JP7307336B2 - Forced exhaust hot water supply system - Google Patents

Description

TECHNICAL FIELD The present invention relates to a forced air supply/exhaust hot water supply apparatus that supplies combustion air and exhausts combustion gas with a blower fan.

2. Description of the Related Art Conventionally, a forced air supply/exhaust hot water supply system that supplies combustion air and exhausts combustion gas with a blower fan has been widely used. This forced air supply/exhaust hot water supply apparatus can be installed indoors, but for safety reasons, high airtightness is required for air supply and exhaust air passages.

For example, Patent Literature 1 describes a technique for ensuring sufficient airtightness by means of an annular packing at a junction between an air supply duct and a blower fan of a forced air supply/exhaust water heater. Then, when the vibration accompanying the driving of the blower fan is transmitted to the air supply duct, part of the vibration is attenuated by the packing at the joint portion, so that noise can be reduced.

JP 2012-13262 A

However, the rotation speed of the blower fan is adjusted in order to adjust the blowing amount according to the combustion state. Then, when the rotational speed is adjusted, the vibration frequency of the blower fan may approach the resonance frequency of the air supply duct at a specific rotational speed, resulting in the generation of loud noise.

In the forced air supply/exhaust hot water supply apparatus of Patent Document 1, the vibration of the blower fan is transmitted to the air supply duct while being attenuated by the packing. Therefore, there is a demand for a technology capable of further suppressing noise in forced air supply/exhaust water heaters that can be installed indoors.

SUMMARY OF THE INVENTION An object of the present invention is to provide a forced air supply/exhaust water heater capable of suppressing noise generation from an air supply duct.

A forced air supply/exhaust water heater according to the first aspect of the invention comprises a blower fan, a burner for receiving combustion air supplied from the blower fan to burn fuel, a burner case for housing the burner, and combustion of the burner. a heat exchanger for heating hot water by heat exchange with the combustion gas generated by the above; an exhaust pipe for exhausting the combustion gas after heat exchange; A forced air supply/exhaust water heater comprising an air supply duct that supplies combustion air from a supply cylinder to the blower fan, wherein a downstream end of the air supply duct and the blower fan are connected with a packing therebetween. A vibration isolator for reducing vibration of the air supply duct is disposed between the burner case and the air supply duct so as to press the air supply duct.

According to the above configuration, the packing is arranged at the connecting portion between the blower fan and the air supply duct to ensure airtightness, and at the same time, vibration transmitted from the blower fan to the air supply duct is attenuated. Since the vibration isolator is arranged between the burner case and the air supply duct so as to press the air supply duct, vibration of the air supply duct can be reduced.

According to a second aspect of the invention, there is provided a forced exhaust hot water supply apparatus according to the first aspect of the invention, wherein the vibration-damping material is disposed below a combustion space provided in the upper part of the burner case. It is characterized by having
According to the above configuration, since the vibration-isolating material is arranged so as to press the portion of the air supply duct near the blower fan, it is possible to effectively reduce the vibration of the air supply duct and suppress the generation of noise. can. In addition, since the portion of the burner case below the combustion space is not directly exposed to the high-temperature combustion gas and does not become hot, it is possible to dispose a widely used inexpensive vibration-damping material in this portion. Therefore, the manufacturing cost of the forced air supply/exhaust water heater can be suppressed.

According to a third aspect of the invention, there is provided a forced supply and exhaust hot water supply apparatus according to the first aspect of the invention, wherein the vibration isolator is a burner case flange portion for connecting the upper end of the burner case to the lower end of the heat exchanger portion. It is characterized in that it is arranged at a nearby site.
According to the above configuration, the vibration-isolating material is arranged so as to press the middle part of the supply duct in the vertical direction, where vibration is most likely to occur. can be suppressed. In addition, since the burner case flange portion is not directly exposed to high-temperature combustion gas and does not become hot, it is possible to dispose a widely used inexpensive vibration-damping material in this portion. Since the flange protrudes from the burner case main body, the thickness of the vibration-proof material can be reduced, so that the manufacturing cost of the forced supply/exhaust water heater can be suppressed.

