JP3798065B2 - Fan motor cooling device and combustion appliance provided with the fan motor cooling device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention includes a fan motor cooling device that cools a fan motor for driving a combustion fan, and a fan motor cooling device that is provided in a combustion appliance having a combustion fan that sucks combustion exhaust gas and forcibly guides the exhaust gas to the exhaust outlet side. It relates to a burning appliance.
[0002]
[Prior art]
Conventionally, various combustion appliances such as a water heater and a bath tub have been used. As an example of the combustion appliance, for example, as shown in FIG. 5, a combustion fan 3 is provided on the exhaust port 15 side of the combustion chamber 14, and the combustion chamber is provided. A so-called forced exhaust type combustion apparatus is used in which the combustion exhaust gas generated at 14 is sucked by the combustion fan 3 and the combustion exhaust gas is forcibly guided to the exhaust outlet side as indicated by an arrow B in FIG. The combustion fan 3 is connected to a fan motor for driving the combustion fan. In the combustion appliance 1 shown in FIG. 5, the rotary shaft 4 of the combustion fan 3 is exhausted from the exhaust side of the combustion chamber 14. It protrudes to the outside (upper side) through the side chamber wall 21, and the fan motor 5 is connected to the protruding tip side to form a combustion fan device.
[0003]
In this type of combustion fan device, the exhaust port 15 side of the combustion chamber 14 is at a considerably high temperature when a burner (not shown) provided in the combustion chamber 14 is combusted. The region is at a very high temperature. The temperature of the fan motor 5 connected to the combustion fan 3 also becomes high, and when a motor control board (not shown) provided in the fan motor 5 is exposed to a high temperature, the motor control board or the like breaks down. For this reason, a fan motor cooling device for cooling the fan motor is provided in the combustion appliance 1.
[0004]
The fan motor cooling device shown in FIG. 5 has the following configuration. . You That is, a cut-and-raised cooling blade 18 for cooling the fan motor 5 is provided on the rotating shaft 4, and this cooling blade 18 is arranged in a pipe line 24 provided around an exhaust cylinder 25 for exhausting exhaust gas. Has been established. Then, by rotating the cut-and-raised cooling blade 18, the air around the cooling blade 18 is agitated. At this time, the combustion exhaust gas in which the air in the conduit 24 flows as shown by the arrow B in the figure The air is flown as shown by an arrow A, and the air introduced from the air inlet 9 is guided into the duct 24 through the fan motor 5 by the air flow due to the draft effect. The fan motor 5 is cooled by the air flow.
[0005]
[Problems to be solved by the invention]
However, in the fan motor cooling apparatus having the configuration shown in FIG. 5, the cooling blade 18 is formed in a cut-and-raised shape, and the air around the cooling blade 18 is merely stirred. Is guided to the upper side of the pipe line 24 by the draft effect, and only the air flow from the air introduction port 9 through the fan motor 5 is formed. Therefore, the flow is weak and the fan motor 5 is sufficiently cooled. I could not get the effect.
[0006]
Further, since the pipe line 24 is formed around the exhaust cylinder 25, the pipe line for exhaust gas becomes thick, the construction when the combustion appliance 1 is attached becomes difficult, and the appearance also deteriorates. there were.
[0007]
The present invention has been made in order to solve the above-described conventional problems. The object of the present invention is to sufficiently cool the fan motor in the combustion fan device, and to make the installation work of the combustion appliance difficult. It is an object of the present invention to provide a fan motor cooling device and a combustion appliance provided with the fan motor cooling device that do not impair the appearance or appearance.
