JPH0656648U - Water heater exhaust structure - Google Patents

Abstract

(57) [Abstract] [Object] The present invention relates to a water heater exhaust structure that improves the safety by increasing the heat absorption effect of the heat exchange drums and fins in a water heater to prevent the generation of fire species. Is. [Structure] A rectangular cylindrical combustion drum (1) has plate-shaped fins (12) arranged in the longitudinal direction at regular intervals in the center of the inside,
In the water heater (A) having the heat exchange part (26) in which the lower edge of the exhaust chamber (2) of the same shape as the drum is placed on the upper edge of the drum (1), the combustion drum (1) Parallel plate between exhaust chamber (2)
One end of (3) is sandwiched so that it can be adjusted in and out, and the other end of the parallel plate (3) is connected to the combustion gas flow path (formed between the inner wall surface of the combustion drum (1) and the side surface of the fin (12) 7) in a direction orthogonal to that, bend the extension end downward and extend for a predetermined length, and open the bent portion (3b) below the fin pitch gap (e) with respect to the fin (12). The present invention provides a water heater exhaust part structure characterized by being formed in parallel with each other.

Description

[Detailed description of the device]

[0001]

[Industrial applications]

 The present invention relates to a water heater exhaust structure that improves the safety by increasing the heat absorption effect of the heat exchange drum and fins of a water heater, thereby preventing the generation of fire.

[0002]

[Prior art]

 Conventionally, a water heater is mainly composed of a combustion unit 50 for generating combustion gas and a heat exchange unit 51 for conducting heat generated by the combustion gas to water as shown in FIG. 10. It is composed of a substantially rectangular heat exchange drum 52, and fins 54 made of a plurality of metal plate-like bodies are vertically arranged at regular intervals in the center of the inside of the drum 52. A heat receiving pipe 55 that penetrates is provided, and the structure is such that water flows through the heat receiving pipe 55.

In the combustion section 50 adjacent to the lower part of the heat exchange section 51, combustion gas is generated by the gas ejected from the burner 56 and the air taken in through the fan, and the gas is heat-exchanged. The water is guided to the drum 52 and heats the water in the heat receiving pipe 55 wound around the outer peripheral surface of the drum 52, but mainly the combustion gas rises to heat the fins 54 and penetrate the fins 54. Hot water is generated through a process of heating water flowing in the heat receiving pipe 55.

The unburned gas contained in the combustion gas and carbon generated by the combustion rise from the gap between the fins 54 and the gap between the heat exchange drum 52 and the fin 54, and the heat exchange drum 52. The gas is exhausted through an exhaust chamber 53 provided in the upper part.

[0005]

[Problems to be solved by the device]

 However, in the heat exchange section 51 of the water heater described above, the gap c between the fins 54 and the inner wall of the heat exchange drum 52 is difficult to adjust because of the dimension control when making a water heater, so the gap c is It may become wider.

In this case, since the gap c between the fins 54 and the inner wall of the heat exchange drum 52 is wider than the gap d between the fins 54, the flow velocity of the combustion gas that rises in the gap c increases, and the flow rate increases with the combustion gas. Since the ascending speed of the carbon that has been exhausted to the exhaust gas also increases, the carbon may not be sufficiently cooled by the time it reaches the exhaust chamber 53 and may become a spark.

At the same time, since the flow velocity of the gap d between the fins 54 becomes slow, soot is likely to accumulate on the surface of the fins 54 in the gap d. If soot clogging occurs, the air flow in the gap d becomes poor. Unburned gas may be generated, passing through the fins and rising in the exhaust chamber 53, and may be easily accumulated. Then, if the carbon that is not sufficiently cooled by the unburned gas becomes a igniter and ignites from the exhaust chamber 53, it is very dangerous.

As a method for solving the above-mentioned problems, as disclosed in Japanese Utility Model Publication No. 2-24244, a resistance plate is provided on the inner wall of the heat exchange drum above the gap c so as to project toward the flow path. Another method is to block the flow path of the combustion gas by the resistance plate to reduce the rising speed of the combustion gas.

However, according to this method, since the gap c is closed by the resistance plate, pressure loss occurs and the flow velocity of the combustion gas decreases more than necessary, which adversely affects combustion.

Further, since the resistance plate merely obstructs the flow path of the combustion gas, it is not possible to make the gap c the same width as the gap d between the fins and make the rising flow velocity of the combustion gas uniform. It was

An object of the present invention is to provide a water heater which can solve the above problems.

[0012]

[Means for Solving the Problems]

 The present invention has plate-shaped fins vertically arranged at regular intervals in the center of the inside of a rectangular cylindrical combustion drum.The upper edge of the drum has a lower edge of an exhaust chamber of the same shape as the drum. In a water heater having a mounted heat exchange section, one end of a flat plate is sandwiched between a combustion drum and an exhaust chamber so that it can be adjusted in and out, and the other end of the parallel plate is connected to an inner wall surface of the combustion drum. It extends in a direction orthogonal to the flow path of the combustion gas formed between the fin side surface and the extension end and bends downward for a predetermined length. (EN) A water heater exhaust part structure characterized by being formed in parallel with a gap or less.