According to the forced air supply/exhaust hot water supply apparatus of the present invention, it is possible to suppress noise generation from the air supply duct.

1 is a front view of a forced air supply/exhaust water heater according to an embodiment of the present invention with a front panel removed; FIG. FIG. 2 is a sectional view taken along line II-II of FIG. 1;

An embodiment of the present invention will be described below with reference to FIGS. 1 and 2. FIG.
The forced air supply/exhaust water heater 1 (forced air supply/exhaust water heater) includes a blower fan 3, a burner 4 for receiving combustion air supplied from the blower fan 3 to burn fuel, and a burner. 4, and a heat exchanger section 6 for heating hot water by heat exchange with combustion gas generated by combustion of the burner 4, and the like.

The exterior case 2 is formed in a box shape with an open front surface, and a front panel 2a covering the front surface is detachably attached. The rear panel 2b of the exterior case 2 has a mounting plate 2c extending upward and a mounting plate 2d extending downward. Then, the hot water supply device 1 is attached.

A supply cylinder 7 and an exhaust cylinder 8 are arranged on the upper surface of the exterior case 2 . The supply cylinder 7 introduces combustion air from the outside of the water heater 1 as indicated by an arrow A. The exhaust pipe 8 discharges the combustion gas after heat exchange in the heat exchanger 6 to the outside of the water heater 1 as indicated by an arrow E. The air supply pipe 7 and the exhaust pipe 8 are connected to an air supply pipe and an exhaust pipe (not shown) communicating with the outside, respectively. Although the intake cylinder 7 and the exhaust cylinder 8 have a double pipe structure in which the intake cylinder 7 covers the exhaust cylinder 8, they may be provided separately.

An air supply box 9 is connected to the lower end of the air supply cylinder 7 , and an air supply duct 10 is connected to a side portion on the back side of the air supply box 9 . The air supply duct 10 extends downward, and a lower downstream end portion 10 a of the air supply duct 10 is connected to the intake portion 3 a of the blower fan 3 . Combustion air supplied to the air supply cylinder 7 from the outdoors is supplied to the blower fan 3 via the air supply box 9 and the air supply duct 10 . A blower part 3 b of the blower fan 3 is connected to the lower end of a burner case 5 in which the burner 4 is housed, and supplies combustion air to the burner 4 .

The burner 4 is housed in the middle portion of the burner case 5 in the vertical direction, and a combustion space B is provided in the upper portion of the burner case 5 above the burner 4 . The burner 4 burns fuel (for example, natural gas, petroleum, etc.) supplied from the fuel supply unit 11 to the burner 4 in the combustion space B to generate combustion gas. Combustion gas flows upward and is introduced into the heat exchanger section 6 connected to the upper end of the burner case 5 .

The heat exchanger section 6 has a fin-and-tube heat exchanger 6a and a heat exchanger case 6b that houses the heat exchanger 6a. The heat exchanger case 6b has an open upper and lower portion. there is When the combustion gas introduced into the heat exchanger case 6b flows upward, it exchanges heat with hot water flowing through the heat transfer tubes of the heat exchanger 6a to heat the hot water. Although not shown, the side surface of the heat exchanger case 6b is provided with a detection unit of a safety device that stops combustion by detecting leakage of combustion gas from holes formed in the burner case 5 due to aged deterioration, for example. be done.

The lower portion of the air supply box 9 is formed with an exhaust collecting portion 9a covering the upper portion of the heat exchanger case 6b. The heat-exchanged combustion gas that has passed through the heat exchanger section 6 is collected by the exhaust collecting section 9a toward the exhaust stack 8 and discharged from the exhaust stack 8 to the outside.

