KR100199248B1 - Gas combination structure - Google Patents

Abstract

According to the present invention, a plurality of fins 12a and 12a are formed on the outer circumference of the water pipe 11 to form the main heat exchanger 1a, and the main heat exchanger 1a in the water pipe 11 is formed. A plurality of fins 12b and 12b are formed on the outer periphery of the upstream side to form the subheat exchange unit 1b, and the main heat exchange unit 1a and the unit are downstream of the gas burner 3 in the exhaust passage. By sequentially arranging the heat exchanger 1b in this order, the former main heat exchanger 1a absorbs the sensible heat of the combustion exhaust, and the latter subheat exchanger 1b cools the combustion exhaust below the dew point. The present invention relates to a gas combustion device which absorbs latent heat in the combustion exhaust, and in order to improve thermal efficiency, the lower end of the fins (12b, 12b) formed on the outer circumference of the vent pipe (11) in the sub-heat exchange section (1b). Suspension piece (5) is installed in succession or close to the configuration.

Description

Gas combustion device

1 is an explanatory diagram showing an embodiment of the present invention.

2 is a cross-sectional view taken along the line X-X of FIG.

3 is an explanatory diagram of a stone piece 5a.

4 is an explanatory diagram of a conventional example.

5 is an explanatory diagram of another conventional example.

* Explanation of symbols for main parts of the drawings

1a: main heat exchanger 1b: subheat exchanger

11: water pipe 12a, 12b: fin

3: gas burner 5: suspension

5a: stone pieces

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a gas combustion apparatus, and more particularly, to a gas combustion apparatus of a type that improves thermal efficiency by condensing water vapor in combustion exhaust generated by a gas burner and absorbing the latent heat.

As the gas combustion apparatus of the above-mentioned type, as shown in FIG. 4, the gas burner 3 and the two stage heat exchanger 1 are combined.

This heat exchanger (1) is composed of a peripheral heat exchanger (1a) and a sub-heat exchanger (1b) provided on the lower side, and the main heat exchanger (1a) on one side is a plurality of water pipes (11) and the outer periphery formed A plurality of fins (12a, 12a) of the other side of the sub-heat exchange part (1b) formed on the upstream side and the outer periphery of the main heat exchange unit (1a) in the water pipe (11) 12b, 12b). A drain discharge port 8 for discharging the drain attached to the heat exchanger 1 to the outside is formed below the heat exchanger 1. In addition, the gas burner 3 is horizontal, and is arranged such that the main heat exchanger 1a is positioned near the flame formation region.

When the gas combustion device supplies tap water from the upstream end of the water pipe 11 located on the side of the sub-heat exchange unit 1b while burning the gas burner 3, the water flowing through the water pipe 11 passes through the gas burner ( The heat generated by 3) is absorbed through the fins 12a, 12b, etc., to be hot water and discharged to the outside from the main heat exchanger 1a. In the endothermic action of absorbing heat, the gas burner 3 generates heat. The action of absorbing the sensible heat of the burned exhaust gas is mainly performed by the main heat exchanger 1a, and the subheat exchanger 1b mainly condenses water vapor in the combustion exhaust generated by the gas burner 3 to absorb the latent heat. Do it. That is, in the sub-heat exchange part 1b, the exhaust heat is absorbed by cooling the sensible heat by the heat exchange part 1a and cooled below the dew point temperature to generate drain, and the latent heat at this time is passed through the sub-heat exchange part 1b. It is absorbed by the water flowing through the pipe 11. The drain attached to the sub-heat exchange part 1b is separated by the weight of the sub-heat exchange part 1b below and discharged from the drain outlet 8 to the outside. Such a gas combustion device has an advantage of improving thermal efficiency because it actively uses latent heat of combustion exhaust.

However, there is a problem in that the gas combustion device cannot sufficiently improve thermal efficiency.

That is, the drain attached to the sub-heat exchange part 1b covers the surface of the water pipe 11 or the fins 12b and 12b of this portion, and thus combustion with the water pipe 11 and the fins 12b and 12b. Since a drain film is formed between exhaust, the heat transfer degree of the said part is reduced. On the other hand, the drains attached to the pins 12b, 12b, etc., move to the lower ends of the pins 12b, 12b by their own weight, and gradually grow as drops of water in this part due to their surface tension. When the water droplets grow to a predetermined size and the weight thereof becomes larger than the adhesion between the water droplets and the pins 12b and 12b, the water droplets fall downward. That is, until the water droplets are grown to a predetermined size, the water droplets are attached to the lower ends of the pins 12b and 12b and are not removed. Therefore, the conventional one is that the splitting film generated in the fins 12 and 12b is not quickly removed from the fins 12b and 12b, so that the splitting efficiency is lowered.