[0013]

【Example】

 DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Referring to the drawings, an embodiment of the present invention will be described. First, as shown in FIGS. 8 and 9, the basic structure of the water heater of the present invention is a hot water heater in which an intake pipe connecting pipe 21 is protruded from an upper wall. A water heater main body 22 is provided inside the machine external case 20, and an intake inflow passage 23 is formed between the outer peripheral surface of the water heater main body 22 and the inner peripheral surface of the water heater external case 20. Then, the exhaust pipe connecting pipe 24 is projected upward from the upper wall of the water heater body 22 through the intake pipe communicating pipe 21.

Further, the water heater main body 22 is configured such that a combustion section 25 is provided at a lower portion and a heat exchange section 26 is provided at an upper portion. In the combustion section 25, a large number of burners 28 are arranged inside a combustion tube 27 having a substantially rectangular tube shape. Each burner 28 communicates with a fan 30 via an air chamber 29, and each burner 28 is connected. A large number of nozzles communicating with the gas supply pipe 33 are faced to the opening facing the air chamber 29 of the air chamber 29, and the gas ejected from the nozzle and the air from the air chamber 29 press-fitted by the fan 30 are introduced. While being mixed inside the burner 28, the burner 28 is ejected from the upper portion thereof into the combustion cylinder 27 so as to be combusted. a indicates the intake direction.

The heat exchange section 26 is composed of a heat exchange drum 1 having a substantially rectangular tubular shape, and a heat receiving pipe 38 provided between a hot water supply pipe 36 and a hot water supply pipe 37 which penetrate the lower surface of the water heater outer case 20. As shown in FIG. 1, inside the heat exchange drum 1, fins 12 made of a plurality of metal plate-like bodies are arranged at regular intervals in the vertical direction. On the upper edge of the heat exchange drum 1, a lower edge of the exhaust chamber 2 having the same shape as the drum 1 is placed.

The heat receiving pipe 38 is wound around the lower outer peripheral surface of the heat exchange drum 1 from the water supply pipe 36 side, and then reciprocates in a meandering manner inside the upper portion of the drum 1 through the fins 12 vertically. The water flowing in the heat receiving pipe 38 is heated by the combustion gas from the combustion cylinder 27 and the fins 12 heated by the combustion gas, and the heated water is discharged from the hot water discharge pipe 37 to the outside of the water heater. Reference numeral 40 represents a control device.

Exhaust gas, carbon, etc. emitted from the combustion cylinder 27 mostly pass through the gaps between the fins 12 and partly through the gaps between the heat exchange drum 1 and the fins 12, and then pass through the exhaust chamber 2. After that, the air is exhausted from above through the exhaust pipe connecting pipe 24. b shows the exhaust direction.

In the water heater A having the basic structure described above, in the present invention, the flow velocity of the combustion gas flowing in the corner of the heat exchange drum 1 is reduced between the combustion drum 1 and the exhaust chamber 2, The characteristic feature is that the parallel plates 3 are arranged to form the combustion gas passages 7 having a fin pitch interval e or less.

That is, as shown in FIG. 1, a rectangular cylindrical combustion drum 1 and an exhaust chamber 2 having the same shape as the drum 1 are provided at the upper edge portion and the lower edge portion of each cylindrical body with respect to the side surface. Has connecting pieces 4 and 5 that project vertically outwards, and these connecting pieces 4 and 5 are joined by screws 6, but one of the connecting pieces 4 and 5 on one of the short sides is connected. In between, one end of the parallel plate 3 is sandwiched so as to be adjustable in and out, and the other end of the parallel plate 3 extends in a direction orthogonal to the flow path 7 of the combustion gas, and the extension end is bent downward. It has been distracted for a predetermined length. Further, the bent portion 3b is formed in parallel with the fin 12 and with a pitch gap e between fins or less.

At this time, in order to sufficiently fix the parallel plate 3, packings 8 and 9 are sandwiched between the upper and lower parts of the parallel plate 3, and a pressing piece 13 is provided below the connecting piece 4 of the combustion drum 1. Fix in the state. Further, it is preferable that each member is configured such that the pinching position of the parallel plate 3 is located at the upper tip portion of the plate-shaped fin 12.

The fixed position of the parallel plate 3 can be adjusted in the horizontal direction, and the gap e between the bent portion 3b formed in parallel with the fin 12 and the fin 12 can be adjusted.

The gap e is appropriately set according to the structure of the water heater, but the width is preferably equal to or smaller than the gap between the fins, and is generally 3 mm or more and 5 mm or less.

