KR200229540Y1 - The recollecting wasteed heat of preheating device for industrial heat alternation boiler - Google Patents

Abstract

The present invention relates to an industrial heat medium boiler, installed in the internal communication portion (2) of the boiler body (1) so as to pass through several air supply pipes (3) from outside, and up and down respectively on the outside of the boiler body (1) Install several blocking plates 5 having cutouts 4 formed at regular intervals, and fix the cutouts 4 so that one side is positioned at the top and the lower side at the bottom, and the outer cylinder 6 is installed at the outside. Thus, the passage 7 is formed between the blocking plate 5 and the outer cylinder 6, and the heat insulating material 8 is fixed to the outside of the outer cylinder 6 to insulate the air, and at the end of the passage 7, air is induced. The pipe (8) is installed, but the end of the induction pipe (8) is connected to the burner installed inside the boiler body (1) to supply high-temperature air, the structure is simple and easy to manufacture and use waste heat This prevents unnecessary waste of energy and heats up to high temperatures. The thermal efficiency can be supplied by the burner to the maximum and it is this reason useful devise that can reduce unnecessary spending by reducing the waste of fuel.

Description

Waste heat recovery device of the built-in air preheater of the industrial heating medium boiler {THE RECOLLECTING WASTEED HEAT OF PREHEATING DEVICE FOR INDUSTRIAL HEAT ALTERNATION BOILER}

The present invention relates to an industrial heating medium boiler, which collects waste heat and waste combustion gas generated from the boiler so that it can be re-supplied with combustion air required to operate the boiler, and wastes energy by reusing waste combustion gas and waste heat. The aim is to reduce waste heat and make waste heat available for other uses.

In general, the industrial heating medium boiler is a structure in which a special synthetic oil is circulated in a spiral shape inside a main body in a double spiral and a burner is installed at one center of the main body. The hot air was discharged through the outside of 2-3 pipes and the smoke was discharged through the communication.

However, such a boiler has a disadvantage in that heat loss is severe because heat generated from the inside is discharged to the outside through the boiler body, thereby causing unnecessary waste by causing unnecessary waste of energy.

On the other hand, in order to solve the above problems, the thermal insulation effect is wrapped around the outside of the boiler body to reduce heat loss. However, since the combustion gas discharged to the outside is a high temperature, it is difficult to obtain a large effect. there was.

More specifically, if the burner is ignited inside the boiler body to heat the tube containing the heat medium oil, the boiler tube is heated and the heat and burned smoke are discharged in communication through the space between the boiler tube and the body. Done.

At this time, the external air is introduced to ignite the oil of the burner, and the conventional burner is a factor that cools the inside of the boiler by introducing external cool air.

As described above, when the burner is ignited to heat the boiler to heat the boiler, cold air is introduced, which causes the loss of heat. Thus, when the boiler is to be operated, the boiler can be heated in a short time. There was no problem.

The present invention is devised to solve the above problems, the air pipe is installed in the communication unit installed inside the boiler body, and the outside of the boiler is installed in the outer cylinder after the passage plate is formed up and down the outer cylinder By fixing the passage and forming the passage and supplying the wind passing through the passage to the burner installed inside the boiler, the air heated to a high temperature by using waste heat is introduced to heat the temperature inside the boiler. In order to reduce the waste of the present invention, the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view of the present invention

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

3 is a side view of a state in which the insulation is removed

4A and 4B are enlarged schematic side views of main parts of the present invention blocking plate.

5 is a side cross-sectional view of the subject innovation communication section

Figure 6 is a front view showing another embodiment of the present invention

** Description of symbols for the main parts of the drawing **

1. Boiler body 2. Communication part 3. Air supply pipe

4. Incision 5. 9. Barrier 6. 10. Outer tube

7. 11. Passage 8. Insulation

In the boiler, which is composed of 2-3 double boiler pipes and a burner is installed on one side, communication is installed on the other side, and insulation is wrapped on the outside of the main body. The air passage is installed outside the main body so that the air is heated, and the heated air is connected to the burner installed inside the main body to supply the air.

That is, several air supply pipes 3 are installed in the internal communication portion 2 of the boiler body 1 from the outside, and the cutouts 4 are formed on the outside of the boiler body 1, respectively, up and down. Install several blocks 5 at regular intervals, but fix the incision 4 so that one side is at the top and one side is at the bottom, and the outer cylinder 6 is installed on the outside of the barrier plate 5 and the outer cylinder ( 6) the passage (7) is formed between the outside of the outer cylinder (6) to be insulated by fixing the heat insulating material (8), the air induction pipe (8) is installed at the end of the passage (7) The end of (8) is connected to the burner installed inside the boiler body (1) so that the hot air is supplied again, reference numeral 12 is a boiler tube, 13 shows a heating burner.

