KR200449919Y1 - Energy saving type boiler - Google Patents

Abstract

The present invention relates to an energy-saving boiler that converts water at room temperature to hot water or steam, and recovers waste heat discharged to the atmosphere by heating the water while repeatedly moving up and down in a narrow space. By doing so, the heating efficiency of the water can be maximized to reduce fuel costs.

That is, the present invention, the outer case 4 is provided with the flue (3) disposed on the edge side of the base frame 2 and the inner case 5 and the combustion chamber 10 is installed so that the passage (6) is formed in the inside The upper tube (8) and the lower bottle (9) installed in the upper and lower sides of the inner case (5) to be formed, and the connecting pipe (17) connecting the upper bottle (8) and the lower bottle (9). 18) and an exhaust pipe 19 piped inside some of the connecting pipes 17 and 18, a burner 11 installed at the center of the upper water bottle 8, and an upper portion to induce flame of the combustion chamber 10. Guide walls 13 and 14 installed in the water bottle 8 and the lower water bottle 9, and in the passage 6 between the outer case 4 and the inner case 5, and the water in the lower water bottle 9 In constructing a conventional boiler (1) comprising a preheating pipe (22) for supplying the supply pipe, and a discharge pipe (23) which is piped to the upper canister (8) to discharge steam, the upper canister (8) and the lower canister ( 9) The partitions 10 are divided into inner cylinders 8a and 9a and outer cylinders 8b and 9b, and inner cylinders 8a and 9a and outer cylinders 8b constituting the upper barrel 8 and the lower barrel 9. 9b are connected to each other by the connecting pipes 17 and 18, and the exhaust pipes penetrating through the upper water bottle 8 and the lower water bottle 9 inside the connecting pipe 18 connecting the outer cylinders 8b and 9b. 19), the supply pipe 20 is piped between the inner cylinder (9a) and the outer cylinder (9b) of the lower can (9), the fluid supply pipe 20 to the inner cylinder (9a) from the outer cylinder (9b) only The one-way valve 21 for supplying is provided, and the heat source provided from the burner 11 is along the passage 6 between the partitions 13 and 14 and the exhaust pipe 19 and the inner and outer cases 4 and 5. The water moves in the order of the preheating tube 22, the outer cylinders 8b and 9b, and the inner cylinders 8a and 9a in the opposite order to the heat source, thereby maximizing the heating efficiency of the water while minimizing the waste heat discharged to the atmosphere, thereby reducing fuel costs. You can do it.

Energy Saving Boiler, Upper Canister, Lower Canister, Induction Wall, Connector, Exhaust Pipe

Description

Energy saving type boiler {Energy saving type boiler}

The present invention relates to an energy-saving boiler for heating the water at room temperature to convert it into hot water or steam, and more specifically, the heat source provided from the burner is configured to heat the water while repeatedly moving up and down in a narrow space and discharged to the atmosphere. By recovering the waste heat that is to be recovered, it is possible to maximize the heating efficiency of the water to reduce fuel costs.

Boilers for heating the water at room temperature and converting it into hot water or steam have been released in various configurations. Most of them install a burner at the bottom, and install a water tank at the top to heat the water tank. . However, this configuration has low heating efficiency and significant waste heat to the atmosphere.

As a means to solve this problem, a number of developments have been made, and the typical configuration is a boiler in which multiple use passages of combustion gas are formed, such as Utility Model Registration No. 0421142. In the boiler for converting the water supplied by using hot water or steam, the upper canister with a burner at the center and the lower canister supported by the support at the center are interconnected by several connecting pipes, and the inside of the selected connecting pipes are connected. An exhaust pipe penetrating the upper and lower canisters is installed, and a partition wall is erected toward the upper canister at the edge of the lower canister, and an inner case where the bottom is fixed to the base frame at which the support is installed to maintain a partition and a predetermined space at the edge of the upper canister. Install it.

A certain space is formed outside the inner case, and an outer case is fixed to the base frame, and a bottom is fixed to the base frame, and a year is installed on the outer case so that the heat source provided from the burner is placed on the lower case, and the partition and the inner case are guided. Through the exhaust pipe installed inside the connection pipe to discharge to the year through the space between the inner and outer casing.

The lower water pipe is connected to the spiral preheating pipe installed in the space between the inner and outer cases, the upper water pipe is piped to the discharge pipe, the discharge pipe is installed with an oil-water separator.

In addition, the air supply passage for supplying air to the burner at the top of the outer case preheated.

The pre-registration design is the primary heating while passing through the connection pipe connecting the upper and lower water reservoir provided by the burner, and the secondary heat is heated through the exhaust pipe piped so that the induced heat source passes through the inside of the connection pipe, The heat contained in the combustion gas discharged between the inner and outer cases allows the preheating pipes installed between the inner and outer cases to be heated again, thereby minimizing heat loss.