The hot water heated by the heat exchanger unit 6 is supplied to the hot water supply heat exchanger 12, and the clean water supplied to the hot water supply heat exchanger 12 from the water supply unit 13 disposed on the lower surface of the exterior case 2 is used. heat up. The hot water obtained by heating the clean water is mixed with the clean water for temperature adjustment, and is supplied from the hot water supply unit 14 to a hot water tap (not shown) or the like. The hot water heated by the heat exchanger unit 6 can also be used for reheating the bath or heating the room.

The air supply duct 10 is fixed to the inner wall of the back panel 2b of the exterior case 2. As shown in FIG. An upstream end portion 10b of the air supply duct 10 is formed to open forward and is fixed by screws or the like so as to communicate with an air supply passage portion 9b formed in the upper portion of the air supply box 9 .

A downstream end portion 10a of the air supply duct 10 is formed to open forward, and an elastically deformable annular packing 15 is sandwiched between the air intake portion 3a of the blower fan 3 so as to be compressed. It is connected so as to communicate with the intake portion 3a. The packing 15 secures the airtightness of the air supply passage at the connecting portion between the air supply duct 10 and the blower fan 3 .

The lower part of the burner case 5 is screwed to a bracket 16 that supports the burner case 5 , and is fixed to the air supply duct 10 via the bracket 16 . The blower fan 3 is fixed to the lower end of the burner case 5 with screws or the like. A heat exchanger portion 6 is mounted on a burner case flange portion 5a which is formed at the upper end of the burner case 5 so as to protrude from the burner case 5 in the horizontal direction and is fixed by screws or the like. An air supply box 9 having an exhaust collecting portion 9a is mounted on a heat exchanger flange portion 6c formed at the upper end of a heat exchanger case 6b of the heat exchanger portion 6 and fixed with screws or the like.

As described above, the blower fan 3, the burner case 5 housing the burner 4, the heat exchanger section 6, and the air supply box 9 are connected, and the burner case 5 and the air supply box 9 are attached to the back panel 2b of the exterior case 2. It is fixed to a fixed air supply duct 10 . Although illustration is omitted, sealing members for preventing leakage of combustion gas are also provided at connecting portions between these devices.

The blower fan 3 vibrates during driving. This vibration is transmitted to the burner case 5 and the air supply duct 10 connected to the blower fan 3 . The burner case 5 housing the burner 4 is heavy, and the heat exchanger 6 fixed thereon is also heavy.

On the other hand, since the air supply duct 10 is hollow and elongated in the vertical direction, the vibration of the air supply duct 10 is transmitted to the air supply duct 10 while being attenuated by the packing 15, and vibrates more easily than the burner case 5. - 特許庁In particular, the flat plate portion 10c extending vertically on the front side of the air supply duct 10 is a portion that easily vibrates. Since the rotation speed of the blower fan 3 is adjusted according to the combustion state, when the frequency of the vibration of the blower fan 3 approaches the resonance frequency of the air supply duct 10, the vibration of the air supply duct 10 rapidly increases due to the resonance. , a large amount of noise may be generated.

In order to suppress the vibration of the air supply duct 10, the vibration isolator 20 for reducing the vibration of the air supply duct 10 is arranged between the burner case 5 and the air supply duct 10 so as to press the flat plate portion 10c of the air supply duct 10. is placed in The vibration isolator 20 is disposed in a portion below the combustion space B provided in the upper stage of the burner case 5, and presses a portion of the flat plate portion 10c of the air supply duct 10 near the blower fan 3 to supply air. To suppress the generation of noise by reducing the vibration of a duct 10. - 特許庁It also absorbs the generated noise. The vibration isolator 20 provided at this portion does not interfere with detection of leaked combustion gas by the safety device.

A vibration isolator 20 is disposed in the vicinity of the burner case flange portion 5a, and presses the middle portion of the flat plate portion 10c of the vertically long air supply duct 10, which is likely to vibrate, to reduce vibration of the air supply duct 10 and reduce noise. It is also possible to suppress the occurrence of The vibration isolator 20 may be provided both in a portion below the combustion space B provided in the upper stage of the burner case 5 and in a portion near the burner case flange portion 5a.

