KR810001195Y1 - Hot water circulation heating system for sectional ondol room(heated floor) - Google Patents

Abstract

No content.

Description

Hot water circulation device of prefabricated ondol room

1 is a partial cutaway perspective view showing the main portion of the present invention.

Figure 2 is a longitudinal cross-sectional view showing an operating state of the present invention.

3 is an explanatory diagram of the use state of the present invention.

The present invention divides the ondol room into several zones and installs independent heating tubes in each zone.In the center of the ondol room, evenly distributes and distributes hot water evenly by heating tubes installed in each zone so that the discharger is heated evenly. It relates to a hot water circulation device of the prefabricated ondol room to prevent entry.

Conventionally, when laying a heating tube in an ondol room, the inlet of the heating tube is connected to the hot water outlet of the boiler and the outlet of the heating tube is connected to the reflux of the boiler. It was heated, but the cold water, which had already undergone heat exchange, was circulated at the reflux end of the heating tube, so the discharge body was not heated uniformly, and the difference between the hot and cold parts was severe. Frequent entry was due to poor circulation of hot water.

The present invention is to remove the defects such that the discharge body is heated in a uniform state, and to prevent the flow of air bubbles into the heating tube as described in detail below according to the drawings.

The inside of the cylindrical hermetic container 1 is divided up and down by a diaphragm 2 to form a hot water distribution chamber 3 on the upper side and a reflux chamber 4 on the lower side, and a water hole (5) inside the hot water distribution chamber 3. ) Is placed in the cylindrical body (6) formed in the lower portion to form a bubble processing chamber (7) to be distinguished from the hot water distribution chamber (3), the bubble processing chamber (7) is a bubble tube (8) and hot water inlet pipe (9) The front end of the bubble tube 8 is placed above the bubble treatment chamber 7, and several hot water distribution pipes 10 and a reflux pipe 11 are provided on the main walls of the hot water distribution chamber 3 and the reflux chamber 4, respectively. And by connecting the main reflux pipe (11a) to both ends of each heating pipe (12) laid for each zone connected to the hot water distribution pipe 10 and the reflux pipe (11).

In the drawings, reference numeral 13 denotes a reinforcing support tube in which a water hole is formed, and 14 denotes a boiler.

The present invention configured as described above has a closed container 1 installed at the center of the room as shown in FIG. 3 so that both ends of the heating tube 12 laid separately into several zones are connected to the closed container 1, respectively. When connected to the water pipe 10 and the reflux conduit 11, the hot water fed from the boiler 14 enters the bubble treatment chamber 7 formed in the upper center of the hermetic container 1 through the hot water inlet pipe (9) Bubbles mixed into the hot water rise above the bubble treatment chamber 7 and are discharged to the water tank through the bubble tube 8, and only the hot water once the bubble is removed is passed through the light receiving beam 5 below the cylindrical body 6. Hot water is distributed into the hot water distribution room (3), so that the hot water is distributed evenly through the hot water distribution pipe (10) to each heating pipe (12).

Once the hot water enters the heating tube 12, after the heat exchange action is collected into the reflux chamber (4) through each reflux branch pipe (11) and is returned to the boiler 14 through the main reflux pipe (11a), Since the hot water distribution chamber 3 and the reflux chamber 4 are divided up and down, and a water level difference is formed between each hot water distribution pipe 10 and the reflux distribution pipe 11, the heating pipe 12 slopes downward from the inlet side to the outlet side. Is formed so that the circulation of the hot water is smooth, the hot water distribution room (3) and the reflux chamber (4) are in contact with each other by the diaphragm (2) so that the hot water fed from the boiler 14 is the hot water distribution room (3). As soon as it enters into), the condensation occurs as it cools by contacting the diaphragm 2 with the cooled reflux chamber 4, and thus, a pressure drop due to condensation of hot water occurs in the hot water distribution chamber 3, thereby causing a boiler. (14) The high pressure hot water inside the hot water distribution room (3) easily enters the hot water Will be also exhibits advantageous effects that this ring acts to promote.

Claims (1)

Cylindrical body (6) having a sealed container (1) in which the hot water distribution chamber (3) and the reflux chamber (4) are divided up and down in the center of the room, and a water hole (5) formed in the lower part of the hot water distribution chamber (3) ) To form a bubble processing chamber (7), the hot water inlet pipe (9) and the bubble tube (8) is in contact with the bubble processing chamber (7), the hot water distribution chamber (3) and the reflux chamber (4) The hot water circulation system of the prefabricated ondol room connected to the water pipe (10) and the reflux distribution pipe (11) by connecting both ends of the heating pipe (12) laid by zones to the hot water distribution pipe (10) and the reflux pipe (11), respectively.