JP2952952B2 - Stove with built-in hot water heat exchanger - Google Patents

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a household stove with a built-in hot water heat exchanger.

2. Description of the Related Art In recent years, particularly in stoves mainly for radiant heating, stoves with a built-in hot water heat exchanger for performing hot water type simple floor heating for the purpose of improving indoor temperature distribution have been developed and used. It has become.

Conventionally, this type of stove has a combustion cylinder 32 connected above a burner 31 as shown in FIG. 4 and FIG. Is attached with a heat-resistant glass 34, and the light of the red-hot body 33 is radiated from the heat-resistant glass 34 together with heat. A main heat exchanger 35 is connected to the combustion tube 32,
A hot water heat exchanger 37 having a hot water pipe 36 therein is branched from the middle of the main heat exchanger 35, and a damper 38 for switching the flow of combustion gas is provided at the branch portion, and passes through the hot water heat exchanger 37. It is configured to control the temperature of hot water by controlling the combustion gas generated. Further, the hot water heat exchanger 37
Has an outlet connected to the main heat exchanger 35 and an exhaust 39
Leads to. The stove has a built-in sub tank 40 for hot water and a circulation pump 41, and circulates hot water to a floor heating panel (not shown).

In the stove configured as described above, during simultaneous operation of the floor heating and the radiant heating from the stove, the fuel is burned by the burner 31 to form a flame, and the generated combustion gas is a red hot body 33 inside the combustion cylinder 32. Heat to glow red. The combustion gas passing through the combustion tube 32 is supplied to the damper 38 by the hot water heat exchanger.
When the hole 37 is open, it passes through the hot water heat exchanger 37 and heats the hot water pipe 36 to warm the water flowing therethrough. The warmed water is sent to the floor heating panel by the circulation pump 41 to perform floor heating. At this time, the damper 38 is
It rotates to the side or the main heat exchanger 35 side to control the temperature of the hot water. In addition, this type of stove does not operate the circulation pump 41, rotates the damper 38 toward the main heat exchanger 38, closes the hot water heat exchanger 37, does not perform floor heating, and performs only radiant heating from the stove. You can also do.

Problems to be Solved by the Invention In such a conventional stove with a built-in hot water heat exchanger,
The combustion gas passing through the hot water heat exchanger 37 heats the red hot body 33 and the combustion tube 32 to get there and is deprived of heat, and also heats the main heat exchanger 35, so the temperature is considerably low. Has become. As a result, the heat exchange efficiency in the hot water heat exchanger 37 is poor, and a hot water heat exchanger larger than necessary is required to obtain the amount of heat required for floor heating. Also, since the gas temperature at that time is low and the temperature of the hot water pipe of the hot water heat exchanger 37 is also low,
Moisture in the combustion gas easily condenses on the surface of the hot water pipe, and it is necessary to treat the dew condensation water.To reduce the amount of dew condensation water, increase the excess air volume during combustion and increase the moisture concentration in the combustion gas. Was also required to be reduced. further,
The combustion gas that passed through the hot water heat exchanger had a considerably reduced temperature, was further cooled by the main heat exchanger that subsequently passed, and was sometimes condensed in the exhaust pipe or the supply / exhaust pipe.

SUMMARY OF THE INVENTION It is an object of the present invention to solve the above-mentioned problems, and to obtain a calorie necessary for floor heating with a small hot water heat exchanger and to reduce the amount of dew condensation of moisture in combustion gas in the hot water heat exchanger.

Means for Solving the Problems In order to achieve the above object, the present invention has a burner and a glow body provided above the flame generated by the burner inside thereof, and has a A combustion tube equipped with a heat-resistant glass that radiates light of a red-hot body forward, a main heat exchanger that communicates with the combustion tube and emits heat for heating by radiation and convection from the surface, and a rear side of the combustion tube. ,
And a hot water heat exchanger having a heat exchanger for hot water therein communicating with a branch port provided at a location located in the middle of the red heat body, and an exhaust portion for combustion gas passing through the main heat exchanger And the outlet of the combustion gas via the hot water heat exchanger is communicated with the exhaust switching chamber, the combustion gas is exhausted from the exhaust pipe, and the flow of the combustion gas is selected to the main heat exchanger or the hot water heat exchanger. And a switching damper for switching the exhaust gas in the exhaust gas switching chamber.