5, the main heat exchange part 1a is provided above the gas burner 3, and the sub heat exchange part 1b is provided above this main heat exchange part 1a. When drain occurs in this sub-heat exchange part 1b by an operation | movement, the problem mentioned above arises.

According to the present invention, a plurality of fins 12a and 12a are formed on the outer circumference of the water pipe 11 as described above to form the main heat exchange part 1a, and the main heat exchange part in the water pipe 11 ( A plurality of fins 12b and 12b are formed on the outer periphery of the upstream side portion 1a to form the sub-heat exchange part 1b, and the main heat exchange part 1a on the downstream side of the gas burner 3 in the exhaust passage. ) And the sub-heat exchanger 1b are sequentially arranged in this order, so that the sensible heat of the combustion exhaust is absorbed by the former main heat exchanger 1a, and the combustion exhaust that contacts this in the latter sub-heat exchanger 1b is below the dew point. The object of the present invention is to improve the thermal efficiency in a gas combustion device that is cooled by cooling to absorb latent heat in the combustion exhaust.

The technical means of claim 1 of the present invention for solving the above problems is a suspension piece (at the lower end of the fins 12b, 12b formed on the outer periphery of the water pipe 11 in the sub-heat exchange part 1b). The pieces 5 are successively installed or adjacent to each other.

The technical means of the present invention serves as follows.

When the device is operated, the amount of heat generated by the gas burner 3 through the water flowing through the water pipe 11 of the main heat exchange part 1a or the sub heat exchange part 1b is similar to the conventional example described above. 12b) and the like, and the drain generated in the fins 12b and 12b in the sub-heat exchanger 1b moves to the lower ends of the fins 12b and 12b by their own weight.

Since the suspending pieces 5 are continuously installed or adjacent to the lower ends of the pins 12b and 12b, the drain reaching the lower ends of the pins 12b and 12b is in contact with the upper end of the suspending piece 5 to wet them. Through these boundary portions, the drain gradually spreads to the hanging piece 5 or at once depending on the conditions. In other words, a phenomenon such that the drain generated on the surfaces of the fins 12b and 12b flows down the surface continuously proceeds to the suspension piece 5 side through these boundary portions, whereby the drains 12a and 12b. It flows down the said boundary part as it flows down the surface of, and moves to the suspension piece 5 side quickly, and finally falls from the suspension piece 5.

Since this invention is comprised in the above-mentioned structure, it has the following peculiar effects.

Since the drain, which has adhered to the surface of the sub-heat exchanger 1b and caused the thermal efficiency to deteriorate, moves rapidly to the lower suspension piece 5, the large droplets of the drain are stagnant or the droplets are held in the fins 12b and 12b. There is no bridge stagnation between the pins 12b and 12b, and the thermal efficiency is improved as compared with the conventional one described above.

In addition, when the hanging piece 5 is disposed between the plurality or the plurality of pins 12b and 12b, the drain reaching the lower end of the pins 12b and 12b has the lower surface of the pins 12b and 12b by the above-described action. The thermal efficiency is improved because it moves quickly to the hanging piece 5 which is installed or close to the edge.

In particular, when the drain grows to some extent at the lower end of the pin 12b by arranging the suspension piece 5 with a slight gap with respect to the lower ends of the pins 12b and 12b, the suspension piece 5 moves to the suspension piece 5 side at once. Therefore, the water droplets are less likely to stagnate in the hanging piece 5 by flowing downward due to the inertia. Therefore, since the suspension piece 5 is disposed between the plurality or the plurality of pins 12b and 12b, the flow of combustion exhaust in the gas burner 3 is not disturbed by the suspension piece 5 and the suspension piece Processing and manufacture of (5) become easy.

Moreover, by making the suspended piece 5 into the narrow width | variety protrusion 5a which extended and protruded to the lower end of each pin 12b, this suspension piece 5 is made into the narrow width | variety protrusion 5a, and the area Since the size is smaller than the pins 12b and 12b, the adhesion force to the protrusion 5a of the drain moved to the suspension piece 5 by the above-described action is also reduced. Therefore, the size of the water droplets in which the drain can grow by the surface tension in the protrusion 5a becomes extremely small, so that the fall of the drain below the suspension piece 5 is further promoted.