[0008]
[Means for Solving the Problems]
In order to achieve the above object, the present invention provides means for solving the problems by the following configuration. That is, the first invention of the fan motor cooling device is the exhaust port side of the combustion chamber of the combustion appliance. Combustion chamber Provided with a combustion fan that sucks combustion exhaust gas and forcibly guides it to the exhaust port, and a rotating shaft of the combustion fan forms an exhaust port side space through which the combustion exhaust gas generated in the combustion chamber flows to the exhaust port Combustion chamber A fan motor cooling device for cooling a fan motor of a combustion fan device of a type protruding outward through an exhaust side chamber wall and having a fan motor connected to the protruding tip side of the fan motor, and a fan motor outside the exhaust side chamber wall The rotating shaft is covered with a motor case, and the motor case is provided with an air inlet from the outside of the combustion appliance at a position opposite to the rotating shaft on the side facing the fan motor. The rotating shaft is provided with cooling fins for cooling the rotating shaft, and the cooling fins rotate about the rotating shaft as an axis to allow the air introduced from the air inlet to flow along the rotating shaft. The motor case has a side wall of the motor case, and an air discharge opening is formed in a region directly below the cooling fin so that the air introduction port After passing through the motor, the rotary shaft, and the cooling fin, the passage leading to the exhaust side chamber wall where the rotary shaft protrudes and changing the direction to the air discharge opening along the exhaust side chamber wall is the fan motor cooling. The air passage is formed as a bell mouth structure in which the cross-sectional area of the air passage is narrowed around the cooling fin of the air passage.
[0009]
Further, the second invention of the fan motor cooling device is provided on the exhaust port side of the combustion chamber of the combustion appliance to suck the combustion exhaust gas. Said exhaust To mouth It has a combustion fan forcibly leading, and the rotation shaft of the combustion fan is the combustion chamber An exhaust port side space in which the combustion exhaust gas generated in the gas flows to the exhaust port is formed. A fan motor cooling device for cooling a fan motor of a combustion fan device of a type protruding outward through an exhaust side chamber wall and having a fan motor connected to the protruding tip side of the fan motor, and a fan motor outside the exhaust side chamber wall The rotation shaft is covered with a motor case, and the motor case is formed with an air inlet from the outside of the combustion appliance at a position opposite to the rotation shaft on the side facing the fan motor, The rotating shaft is provided with cooling fins for cooling the rotating shaft, and the cooling fin rotates about the rotating shaft as an axial center to allow the air introduced from the air introduction port to flow along the rotating shaft. It has a propeller shape, and the passage from the air inlet port to the fan motor, the rotating shaft, and the cooling fin is the air for cooling the fan motor. Is formed as a road, said motor case Side of A partition wall protrudes from the wall to the cooling fin side, and a protruding tip end side of the partition wall is formed in a bell mouth structure bent along the air passage. Wall and Between the bottom of the motor case An interval is formed and formed by this interval in front Writing The passage between the cut wall and the bottom of the motor case Through the air passage As a duct passage for leading fan motor cooling air to the outside of the combustion appliance The fan motor cooling air discharge opening is formed at the outlet of the duct passage. And also A partition is provided between the motor case and the internal space of the combustion appliance to separate the motor case from the exhaust outlet side space of the combustion appliance, and the partition is connected to the exhaust side chamber wall. The bottom surface is disposed along the outer surface of the exhaust side chamber wall where the rotary shaft of the combustion fan protrudes, The partition wall is configured to prevent air flow from the duct passage to the air passage side. The It is configured as a feature.
[0010]
further, The third invention of the fan motor cooling device has a combustion fan that is provided on the exhaust port side of the combustion chamber of the combustion instrument and sucks the combustion exhaust gas and forcibly guides it to the exhaust outlet side, and the rotation shaft of the combustion fan Is a fan motor cooling device for cooling a fan motor of a combustion fan device of a type that protrudes outward from the exhaust side of the combustion chamber through the exhaust side chamber wall and has a fan motor connected to the protruding tip side thereof. The fan motor outside the side chamber wall and the periphery of the rotating shaft are covered with a motor case. The motor case is on the side facing the fan motor and introduced to the position opposite to the rotating shaft from the outside of the combustion appliance. An opening is formed, and the rotating shaft is provided with cooling fins for cooling the rotating shaft, and the cooling fin rotates about the rotating shaft as the axis. It has an axial flow propeller shape that allows air introduced from the air introduction port to flow along the rotation shaft, and a passage from the air introduction port to the fan motor, the rotation shaft, and the cooling fin is the air of the fan motor cooling air. A bell mouth structure formed as a passage, a partition wall protruding from the side wall facing the cooling fin of the motor case toward the cooling fin, and the protruding tip side of the partition wall bent along the air passage An opening for discharging the fan motor cooling air passing through the air passage is formed between the front end of the partition wall and the bottom surface of the motor case, and is formed between the partition wall and the bottom surface of the motor case. The passage is configured as a duct passage for guiding the air for cooling the fan motor discharged from the opening to the outside of the combustion appliance, and the partition wall is the duct. A partition that prevents the flow of air from the air passage to the air passage side, and that separates the motor case from the exhaust side space of the combustion chamber of the combustion appliance between the motor case and the internal space of the combustion appliance Is provided. A space is formed between the motor case and the partition wall, and this space forms a space for heat insulation between the air passage for the fan motor cooling air and the combustion chamber. Features as a configuration Has been.