The vibration isolator 20 is provided between the burner case 5 and the air supply duct 10 by compressing glass wool, for example. The restoring force of the vibration isolator 20 trying to return from the compressed state acts to press the air supply duct 10 and the burner case 5 . In order to prevent the vibration isolator 20 from falling, the vibration isolator 20 may be adhered to the air supply duct 10 . As the anti-vibration material 20, other than the glass wool material, a rock wool material, a polyimide foam, or the like may be used. They are widely available, so they are readily available and inexpensive.

The operation and effects of the hot water supply apparatus 1 will be described.
The hot water supply apparatus 1 has a packing 15 arranged at the joint between the blower fan 3 and the air supply duct 10 to ensure the airtightness of this joint, and at the same time damps the vibration of the blower fan 3 transmitted to the air supply duct 10. there is Since the vibration isolator 20 is arranged between the burner case 5 and the air supply duct 10 so as to press the air supply duct 10, the vibration of the air supply duct 10 can be reduced.

In addition, since the vibration isolator 20 is arranged so as to press the portion of the air supply duct 10 near the blower fan 3, the vibration of the air supply duct 10 can be effectively reduced to suppress the generation of noise. can. Since the portion below the combustion space B in the upper stage of the burner case 5 is not directly exposed to high-temperature combustion gas and does not become hot, a widely used inexpensive vibration-damping material 20 is placed in this portion. Therefore, the manufacturing cost of the water heater 1 can be suppressed.

Since the vibration isolator 20 is arranged so as to press the part of the air supply duct 10 which is most likely to vibrate in the vertical direction, the vibration of the air supply duct 10 is effectively reduced to suppress the generation of noise. can be done. Since the burner case flange portion 5a is not directly exposed to high-temperature combustion gas and does not become hot, the widely used inexpensive vibration-damping material 20 can be disposed in this portion. Further, since the burner case flange portion 5a protrudes from the burner case 5, the thickness of the vibration-isolating material 20 can be reduced and the amount of the vibration-isolating material 20 used can be reduced, thereby suppressing the manufacturing cost of the water heater 1. be able to.

In addition, those skilled in the art can implement various modifications to the above-described embodiments without departing from the scope of the present invention, and the present invention includes such modifications.

1: Hot water heater (forced supply and exhaust type hot water heater)
2: Exterior case 2b: Rear panel 3: Blower fan 3a: Intake part 3b: Blower part 4: Burner 5: Burner case 5a: Burner case flange part 6: Heat exchanger part 7: Supply cylinder 8: Exhaust cylinder 9: Supply Air box 9a: Exhaust collecting part 9b: Air supply passage part 10: Air supply duct 10c: Flat plate part 11: Fuel supply part 12: Hot water supply heat exchanger 13: Water supply part 14: Hot water supply part 15: Packing 16: Bracket 20: Anti-vibration material B: Combustion space

Claims (3)

A blower fan, a burner that receives combustion air supplied from the blower fan to burn fuel, a burner case that houses the burner, and heats hot water by heat exchange with combustion gas generated by combustion of the burner. a heat exchanger unit, an exhaust pipe for discharging combustion gas after heat exchange, an air supply cylinder for introducing combustion air from the outside, and an air supply for supplying combustion air from the air supply cylinder to the blower fan. A forced air supply/exhaust hot water supply apparatus including an air duct, wherein a downstream end of the air supply duct and the blower fan are connected with a packing sandwiched therebetween,
A forced air supply/exhaust water heater, wherein a vibration isolator for reducing vibration of the air supply duct is disposed between the burner case and the air supply duct so as to press the air supply duct. . 2. The forced supply and exhaust hot water supply apparatus according to claim 1, wherein said vibration-damping material is arranged below a combustion space provided in an upper stage of said burner case. 2. The force feeder according to claim 1, wherein the vibration isolator is disposed in the vicinity of a burner case flange portion for connecting the upper end of the burner case to the lower end of the heat exchanger portion. Exhaust water heater.

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