EMBODIMENT OF THE INVENTION Hereinafter, this invention is demonstrated in detail based on drawing.

The embodiment shown in FIG. 1 implements the present invention in an F.F type (forced supply / exhaust type) water heater having a heat exchanger 1 having a function of condensing combustion exhaust and absorbing latent heat. This hot water heater is provided with a subsidiary body 6 provided with the heat exchanger 1 in the lower part of a main body of a hot water heater, and the gas burner 3 (FIG. 1 in the upper part of this subsidiary body 6). And an air supply box 7 having an air supply chamber 42 thereon, and a fan 4 on the air supply box 7. The exhaust passage 21 disposed on the downstream side of the heat exchanger 1 is installed in a state in which the hot water heater main body runs up and down.

The heat exchanger (1) is composed of a main heat exchanger (1a) and a sub-heat exchanger (1b) provided below the main heat exchanger (1a), the main heat exchanger (1a) is a water pipe provided with annular fins (12a, 12a) (11), wherein the sub-heat exchange part (1b) is a water flow pipe (11) located upstream of the main heat exchange part (1a) in the water passage and provided with annular fins (12b, 12b). It is. In addition, the water pipe 11 of the main heat exchange unit 1a has three stages, and each stage is arranged in a meandering shape in two rows or three rows horizontally, and the water pipe 11 of the sub heat exchange unit 1b is provided. Is a one-stage configuration arranged in two rows horizontally.

In addition, the lower portion of the water pipe 11 is provided with a guide plate 15 which is curved downward and has an open portion 16 at the center thereof, and thus the combustion exhaust gas supplied to the heat exchanger 1 is supplied to the water pipe 11. The heat exchange with the water pipe 11 is promoted by flowing along the circumferential wall. The combustion exhaust is discharged downward through the opening 16 of the guide plate 15.

In addition, in the water pipe 11 of the sub-heat exchange part 1b, plate-shaped suspension pieces 12b and 12b are provided to face the lower ends of the pins 12b and 12b. In addition, the longitudinal direction L of () is coincident with the pipe direction, and the height direction W of this suspension piece 5 is set to coincide with the up-down direction of the water heater main body (refer FIG. 2). Thus, the suspension pieces 5 are integrally formed in one sheet in order to improve the ease of processing and manufacturing without disturbing the flow of the combustion exhaust.

In this embodiment, the tap water is supplied from the end portion on the side of the sub-heat exchange part 1b in the water pipe 11 so as to discharge hot water from the water pipe 11 at the uppermost level. In addition, the lower part of the subsidiary body 6 in which the heat exchanger 1 is accommodated is opened, and the drain generated in the sub-heat exchanger part 1b passes through the opening 16 of the guide plate 15. (6) It is discharged to the outside from the drain discharge port 8 formed at the lower side.

The gas burner 3 is composed of a mixing tube 32 and a plurality of gas nozzles 31 and 31 provided toward the mixing tube 32 as a primary air combustion method. The primary air is supplied by the fan (4), and the distribution plate (45) is interposed between the fan (4) and the gas burner (3) in order to supply air uniformly to the gas burner (3). .

The exhaust passage 21 is a configuration in which the exhaust port 2 formed at the upper portion of the hot water heater and the lower portion of the subsidiary body 6 are connected in series.

Therefore, the fan 4 is operated to supply primary air to the mixing pipe 32, and at the same time, gas is supplied from the gas nozzles 31 and 31 to the mixing pipe 32 to burn the gas burner 3 while burning the gas burner 3. When the tap water is supplied from the upstream end of (11), the amount of heat generated by the gas burner (3) flowing through the water pipe (11) of the main heat exchange unit (1a) or sub-heat exchange unit (1b) is converted into the fin (12a). 12b) is absorbed through the hot water and is discharged to the outside from the water pipe 11 of the upper end, and the combustion exhaust gas passing through the heat exchanger 1 is discharged to the outside from the exhaust port 2 through the exhaust passage 21. .

In the endothermic action at this time, the action of absorbing the sensible heat of the combustion exhaust generated by the gas burner 3 is mainly performed by the main heat exchanger 1a, and is mainly produced by the gas burner 3 by the sub-heat exchanger 1b. The condensed exhaust gas absorbs the latent heat. That is, in the sub-heat exchanger 1b, the sensible heat is absorbed by the main heat-exchange unit 1a to cool the combustion exhaust cooled below the dew point temperature to generate drain, and the latent heat at this time is located in the sub-heat exchanger 1b. It is to be absorbed into the water flowing through the water pipe (11). At this time, the drain generated in the sub-heat exchange part 1b is quickly delivered to the hanging piece 5 which is installed in succession to the lower ends of the fins 12a and 12b in the sub-heat exchange part 1b. It falls to the bottom of the water heater and is discharged to the outside from the drain discharge port (8).