[0011]
further, The fourth invention of the fan motor cooling device comprises the configuration of the first, second or third invention, The center line of the cooling fin in the direction perpendicular to the rotating shaft is Of bellmouth structure Located between the upper and lower ends of the opening Features The
[0012]
Furthermore, the combustion appliance provided with the fan motor cooling device of the present invention, Any one of the first to fourth inventions The fan motor cooling device having the structure is provided.
[0013]
In the present invention configured as described above, the fan motor cooling device is provided with a cooling fin for cooling the rotating shaft on the rotating shaft connecting the combustion fan and the fan motor. An air introduction port from the outside of the appliance is formed, and an air discharge opening is formed in a region directly below the cooling fin on the side wall of the motor case covering the fan motor and the rotating shaft. A passage that reaches the opening through the rotating shaft and the cooling fin is formed as an air passage for cooling the fan motor. Since the periphery of the cooling fin of the air passage is formed in a bell mouth structure in which the cross-sectional area of the air passage is narrowed, the pressure difference between the air inlet and the opening is increased so that the air passing through the air passage The flow velocity can be increased, and the air flow can be created efficiently.
[0014]
The air efficiently flows along the rotating shaft by the air flow, thereby cooling the shaft. Further, the axial flow propeller-shaped cooling fin provided on the shaft further releases the heat of the shaft to the outside. Since the rotating shaft is cooled more efficiently, the fan motor can be sufficiently cooled by air.
[0015]
In addition, in the present invention, unlike the conventional fan motor cooling device that uses the draft effect to form the air flow, the air flow can be efficiently formed along the rotating shaft as described above. For example, it is not necessary to form a separate pipe line around the exhaust pipe of the combustion appliance, and the above-described problem is solved without the construction of the combustion appliance becoming difficult and the appearance not being impaired.
[0016]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings. In the description of the present embodiment, the same reference numerals are assigned to the same name portions as in the conventional example, and the duplicate description thereof is omitted. FIG. 1 is a cross-sectional view of an embodiment of a fan motor cooling device according to the present invention and an embodiment of a combustion appliance equipped with the fan motor cooling device. Similarly to the conventional example, the fan motor cooling device according to the present embodiment also has a combustion fan 3 provided on the exhaust port 15 side of the combustion chamber 14 of the combustion appliance 1 and a rotating shaft 4 formed to protrude from the combustion fan 3. And a fan motor cooling device for a combustion fan device of the type to which the fan motor 5 is connected.
[0017]
In the figure, the fan motor 5 and the rotary shaft 4 outside the exhaust side chamber wall 21 of the combustion appliance 1 are covered with a motor case 8, and the motor case 8 is on the side facing the fan motor 5. An air introduction port 9, which is an introduction port of air from the outside of the combustion appliance 1, is formed at a position opposite to the rotating shaft 4. The rotation shaft 4 is provided with cooling fins 6 for cooling the rotation shaft. The cooling fins 6 rotate around the rotation shaft 4 and allow air introduced from the air introduction port 9 to pass along the rotation shaft 4. It has the shape of an axial flow propeller. The cooling fin 6 is made of, for example, aluminum having high thermal conductivity.