According to the present invention, a path for flowing the hot gas heat exchanger from the branch port of the combustion cylinder as a path of the combustion gas and a path for flowing the main heat exchanger from the combustion cylinder as the paths of the combustion gas are provided independently of each other. The outlet side faces the exhaust switching chamber provided in communication with the exhaust pipe, and the flow of the combustion gas is switched to the hot water heat exchanger side path or the main heat exchanger side path by the switching damper. When switched to the side, the high-temperature combustion gas flows into the hot water heat exchanger, the heat exchange efficiency in the hot water heat exchanger is improved, and the size of the hot water heat exchanger can be reduced. At the same time, it is possible to prevent moisture in the combustion gas from condensing on the surface of the heat exchanger for hot water provided in the hot water heat exchanger, and to eliminate a complicated configuration required for dew condensation water treatment. Further, the temperature of the combustion gas discharged from the exhaust pipe can be maintained at a high temperature, and dew condensation on the exhaust pipe can be prevented. Further, the combustion gas that has passed through the hot water heat exchanger 10 flows directly from the exhaust switching chamber 13 to the exhaust pipe 16, which can prevent condensation in the exhaust pipe 16 or the supply / exhaust pipe 17.

Embodiment An embodiment of the present invention will now be described with reference to FIGS.
This will be described with reference to FIGS.

1 to 3, reference numeral 1 denotes a burner that burns liquid fuel, 2 denotes a fuel pump that sends fuel to the burner 1, and a blower fan that sends combustion air to the burner 1. Above the burner 1, a combustion cylinder 5 having a red heat body 4 inside is connected in series, and a main heat exchanger 6 is connected to the upper part thereof. 7
Is a heat-resistant glass attached to the front surface of the combustion tube 5, and is configured to radiate light and heat of the red heater 4 to the front of the stove through an opening 8 in the front surface of the main body. A hot water heat exchanger 10 containing a hot water pipe (heat exchanger) 9 is provided at a rear portion of the combustion tube 5, and an inlet side thereof communicates with the main heat exchanger 6 of the combustion tube 5. It is connected to a branch port 11 provided on the back side closer to the burner. An exhaust switching chamber 13 is provided at the outlet 12 of the hot water heat exchanger 10, and the exhaust switching chamber 13 is connected to the exhaust section 14 of the main heat exchanger 6. Further, a switching damper 15 is provided in the exhaust switching chamber 13,
The passage of the combustion gas is configured to be selected from either the main heat exchanger 6 or the hot water heat exchanger 10. The exhaust switching chamber 13 is connected to an exhaust pipe 16 and discharges exhaust gas to the outside through a supply / exhaust tube 17. One of the hot water pipes 9 is connected to the hot water return port 18 and the other is connected to the sub-tank 19. Hot water is supplied from the sub-tank 19 to the external floor heating panel (not shown) from the hot water outlet 21 by the circulation pump 20. Is returned to the hot water return port 18 again.

The operation will be described in the above configuration. First, at the time of simultaneous operation of the floor heating and the radiant heating of the stove, the burner 1 starts the combustion by the liquid fuel sent from the fuel pump 2 and the combustion air sent from the blower fan 3. Generates flames and combustion gases. The combustion gas first heats the glow 4 at the top of the burner 1 to glow red. At this time, red hot body 4
Radiates the heat and light from the heat-resistant glass 7 attached to the combustion tube 5 to the front surface through the opening 8 in the front surface of the main body.
On the other hand, the circulation pump 20 has started operating for floor heating, and the switching damper 15 has also been switched to the floor heating side (the state shown by the solid line in the figure). Therefore, the combustion gas that has passed through the red heat body 4 does not flow to the main heat exchanger 6 above the combustion tube 5, but flows from the branch port 11 on the back surface of the combustion tube 5 to the hot water heat exchanger 10. The combustion gas that has entered the hot water heat exchanger 10 heats the hot water pipe 9 therein. In the hot water pipe 9, water (hot water) for floor heating is flowed by the circulation pump 20. The water is heated to become hot water, exits the hot water outlet 21 from the sub tank 19 and the circulation pump 20, and returns to the hot water return port 18 to circulate. The combustion gas that has passed through the hot water heat exchanger 10 then flows from the outlet 12 to the exhaust switching chamber 13, passes through the exhaust pipe 16, and is exhausted outside through the air supply / exhaust pipe 17 as exhaust gas.

Here, after the combustion gas flowing to the hot water heat exchanger 10 is generated by the burner 1, a part of the combustion gas passes through the red heat body 4.
The rest goes directly from the burner 1 without passing through the glow 4
Leads to. Therefore, the combustion gas flowing to the hot water heat exchanger 10 does not flow to the main heat exchanger 6 and is not deprived of heat by the main heat exchanger 6, and has a considerably higher temperature than the conventional one. And the heat exchange efficiency is improved. As a result, a sufficient amount of heat required for floor heating can be obtained. In addition, since the temperature of the combustion gas is high, moisture in the combustion gas does not easily condense on the surface of the hot water pipe 9 having a low temperature, so that the treatment of the dew condensation water is unnecessary. There is no need to increase the air ratio at the time (increase the excess air) and reduce the combustion efficiency. The combustion gas that has passed through the hot water heat exchanger 10 is discharged from the exhaust switching chamber 13 to the exhaust pipe 16.
, The water is not cooled by the main heat exchanger 6, and no condensation occurs in the exhaust pipe 16 or the exhaust pipe 17.