However, in the above configuration, there was a limit to increase the thermal efficiency with the configuration in which the water preheated by the preheating pipe is supplied to the lower water tank connected by the connecting pipe.

That is, the above configuration is to lower the temperature of the hot water by injecting the water of a low temperature room temperature into the hot water inside the upper and lower water tanks raised to the temperature just before vaporization.

Therefore, the present inventors have solved the above-mentioned problems of the conventional boiler, and in the present invention, the heat source provided from the burner is configured to heat the water while repeatedly moving up and down in a narrow space to recover waste heat discharged to the atmosphere. The present invention has been completed with the technical task of devising in order to maximize the heating efficiency of water, thereby enabling to expect fuel cost reduction.

In order to solve the technical problem, the present invention divides the upper and lower water tanks into an inner cylinder and an outer cylinder, so that hot water is sufficiently supplied from the outer cylinder to the inner cylinder.

According to the energy-saving boiler provided by the present invention, the heat source provided by the burner moves along the space between the partition wall and the exhaust pipe and the inner and outer cases, and the water is discharged to the atmosphere because the water moves in the order of the preheating tube, the outer cylinder, and the inner cylinder in the opposite order. Fuel costs can be reduced by maximizing the heating efficiency of water while minimizing waste heat.

The present invention has an outer case installed in the edge of the base frame and the inner case is installed so that the passage is formed in the inner side, and the upper and lower canisters installed up and down inside the inner case so that the combustion chamber is formed; A connection pipe connecting the upper and lower water pipes and an exhaust pipe piped inside some of the connecting pipes so as to pass through the upper and lower water pipes, a burner installed at the center of the upper water pipe, and a flame in the combustion chamber; A common wall including an induction wall installed in the upper water tank and the lower water tank, a preheating pipe installed in the passage between the outer case and the inner case, and supplying water to the lower water tank, and a discharge pipe which is piped to the upper water tank to discharge steam. In constructing a boiler,

The upper canister and the lower canister are divided into inner and outer cylinders by partitions, respectively, and the inner and outer cylinders constituting the upper and lower canisters are connected to each other by a connecting pipe, respectively, the upper part of the connecting pipe connecting the outer cylinders. An exhaust pipe passing through the water tank and the lower water pipe is piped, and a supply pipe is piped between the inner and outer pipes of the lower water pipe, and the supply pipe is provided with a one-way valve for supplying fluid only from the outer to the inner pipes.

Hereinafter, the configuration of the present invention based on the accompanying drawings.

1 is a front sectional view showing a preferred embodiment of the present invention, Figure 2 is a plan view showing a cross-sectional view of the present invention.

Energy-saving boiler (1) provided by the present invention is arranged on the edge side of the base frame (2) as shown, the outer case 4 is disposed and the outside is wrapped with a heat insulating material, Inside the outer case 4, the inner case 5 is installed at a predetermined distance from the outer case 4 to form a passage 6.

Inside the inner case 5, the upper canister 8 coupled with the upper end of the inner case 5, and the lower canister 9 supported by the support 7 positioned at the center of the base frame 2, respectively. ) To form the combustion chamber 10 between these two canisters.

The upper canister (8) is formed in a donut shape, the burner 11 is installed in the center to supply the flame to the wide combustion chamber (10) formed between the upper canister (8) and the lower canister (9). The burner 11 is connected to the air supply passage 12 installed in close contact with the upper end of the outer case 4 to supply the air supplied from the outside in a heated state.

Two induction walls 13 and 14 are formed in the combustion chamber 10, which are fixed to the lower side of the upper canister 8 and have an inner side guide wall 13 having a lower end thereof, and an edge side of the lower canister 9. The outer guide wall 14 is fixed to the lower end and the upper end is open to form a passage 15 between the inner case 5.

The upper water bottle 8 and the lower water bottle 9 are divided into inner cylinders 8a and 9a and outer cylinders 8b and 9b by partition walls 16, respectively, and the upper water bottle 8 and the lower water bottle 9 are formed. The inner cylinders (8a, 9a) and the outer cylinders (8b, 9b) constituting the interconnection pipes (17, 18), respectively, but the inner side of the connecting pipe (18) connecting the outer cylinders (8b, 9b) 8) and the exhaust pipe (19) through the lower water pipe (9).

A one-way valve 21 for supplying a fluid between the inner cylinder 9a and the outer cylinder 9b of the lower barrel 9, and supplying fluid only to the inner cylinder 9a from the outer cylinder 9b to the supply tube 20. Install).