[0018]
Further, in this embodiment, a passage from the air introduction port 9 through the fan motor 5, the rotating shaft 4 and the cooling fin 6 is formed as an air passage for fan motor cooling air, and is formed in the cooling fin 6 of the motor case 8. From the opposite side wall, the partition wall 12 protrudes toward the cooling fin 6 side. The protruding front end side of the partition wall 12 is formed with a bell mouth structure 13 bent along the air passage to form a bell mouth structure wall 13, and the tip of the partition wall 12 and the bottom surface 22 of the motor case 8 are formed. An opening 10 for discharging the fan motor cooling air that passes through the air passage is formed therebetween. In this embodiment, as shown in FIG. 3B, the upper end of the opening 10 (In the specification of the present application, the upper end of the opening 10 is defined as the upper end of the folding wall 12 at the front end side (the end that protrudes most when bent) and does not coincide with the upper and lower positions in the figure) And the center line (line R in FIG. 3) of the cooling fin 6 in a direction orthogonal to the rotating shaft 4 are formed to be substantially coincident with each other.
[0019]
Further, as shown in FIG. 1, a passage between the partition wall 12 and the bottom surface 22 of the motor case 8 includes a duct passage 11 that guides the fan motor cooling air discharged from the opening 10 to the outside of the combustion appliance 1. The partition wall 12 is configured to prevent the flow of air from the duct passage 11 to the air passage side.
[0020]
A partition wall 23 is provided between the motor case 8 and the internal space of the combustion appliance 1 to separate the motor case 8 from the space on the exhaust port 15 side of the combustion chamber 14 of the combustion appliance 1. A space 26 is formed between the two. This space portion forms a space for heat insulation between the air passage for the fan motor cooling air and the combustion chamber 14.
[0021]
The fan motor cooling device of this embodiment and the combustion appliance provided with the fan motor cooling device are configured as described above. In this combustion appliance, the rotation shaft 4 is rotated by the drive of the fan motor 5, and the rotation is performed. When the combustion fan 3 connected to the shaft 4 is rotated, as shown by an arrow B in FIG. 1, the combustion exhaust gas is sucked by the combustion fan 3 and forcibly guided from the combustion chamber 14 to the exhaust outlet side. As a result, the combustion exhaust gas is discharged.
[0022]
At this time, when the rotating shaft 4 is rotated by driving the fan motor 5, the cooling fin 6 having an axial flow propeller shape rotates around the rotating shaft 4 as shown by an arrow A in FIG. Air outside the combustion appliance 1 is introduced from the inlet 9 and flows along the rotary shaft 4, and the air for passing through the fan motor 5, the rotary shaft 4, and the cooling fin 6 from the air inlet 9 passes through the air passage for cooling the fan motor. Flows and is discharged from the opening 10. The fan motor cooling air discharged from the opening 10 passes through the duct passage 11 and is further discharged to the outside of the combustion appliance 1 through the cooling air discharge ports 16 and 17.
[0023]
FIG. 2 is a perspective view of the fan motor cooling device of the present embodiment and the configuration of the combustion exhaust side of the combustion appliance equipped with the fan motor cooling device in a disassembled state. The flow of the working air is as shown by the arrow A in FIG.
[0024]
According to the present embodiment, the above operation cools the fan motor 5 and the rotating shaft 4 together with the rotation of the combustion fan 3. In this cooling, the following excellent effects can be exhibited. . That is, according to the present embodiment, the front end of the partition wall 12 on the front end side of the air passage is the bell mouth structure wall 13 bent along the air passage, so that the air inlet 9 to the air passage and the air passage It is possible to increase the pressure difference from the outlet side (opening 10 side), thereby increasing the flow velocity of air through the air passage and improving the flow of air. Since the fan motor 5 and the rotating shaft 4 are cooled by this air flow, for example, the noise caused by the wind can be made much smaller than when the fan motor 5 is directly cooled by blowing air.
[0025]
In particular, according to the present embodiment, the center line of the cooling fin 6 in the direction orthogonal to the rotating shaft 4 and the upper end of the opening 10 are formed to substantially coincide with each other. It becomes possible to maximize the pressure difference with the outlet of the mouse structure wall, and to maximize the efficiency of air flow.
[0026]
Further, according to the present embodiment, the cooling fin 6 has an axial flow propeller shape that rotates around the rotation shaft 4 as an axis and allows air introduced from the air introduction port 9 to flow along the rotation shaft 4. Therefore, it is possible to easily form this air flow, and furthermore, since the heat of the rotating shaft 4 can be released by the cooling fins having the axial flow propeller shape, the rotating shaft 4 is more efficiently produced. Thus, the fan motor 5 can be cooled more efficiently.
