the installation of the pump boiler 5 communicating with the fuselage 1, the heating water tank 3 is separated from the adjacent heating water tank 3 '(3 ＂) by the partition wall 11, and the independent heating water tank A is provided. A circulation path leading to the discharge pipe (6), the circulation pipe (7), the heat dissipation pipe (9), and the return pipe (10) by placing a pump boiler (5) in communication with the water supply pipe (4) above the heating water tank (3). The heating water tank B of the heating water tank 3 '(3 ＂) communicating with each other is composed of the discharge pipe 12 and the discharge pipe 6 in which the open tank 8 and the auxiliary tank 13 are attached. The circulation path leading to the connected circulation pipe 7, the heat dissipation pipe 9, and the return pipe 14 connected to the return pipe 10 is formed.

In the drawings, reference numerals 15, 15 ', 16, and 16' denote reverse displacements.

The present invention as described above is partitioned by the partition 11, the heating water tank (A) (B) having each circulation path to continuously circulate the hot water by the discharge power and the suction force of one pump boiler (5) When the hot water is ejected from (5), the internal pressure of the pump boiler (5) is applied to the reverse valve (15), and since the heating water tank (A) has its own water pressure, the heat pipe (6) is discharged through the discharge pipe (6) and the circulation pipe (7). The water flowing to 9 does not flow to the circulation pipe 10 but is introduced into the heating water tank B through the return pipe 14, and thus the hot water of the heating water tank B is discharged from the auxiliary tank 13 through the discharge pipe 12. 1) the first circulation is performed according to the hot water discharge of the pump boiler 5, and then the suction valve 15 'is closed when the pump boiler 5 is suctioned. Since water is sucked, the water of the heat radiation tube 9 is transferred to the return tube 14 side by the suction force. As the water flows into the auxiliary tank 13 when the pump boiler 5 is discharged only into the return pipe 10 without flowing, the water introduced into the auxiliary tank 13 is purified to the heat dissipation pipe 9 so that the secondary of the pump boiler 5 may be suctioned. The cycle is continuous.

According to the present invention, even as one pump boiler, hot water is continuously circulated to the heat dissipation part as well as the hot water discharge of the pump boiler, and the hot water circulation is smoothly smoothed faster than the conventional one in which the hot water circulation is intermittently, resulting in high thermal efficiency. It is possible to obtain an economic effect to reduce the installation cost of the boiler, it is possible to effectively circulate the hot water while preventing overheating when using only one pump boiler.

Claims (1)

As shown in the figure, a pump boiler 5 is placed above the boiler body 1 in which the heating tanks 3, 3 ', and 3 ＂are formed around the perforated fire extinguisher 2, 2', and 2＂. In communicating with the heat radiating tube 9, the heating water tank 3 '(3') and the heating water tank 3 which communicated with each other are separated by the partition 11, and the heating water tank B and the heating water tank ( A) is formed and a pump boiler (5) connected to the water supply pipe (4) is installed above the heating water tank (A) to communicate with the water supply side circulation pipe (7) of the heat dissipation pipe (9) to assist the heating water tank (B). The discharge pipe 12 in which the tank 13 and the open tank 8 are installed communicates with the circulation pipe 7, and each of the drain port side return pipes 10 and 14 of the heat dissipation pipe 9 is heated with a water tank A ( B-hole boiler made by connecting.