KR20080000122U - Vertical type flow through boiler - Google Patents

Abstract

The present invention relates to a forested ball boiler in which a plurality of donut-shaped water circulation pipes are stacked. In particular, two through holes are formed adjacent to the outer surface of the water circulation pipe, and one is used as a drainage hole and the other is used as a drain hole. Become; The connecting pipes connecting the drain holes provided in the lower water flow pipes in contact with the laminated structure among the stacked water flow circulation pipes and the water drains provided in the water flow circulation pipes in the upper layer are fastened by bolts, thereby being formed in a vertical shape in the related art. It is possible to connect the water supply and drainage pipes for the current water circulation independently from the outside, and to prevent leakage through the sealing member to maximize efficiency and provide convenience of maintenance.

Description

Cast iron boilers {vertical type flow through boiler}

The present invention relates to a cast iron boiler boiler, in particular, to connect the water supply and drain pipe for the water flow circulation formed in a vertical shape inside from the outside independently and to prevent leakage through the sealing member to maximize the efficiency It relates to a forest ball boiler for.

In general, there are two types of boilers, which are usually a top-down type in which a burner is installed at the top of a boiler body and vortexed downward, and a bottom-up type in which the burner is installed at a lower or lower part of the boiler body in an upward vortex combustion.

Such a forest boiler has a shape in which water flow circulating pipes composed of upper and lower collection pipes and vertical water pipes, which are all formed of ferrous metal, are laminated and welded to the upper and lower collection pipes and vertical water pipes during the lamination process.

However, in the conventional Moorim-gu boiler, the vertical water pipes formed inside the laminated water circulation pipes have difficulties in connection and water leakage during the stacking process, and the flow of water flows smoothly in relation to water supply and drainage. As a result, the boiler efficiency is lowered.

An object of the present invention for solving the above problems relates to a Molimgu boiler, in particular, to allow the water supply and drain pipes for water flow circulation formed in a vertical shape inside to be connected independently from the outside and through a sealing member In order to prevent leakage, maximize the efficiency to provide a forest boiler.

Features of the Molimgu boiler according to the present invention for achieving the above object, in a Molimgu boiler that a plurality of donut-shaped water circulation pipe is stacked. Two through-holes are formed adjacent to the outer surface of the water circulation pipe, one is used as a drain and the other is used as a drain; In the laminated water flow circulation pipe, the connection pipe connecting the drain hole provided in the lower water flow circulation pipe in contact with the laminated structure and the water flow port provided in the upper water flow circulation pipe is fastened by bolts.

An additional feature of the Moorimgu boiler according to the present invention for achieving the above object is to have a sealing member for preventing leakage around the through-holes of the connecting pipe and the water circulation pipe.

As another additional feature of the Moorimgu boiler according to the present invention for achieving the above object, the water pipe of the water flow circulation pipe located in the bottom layer in the laminated structure is connected to the water supply pipe for receiving water from the water tank, The drain hole of the water circulation pipe located is connected to the piping for hot water and heating.

As expected effects due to the above-described features of the present invention, the water supply and drain pipes for water flow circulation, which are formed in a vertical shape in the related art, can be independently connected from the outside and prevent leakage through a sealing member. It will maximize efficiency and provide convenience of maintenance.

The above object and various advantages of the present invention will become more apparent from the preferred embodiments of the present invention described below with reference to the accompanying drawings by those skilled in the art.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention will be described in detail.

Figure 1 is an exemplary cross-sectional view for explaining the configuration of the forest ball boiler according to the present invention, Figure 2 is an exemplary view for explaining the main configuration of the forest ball boiler according to the present invention.

Referring to the configuration and operation of the Molimgu boiler according to the present invention with reference to Figures 1 and 2 attached, the high-temperature gas heated in the burner (not shown) is introduced through the inlet port referred to by reference numeral 110 to 120 It is discharged through an exhaust vent called.

According to the above-described process, the heat of the gas introduced through the exhaust port 110 and then discharged through the intake port 120 heats the water circulating in the water flow circulation tube referred to by reference numeral 130, and thus the water circulation Water passing through the pipe 130 is utilized for heating and hot water.

At this time, the water flow circulation tube 130 has a structure in which a plurality of members are stacked in order to be able to vary its size at the time of initial installation according to the utilization capacity of the boiler, the through hole referred to by reference numeral 131 is the water flow circulation Two are formed adjacent to the outer side of the tube 130 is to supply water to the water circulation pipe 130 and to be discharged through the diesel.

That is, one of the two through holes 131 is a drainage hole, and the other is a drain hole.

At this time, the laminated water flow circulation tube 130 is provided with a connection pipe referred to by reference numeral 140 for the circulation of water, the connection pipe 140 is the water flow circulation pipe 130 and the water flow outlet of the lower layer in contact with the laminated structure The circulation pipe 130 is connected to the drain port, and is fastened by a bolt (not given a reference number).

Therefore, a water supply pipe for receiving water from the water tank is connected to the water flow port of the water flow circulation pipe 130 located at the lowermost floor, and a pipe for hot water and heating is connected to the drain hole of the water flow circulation pipe 130 located at the top floor. It is noted that this is not shown for clarity.

In addition, the periphery of the connecting pipe 140 and the through-hole 131 is prevented from leaking through a sealing member (not shown), the structure using such a connecting pipe in the case where the leak occurs due to the fall of the facility later It can be prevented by replacing or reinforcing bays, which has an excellent effect on maintenance.

Figure 2 attached to the above description is shown to show the part about the connection well, and the other parts of the abbreviated form, so that the water circulation pipe 130 is substantially high temperature circulating water through the inside It has a number of structures to maximize the surface area to quickly absorb heat from the gas, but it is not shown in the figure and thus it is revealed in advance that the shape of the actual water circulation pipe 130 is different.

Although the present invention in the above description has been shown and described with respect to specific embodiments, it is common in the art that various modifications and changes can be made without departing from the spirit and scope of the invention as indicated by the utility model registration claims. Anyone with knowledge will know it easily.

1 is an exemplary cross-sectional view for explaining the overall configuration of the Molimgu boiler according to the present invention

Figure 2 is an exemplary view for explaining the main configuration of the planting boiler according to the present invention

<Explanation of symbols for the main parts of the drawings>

110: exhaust port

120: intake vent

130: water circulation pipe

131: through hole

140: connector

Claims (3)

In a Molimgu boiler, in which a plurality of donut-shaped water circulation tubes are stacked. Two through-holes are formed adjacent to the outer surface of the water circulation pipe, one is used as a drain and the other is used as a drain; Moorim ball boiler, characterized in that the connecting pipe connecting the drain port provided in the water flow circulation pipe of the lower layer and the water flow circulation pipe provided in the upper layer of the laminated water flow circulation tube is laminated by a bolt. The method of claim 1, Moorim ball boiler, characterized in that the sealing member for preventing the leakage around the through-hole of the connecting pipe and the water circulation pipe. The method of claim 1, Moorim mouth characterized in that the water supply pipe for receiving water from the water tank is connected to the water flow port of the water flow circulation tube located on the bottom layer in the laminated structure, the piping for hot water and heating is connected to the drain port of the water flow circulation pipe located on the top floor Boiler.

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