The outer cylinder 9b of the lower bottle 9 is installed in the passage 6 between the outer case 4 and the inner case 5 and pipes a spiral preheating tube 22 supplied with water from the outside. In the inner cylinder 8a of (8), the discharge pipe 23 in which the oil / water separator 24 is installed is piped.

In addition, a water gauge 25 is installed between the oil / water separator 24 and the inner cylinder 9a of the lower bucket 9 so that the level of the inner cylinders 8a and 9a can be checked.

When driving the energy-saving boiler 1 provided in the present invention is configured as described above, the burner 11 may be operated in a state in which water is first supplied to the preheating pipe 22.

If the flame is provided by operating the burner 11 as described above, the heat source inside the combustion chamber 10 is primarily connected to the inner cylinders 8a and 9a of the upper canister 8 and the lower canister 9 and a connecting pipe 17 connecting them. ) Will heat up.

The heat source that heats the inner cylinders 8a and 9a of the upper and lower canisters 8 and 9, which are directly exposed to the inside of the combustion chamber 10, and the connecting pipe 17 connecting them, is located below the upper canister 8. The outer cylinder of the upper canister 8 and the lower canister 9 moves upward through the space between the installed inner guide wall 13 and the outer guide wall 14 which is installed above the edge side of the lower canister 9. 8b and 9b and the connecting pipe 18 connecting them are heated.

As described above, the heat source that heats the outer cylinders 8b and 9b of the upper canister 8 and the lower canister 9 and the connecting pipe 18 connecting them is a passage between the outer guide wall 14 and the inner case 5. An exhaust pipe 19 which is guided downward of the lower canister 9 and then penetrates the upper canister 8 and the lower canister 9 through the interior of the connecting pipe 18 connecting the outer cylinders 8b and 9b. ), The water inside the connecting pipe 18 is heated again.

The heat source moving through the exhaust pipe 19 is discharged to the flue 3 through a passage 6 formed between the outer case 4 and the inner case 5, and is a spiral installed inside the passage 6. The preheating tube 22 is exhausted to the atmosphere in the state of finally heating.

The water is moved in a direction opposite to the traveling direction of the heat source. That is, in the present invention, while passing through the spiral preheating pipe 22, the first water is supplied to the outer cylinders 8b and 9b of the upper water tank 8 and the lower water tank 9, and the lower water tank 9 after the second heating. It is gradually heated while being supplied to the inner cylinder (9a).

Although the technical idea of the present invention has been described with reference to specific embodiments as described above, the protection scope of the present invention is not necessarily limited to these embodiments, and a simple design change within a range that does not change the technical gist of the present invention. It is also clear that the substitution of the usual means falls within the protection scope of the present invention.

1 is a front sectional view showing a preferred embodiment of the present invention

2 is a plan cross-sectional view of the present invention

Explanation of symbols used in main part of drawing

1: (energy saving) boiler 4: outer case

5: inner case 6: passage

8: upper canal 8a, 9a: inner barrel

8b, 9b: Exterior 9: Lower Canister

11: burner 13, 14: induction wall

17, 18: connector 19: exhaust pipe

20: supply pipe 21: one-way valve

Claims (1)

The outer case 4 provided with the flue 3 disposed on the edge side of the base frame 2, the inner case 5 provided with the passage 6 formed therein, and the combustion chamber 10 are formed. Upper tube (8) and lower bottle (9) installed up and down inside the inner case (5), connecting pipes (17, 18) and some connections connecting the upper bottle (8) and the lower bottle (9) An exhaust pipe 19 piped inside the pipes 17 and 18, a burner 11 installed at the center of the upper canister 8, an upper canister 8 to guide the flame of the combustion chamber 10, and Induction walls 13 and 14 installed in the lower water bottle 9 and preheating pipes installed in the passage 6 between the outer case 4 and the inner case 5 to supply water to the lower water bottle 9. In constructing a conventional boiler (1) comprising a pipe (22) and a discharge pipe (23) which is piped to the upper water container (8) to discharge steam; The upper water bottle (8) and the lower water bottle (9) are divided into inner cylinders (8a, 9a) and outer cylinders (8b, 9b) by the partition wall 10, respectively, and the upper bottle (8) and the lower bottle (9) The inner cylinders (8a, 9a) and the outer cylinders (8b, 9b) constituting the interconnection pipes (17, 18), respectively, but the inner side of the connecting pipe (18) connecting the outer cylinders (8b, 9b) 8) pipes the exhaust pipe (19) through the lower can (9); A one-way valve 21 for supplying a fluid between the inner cylinder 9a and the outer cylinder 9b of the lower barrel 9, and supplying fluid only to the inner cylinder 9a from the outer cylinder 9b to the supply tube 20. ) Energy-saving boiler characterized in that the installation.

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