In the embodiment of the present invention to manufacture the blocking plate (9) installed on the outside of the main body 1 in a spiral and then fixed to the main body (1) and to install the outer cylinder 10 to the outside to be the passage (11) Also preferred.

Referring to the operation of the present invention made as described above are as follows.

When the boiler is operated, the burner installed inside the boiler body (1) ignites and emits heat. The heat and burned smoke heat the double boiler tube installed outside the inside of the boiler and then pass through the gap to the boiler. After moving to the communication unit (2) installed on one side of the discharge through the communication to the outside.

At this time, the waste heat discharged to the outside through the communication unit (2) heats the air supply pipe (3) installed in the multi-stage in the transverse direction to the communication unit (2).

When air is supplied from the outside as described above, the supplied air is transferred through the air supply pipe 3, and is primarily heated by the waste heat in the communication unit 2, and then the air is formed in the outside of the main body 1. Will move along 7).

At this time, the boiler body (1) is heated by the burner, the air is heated by the boiler and the remaining waste heat the air supply pipe (3) and at the same time the passage between the boiler body (1) and the outer cylinder (6) heated to a high temperature ) And continue heating while moving to the outlet side.

On the other hand, since the air moving along the passage between the boiler body 1 and the outer cylinder 6 is blocked by the blocking plate 5 which is provided at regular intervals on the outside of the boiler body 1, the air is blocked by the blocking plate ( It is passed to one side through the cutout portion 4 formed in 5).

At this time, because the cutout portion 4 of the blocking plate 5 which is fixed to the outside of the boiler main body 1 and constitutes each room is formed at the upper side of the blocking plate and the other side of the blocking plate is formed at the lower end. Since the air is moved while moving up and down, the air is heated evenly as a whole to maintain a constant temperature.

Since the air heated as described above is supplied to the burner installed inside the boiler body 1, the air after igniting the burner is supplied to the inside of the boiler to heat the boiler tube.

On the other hand, since the heat insulating material 8 is covered on the outside of the outer cylinder 6, by protecting the passage 7 through which the air moves, the heat loss can be minimized to reduce the waste of energy.

In addition, by installing an induction pipe installed at the end of the passage configured in the present invention to a separate external pipe, it may be used as a heating or heater, or a hot water pipe instead of an air supply pipe may be obtained in the communication section.

In addition, as shown in FIG. 6, since the blocking plate 9 installed outside the main body 1 is installed in a spiral shape, the air introduced from the air supply pipe 3 is heated while moving in the spirally formed passage 10. Since the heated air is supplied to the burner, the same effect as the present invention can be obtained.

As described above, the present invention installs an air pipe in a communication unit installed inside the boiler body, and installs a block plate in which the passage is formed up and down on the outside of the boiler, and then fixes it with an outer cylinder so that the passage is formed. The air passing through this passage is supplied to the burner installed at the center of one side of the boiler so that the air heated to high temperature by using the waste heat flows in to heat the temperature inside the boiler. By using it can prevent unnecessary waste of energy, by supplying the air heated to a high temperature to the burner can maximize the thermal efficiency, thereby reducing the waste of fuel is a useful design that can reduce unnecessary expenses.

Claims (4)

In an industrial heat medium boiler in which a boiler tube consisting of 2-3 is embedded and a burner is installed at one side and a communication is installed at the other side, and a heat insulating material is wrapped at the outside of the main body, an external communication part 2 of the boiler main body 1 Install several air supply pipes (3) to penetrate, and install a plurality of cut-off plates (5) formed in the upper and lower cutouts (4) on the outside of the boiler body (1) at regular intervals, but the cutouts (4) ) One side is fixed to the upper side and the lower side to the lower side, the outer cylinder (6) is installed on the outside so that the passage (7) is formed between the blocking plate (5) and the outer cylinder (6), the outer cylinder (6) Insulate the outside of the thermal insulation (8) to be kept warm, and the air induction pipe (8) is installed at the end of the passage (7), the end of the induction pipe (8) is installed inside the boiler body (1) It is connected to the burner to supply hot air Waste heat recovery apparatus of the integrated air pre-heating apparatus of the medium boiler. The waste heat recovery apparatus of the built-in air preheating apparatus of the industrial heat medium boiler according to claim 1, wherein the internal communication portion (2) of the boiler body (1) is installed so as to pass through several air supply pipes (3) from the outside. . 2. The passage according to claim 1, wherein a plurality of blocking plates (5) having upper and lower cutouts (4) formed on the outside of the boiler body (1) are provided at regular intervals, and an outer cylinder (6) is provided outside the passage. (7), the waste heat recovery apparatus of the built-in air preheater of the industrial heat medium boiler, characterized in that formed. The method according to claim 1, wherein the blocking plate (9) provided on the outside of the main body (1) is made spirally and then fixed to the main body (1), and the outer cylinder (10) is provided on the outside to form the passage (11). Waste heat recovery device of the built-in air preheating device of the industrial heat medium boiler, characterized in that.