In addition, the embodiment can be modified as follows.

(1) In the above embodiment, the suspending piece (5) is formed into one rectangular plate which is in contact with the lower end of each of the pins (12b, 12b). However, the lower end of the suspending piece (5) is formed in a sawtooth shape to form a pin (12b, 1 2b). It is good also as a structure which provided the convex part in the part in which () is located, and the recessed part in each other part at the lower end. Moreover, you may be set as the structure which forms the suspension piece 5 independently for every pin 12b. In any of the above cases, a slight gap may be provided between the pins 12b and 12b and the hanging piece 5.

Moreover, as shown in FIG. 3, the narrowed piece 5a of the width | variety which extended the lower end of each pin 12b, 12b is employ | adopted as the suspension piece 5, and this protrusion piece 5a is formed for every pin 12b. You may also do it. In this case, when it arrange | positions with the adjacent protrusion pieces 5a, the drain (water droplet) generate | occur | produced in each of the protrusion pieces 5a, 5a is prevented from couple | bonding with the adjacent water droplet in bridge shape.

② In the above embodiment, the guide plate 15 is installed to promote heat exchange, but it is not necessary to install this.

(3) In the above embodiment, the main / sub heat exchange parts (1a, 1b) are formed of the water pipe (11) and the fins (12a, 12b) formed in a flange shape on the outer circumference thereof, but the pins are made of a metal plate having a relatively large area. A plurality of pieces may be provided in parallel, and the main / sub heat exchange parts 1a and 1b may be formed by inserting the fin group into the water pipe 11 provided in a meandering shape.

④ In the above embodiment, the water pipe 11 was bent in a meandering configuration, and the lower end was the sub-heat exchanger 1b and the remaining three stages were the main heat exchanger 1a. Depending on the sensible heat absorption capacity of 1a), the water pipe 11 of the sub-heat exchange part 1b that absorbs latent heat may be provided in multiple stages, such as two stages and three stages, from the lower side. Also in this case, the hanging piece 5 is provided in the water supply pipe 11 of each stage in the said sub heat exchange part 1b.

Thus, when the sub-heat exchange part 1b is comprised by multiple stage, you may supply water from the water pipe 11, such as 2nd stage or 3rd stage, from the lower side. Incidentally, even in the case of the above embodiment, the hot water may be discharged from the second stage or the third stage from the upper side.

(5) In the above embodiment, the fan 4 is formed on the air supply passage side, but this may be formed on the exhaust passage 21 side.

⑥ In the above embodiment, the present invention was implemented in an FF type (forced supply / exhaust type) hot water heater, but a gas combustion device such as a heater of a type of circulating heated water other than the water heater, or an FE type (forced exhaust type) water heater or It is possible to employ the present invention in gas combustion apparatuses such as heaters of the above-described systems.

⑦ The present invention absorbs sensible heat mainly in the main heat exchange unit 1a and absorbs only latent heat in the sub-heat exchange unit 1b, as well as absorbs only sensible heat in the main heat exchange unit 1a and sub-heat exchange unit 1b. It can also be used for the type that absorbs only latent heat.

Claims (2)

A plurality of fins 12a and 12a are formed on the outer circumference of the water pipe 11 to form the main heat exchange part 1a, and a portion upstream of the main heat exchange part 1a in the water pipe 11. A plurality of fins 12b and 12b are formed on the outer periphery of the to form the sub heat exchange part 1b, and the main heat exchange part 1a and the sub heat exchange part (1) downstream of the gas burner 3 in the exhaust passage. By sequentially arranging 1b) in this order, the sensible heat of the combustion exhaust is absorbed by the former main heat exchange section 1a, and the combustion exhaust coming into contact with it in the latter sub-heat exchange section 1b is cooled below the dew point. In the gas combustion device to absorb latent heat in the water, the water supply pipe (11) of the sub-heat exchange unit (1b) suspending piece (5) with a slight gap with respect to the lower end of the pins (12b, 12b) formed on the outer periphery Gas combustion apparatus, characterized in that the plurality of consecutively or in close proximity to the installation. The gas combustion device according to claim 1, wherein the suspension piece (5) is a narrow piece of stone piece (5a) which protrudes from the lower end of each pin (12b).