In this embodiment, the parallel plate 3 has a sandwiching portion 3a sandwiched between the combustion drum 1 and the connecting pieces 4 and 5 of the exhaust chamber 2 as specifically shown in FIGS. , A bent portion 3b which is vertically bent downward from the sandwiching portion 3a in the middle of the combustion gas flow passage 7 and protrudes into the combustion gas passage 7. The sandwiching portion 3a has a bent side end. Several screw holes 6a for connecting with a plurality of rectangular combustion gas flow paths 11 having a width smaller than the fin pitch and the screws 6 are provided in close proximity. Further, in the bent portion 3b, the center is bent in a substantially rectangular shape in the vertical direction to form a rectangular bent piece 10. .

The parallel plate 3 configured as described above is sandwiched between the combustion drum 1 and the exhaust chamber 2, and as shown in FIG. 1 is protruded in a direction orthogonal to the flow path 7 of the combustion gas flowing through the gap between the fin 1 and the fin 12 by partially blocking the flow path 7 and the bent portion 3b is parallel to the fin 12 from the sandwiching portion 3a. As it is bent into a curved shape, resistance to the rising combustion gas is added, so the flow velocity of the combustion gas flowing from the combustion drum 1 into the exhaust chamber 2 is reduced, and the endothermic effect in the heat exchange drum and fin is increased. It is a thing.

At the same time, the rate at which the carbon and the like contained in the combustion gas rises is reduced, so that the carbon and the like that are generated during combustion and are in a high temperature state at the time of generation are sufficiently cooled before reaching the exhaust chamber 2. , There is no need to worry about ignition in the exhaust chamber.

Furthermore, the flow velocity of the combustion gas can be adjusted by appropriately imparting resistance to the combustion gas rising in the flow path 7 due to the characteristic shape of the bent portion 3b of the parallel plate 3.

Further, the bent portion 3b is formed with a gap between the fins 12 and the fin pitch e or less, and the gap e or less is used as a gas flow path to make the rising speed of the combustion gas inside and outside the fins uniform. It became possible to do.

[0028]

[Effect of device]

 In the present invention, the flow velocity of the combustion gas is reduced by disposing a parallel plate between the combustion drum and the exhaust chamber, and furthermore, one end of the parallel plate is adjusted in and out between the combustion drum and the exhaust chamber. It is sandwiched freely, and the other end of the parallel plate extends in a direction orthogonal to the flow path of the combustion gas, and the extension end bends downward and extends for a predetermined length. On the other hand, since the fins are formed in parallel with each other at a pitch interval of less than or equal to each other, the flow path of the combustion gas flowing through the corners of the heat exchange drum is partially blocked, the flow velocity of the combustion gas is reduced, and the heat exchange is performed. Since the heat absorption effect of the drum and fins is enhanced, the carbon, which is the ignition source that is discharged to the exhaust chamber through the heat exchange drum like the combustion gas, is sufficiently cooled. In addition, the rising speed of the combustion gas can be made uniform in the gap between the fins and the gap between the fins and the combustion drum.

[Brief description of drawings]

FIG. 1 is a perspective view showing a water heater exhaust structure of the present invention.

FIG. 2 is a cross-sectional view showing the structure of the water heater exhaust part of the present invention.

FIG. 3 is a perspective view showing a structure of parallel plates.

FIG. 4 is a plan view of a parallel plate.

FIG. 5 is a side view of a parallel plate.

FIG. 6 is a rear view of the parallel plate.

7 is an exploded view of the R portion in FIG.

FIG. 8 is a partially cutaway front view showing the overall structure of the water heater.

FIG. 9 is a side view showing the overall structure of the water heater.

FIG. 10 is a sectional view illustrating a conventional technique.

[Explanation of sign]

 A water heater e gap 1 heat exchange drum 2 exhaust chamber 3 parallel plate 3b bent portion 7 combustion gas flow path 12 fins 26 heat exchange portion

Front page continued (72) Inventor Hiroki Maruyama 43-1, Uozakihama-cho, Higashinada-ku, Kobe-shi, Hyogo Nihon Yupro Co., Ltd. (72) Inventor Mikio Ochi 43-1, Uozakihama-cho, Higashinada-ku, Kobe, Hyogo Nihon Yupro Co., Ltd. (72) Takeshi Shimoyama 43-1 Uozakihama-cho, Higashinada-ku, Kobe-shi, Hyogo Nihon Yupro Co., Ltd.

Claims (1)

[Scope of utility model registration request] 1. A rectangular cylindrical combustion drum (1) having plate-shaped fins (12) vertically arranged at regular intervals in an inner central portion thereof, and the drum (1) having an upper edge portion having a drum shape. Exhaust chamber of the same shape as (2)
Water heater having heat exchange section (26) on which lower edge of
In (A), between the combustion drum (1) and the exhaust chamber (2),
One end of the parallel plate (3) is clamped so that it can be moved in and out freely.
The other end of (3) extends in the direction orthogonal to the flow path (7) of the combustion gas formed between the inner wall surface of the combustion drum (1) and the side surface of the fin (12), and the extension end is extended. The water heater exhaust structure, which is bent downward and extended for a predetermined length, and the bent portion (3b) is formed in parallel with the fins (12) with a fin pitch gap (e) or less. .