Further, in the case of this embodiment, it is possible to operate only the stove without heating the floor, but in this case, the circulation pump 20 is not operated, and the switching damper 15 is switched to the position shown by the broken line in FIG. The gas does not flow into the hot water heat exchanger 10, but flows into the main heat exchanger 6, where it is prevented from heat by the main heat exchanger 6, enters the exhaust switching chamber 13 from the exhaust part 14 of the main heat exchanger 6, and is exhausted through the exhaust pipe 16. .

As described above, according to the embodiment of the present invention, the hot water heat exchanger
By branching 10 from the combustion tube 5, the main heat exchanger 6
The temperature of the combustion gas entering the hot water heat exchanger 10 is higher than that branched from the heat exchanger, and a sufficient amount of heat required for floor heating can be obtained, so that a relatively small heat exchanger for hot water is sufficient. In addition, the moisture in the combustion gas is less likely to condense on the surface of the hot water pipe (heat exchanger) 9, eliminating the need for dew water treatment. Is not reduced. Further, it is possible to prevent the combustion gas that has passed through the hot water heat exchanger 10 from being condensed in the exhaust pipe 16 or the supply / exhaust pipe 17.

Although the above embodiments have been described with reference to the heat exchanger for floor heating using hot water, the present invention is not limited to floor heating, and other radiators may be used. In addition, the stove is a radiant stove, but the same applies to a warm air type stove, and the fuel may be a gas fuel instead of a liquid fuel.

Effects of the Invention As is clear from the above embodiments, according to the present invention, the branch port for branching the combustion gas to the hot water heat exchanger is located on the back side of the combustion cylinder and at a location located in the middle of the red hot body. Because it is provided in a limited manner, it is possible to suppress heat absorption of the combustion gas in the main heat exchanger and red heat body, supply high-temperature combustion gas to the hot water heat exchanger, and obtain the amount of heat required for floor heating. A relatively small heat exchanger for hot water is sufficient, and the problem of moisture condensation in the hot water heat exchanger and in the exhaust pipe and supply / exhaust tube is eliminated. Become.

In addition, since the switching damper is configured to be provided in the combined exhaust switching chamber after passing through the main heat exchanger and the hot water heat exchanger, the switching damper is not exposed to high-temperature combustion gas, Deformation and the like can be prevented, durability can be improved, and the heat resistance of the component parts can be alleviated, making design easier.

Although not described in the embodiments, according to the present invention, the branch of the combustion cylinder to the hot water heat exchanger is provided on the back of the combustion cylinder, so that even if the inside is seen through the heat resistant glass on the front, the red heat There is also an effect that there is no unnatural appearance because the branch opening is located behind.

[Brief description of the drawings]

FIG. 1 is a sectional view showing the internal configuration of a stove with a built-in hot water heat exchanger according to one embodiment of the present invention, FIG. 2 is a sectional view taken along line AA of FIG. 1, and FIG. B sectional view, FIG. 4 is a sectional view showing the internal configuration of a conventional stove with a built-in temperature heat exchanger,
FIG. 5 is a sectional view taken along line AA of FIG. 1 burner, 4 red heat body, 5 combustion cylinder, 6 main heat exchanger, 7 heat resistant glass, 9 hot water pipe (heat exchanger), 10 hot water heat exchanger , 11 ... Branch, 14 ...
Exhaust unit, 15 ... Switching damper.

──────────────────────────────────────────────────続 き Continued on the front page (58) Field surveyed (Int. Cl. ⁶ , DB name) F24H 6/00 F24C 13/00 F24C 3/00

Claims (1)

(57) [Claims] A burner; and a glow body provided above the flame generated by the burner.
A combustion tube having a heat-resistant glass for radiating light of a red-hot body forward on the front surface, a main heat exchanger communicating with the combustion tube and emitting heat for heating by radiation and convection from the surface thereof, and the combustion tube On the back side of, and through a hot water heat exchanger having a heat exchanger for hot water therein communicating with a branch port provided at a location located in the middle of the red heat body and the main heat exchanger The exhaust part of the combustion gas and the outlet part of the combustion gas via the hot water heat exchanger communicate with the exhaust switching chamber,
A stove with a built-in hot water heat exchanger, comprising a switching damper in the exhaust switching chamber, wherein a switching damper for exhausting combustion gas from an exhaust pipe and selecting and switching a flow of the combustion gas to the main heat exchanger or the hot water heat exchanger is provided.