KR950007455Y1 - Boiler - Google Patents

Abstract

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Description

Boiler

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

Figure 2 is an enlarged cross-sectional view showing an extract of the spiral tank in the present invention.

* Explanation of symbols for main parts of the drawings

1: boiler body 2: burner

3: burner loading room 4: upper water tank

7: centralized vertical pipe 8: spiral tank

9: tapered tank

The present invention relates to a boiler that can increase the thermal efficiency and maximize the heating and hot water supply ability.

Conventional boilers have been developed in various ways, but most of the boilers are a method of heating a pipe-shaped tank or a method in which combustion heat is passed between pipes after connecting a tank and a tank to a pipe. Although these are being developed by continuous research, they do not increase rapid hot water supply capacity and high thermal efficiency.

Therefore, the object of the present invention is devised to solve the conventional problems as described above, the central concentrated vertical pipe is installed vertically in the center of the boiler, is formed by winding a plurality of spiral tanks in communication with the multi-stage. On the outside, a tapered water tank for heating, which is tapered in the form of a normal light, is installed to be in close contact with the spiral water tank. The purpose is to improve.

Hereinafter, described in detail with reference to the accompanying drawings.

The burner mounting chamber 3, in which the burner 2 is mounted, is installed at the lower side of the boiler body 1, and the upper water tank 4 is formed at the upper side, and the outer shell 5 and the heat insulating material 6 are installed at the outside. In the boiler, in the center of the boiler body 1, the central concentrated vertical pipe (7) is installed vertically, but the upper side is in communication with the upper tank (4), the spiral tank (8) is also in communication with the It is formed by winding a number of multi-stage, and on the outside thereof is provided with a tapered water tank (9) for heating tapered in the form of a light-receiving narrow in close contact with the spiral water tank (8). And the upper side of the tapered water tank (9) is installed in the coil-shaped hot water pipe 10, and the flue (12) to the upper side so as to communicate with the combustion chamber 11 formed inside the tapered water tank (9) Although installed, the flue 12 is to pass through the upper tank (4) to be exposed to the outside. In addition, reference numeral 13, which is not described in the reference numerals, is a supplementary inlet port, 14 is a heating outlet port, and 15 is a safety tube. 16 is a cold water inlet of the hot water pipe 10, and 17 is a hot water outlet.

The present invention configured as described above, when the burner (2) is ignited, the combustion heat rises while the combustion chamber (11) flows upward along the outer surface of the spiral tank (8) from the burner mounting chamber (3) to increase the flue (12). Emission through the gas flow is smooth. On the other hand, when the heat of combustion rises while flowing upward along the spiral water tank 8, the heat of combustion heats all the surfaces of the spiral water tank 8 having the same cross-sectional area as shown in FIG. 2, thereby increasing the heating area. . Accordingly, it is possible to quickly increase the temperature of the water and increase the thermal efficiency.

In addition, the upper and lower temperature differences between the multi-stage spiral tank 8 and the central concentrated vertical pipe 7, that is, the temperature of the upper water is low temperature, and the temperature of the lower water becomes high temperature, so that the heated water is quickly sent to the upper side. It can be used in a short time. Therefore, excellent hot water supply capacity is obtained. In addition, since the upper side of the tapered water tank 9 for heating is wide and the lower side is in a narrow form (upper downhole), the heat loss of the upper side is further reduced, thereby maximizing thermal efficiency. In addition, the tapered water tank 9 and the spiral water tank 8 are configured to be in close contact with each other, so that the temperature rise of the water in the tapered water tank 9 is uniform, thereby further improving the performance of the boiler and additionally reinforcing them. Without the support, it can endure high internal pressure and increase the water supply capacity of the tapered water tank 9 by increasing the contents. In addition, the central concentrated vertical pipe 7 is configured to communicate with the center of the upper tank 4 so that the upper tank 4 can withstand the deflection and pressure down by heat and internal scale. On the other hand, the hot water pipe 10 built in the upper portion of the tapered water tank (9) has a function for supplying hot water used for cooking.

As described above, the present invention is installed by constructing the central concentrated vertical pipe vertically in the boiler body and forming a plurality of spiral tanks in communication with the spiral tank. The outer side of the spiral taper is a tapered tank in the form of a light beam. It is characterized in that it is installed in close contact with each other to facilitate the flow of the exhaust gas, increase the heating area, increase the thermal efficiency, and increase the hot water supply, capacity and water supply.

Claims (1)

The burner mounting chamber 3, in which the burner 2 is mounted on the lower side of the boiler body 1, is configured, and the upper water tank 4 is installed on the upper side, and centrally concentrated in the center of the boiler body 1. The vertical pipe (7) is installed vertically, but the upper side is in communication with the upper tank (4), while communicating with the central concentrated vertical pipe (7) to make a constant spacing of the spiral water tank (8) made of a polygonal surface. While forming multiple windings in a multi-stage manner, the outside of this is a boiler characterized in that the tapered-type tank (9) tapered in the form of a light-receiving narrow is installed in close contact with the spiral tank (8).