[0027]
Furthermore, according to the present embodiment, the passage between the partition wall 12 and the bottom surface 22 of the motor case 8 is a duct passage 11 that guides the fan motor cooling air discharged from the opening 10 to the outside of the combustion appliance 1. Therefore, the partition wall 12 is configured to prevent the flow of air from the duct passage 11 to the air passage side, so that the fan motor cooling air discharged from the opening 10 is directed to the air passage side. The fan motor cooling air discharged from the opening 10 can be reliably guided to the outside of the combustion appliance 1.
[0028]
Furthermore, according to this embodiment, since the partition wall 23 is provided between the motor case 8 of the fan motor cooling device and the internal space of the combustion appliance 1, the combustion chamber 14 of the fan motor cooling device and the combustion appliance 1 is provided. This makes it possible to isolate the space on the exhaust port side of the fan, making it easier to perform operations such as inspection of the fan motor cooling device.
[0029]
Moreover, in the present embodiment, a space portion 26 is formed between the partition wall 23 and the motor case 8, and the space portion 26 is defined as a space for heat insulation between the air passage for fan motor cooling air and the combustion chamber 14. Therefore, it becomes possible to prevent the air for cooling the fan motor from being heated by the combustion exhaust gas having the flow as shown by the arrow B in FIG. 1, and the fan motor 5 and the rotating shaft 4 are cooled by the fan motor cooling device. , It can be performed more reliably and efficiently.
[0030]
In addition, this invention is not limited to the said embodiment example, Various aspects can be taken. For example, in the above embodiment, a space portion 26 is formed between the motor case 8 and the partition wall 23, and this space portion 26 is a space for heat insulation between the air passage for the fan motor cooling air and the combustion chamber 14. The space 26 is not necessarily formed, and the motor case 8 and the partition wall 23 may be in close contact with each other. However, since the space portion 26 is formed between the motor case 8 and the partition wall 23 to form a heat insulation space, it is possible to prevent the fan motor cooling air from being warmed by the combustion exhaust gas. It is desirable to form a heat insulating space 26 between the wall 23 and the partition wall 23.
[0031]
The partition wall 23 can be omitted. However, by providing the partition wall 23 and forming the fan motor cooling device independently of the combustion chamber 14 of the combustion instrument 1, it is possible to facilitate, for example, checking the fan motor cooling device.
[0032]
Furthermore, in the above embodiment, the partition wall 12 is formed so as to protrude from the side wall of the motor case 8 to the cooling fin 6 side, and the tip side of the partition wall 12 is the bell mouth structure wall 13. For example, as shown in FIG. Further, the side wall of the motor case 8 itself is bent to the cooling fin 16 side, and the front end side is used as the opening 10, and the passage from the air introduction port 9 through the fan motor 5, the rotating shaft 4 and the cooling fin 6 to the opening 10. May be formed as an air passage for cooling the fan motor, and a bell mouth structure in which the cross-sectional area of the air passage is narrowed around the cooling fin 6 on the tip side of the air passage.
[0033]
Furthermore, in the above embodiment example, as shown in FIG. 3B, the center line of the cooling fin 6 in the direction orthogonal to the rotation shaft 4 is formed so that the upper end of the opening 10 substantially coincides. The center line of the cooling fin 6 in the direction orthogonal to the rotating shaft 4 and the upper end of the opening 10 are not necessarily substantially coincident, and the opening 10 may be formed in a region directly below the cooling fin 6. For example, as shown to (a) of the figure, the lower end of the cooling fin 6 and the upper end of the opening part 10 may be made to correspond substantially, and the lower end and centerline of the cooling fin 6 are not made to correspond substantially. May be. However, if the center line of the cooling fin and the upper end of the opening 10 are substantially aligned, the pressure difference between the outlet of the bell mouth structure wall 13 (opening 10 side) and the air inlet 9 is maximized. Since the efficiency of the air flowing through the air passage can be maximized by this pressure difference, it is preferable that the center line of the cooling fin 6 and the opening of the opening 10 are substantially aligned.
[0034]
Further, the bell mouth structure provided in the fan motor cooling device of the present invention is not limited to the one shown in FIGS. 3A and 3B, for example, as shown in FIG. Such a plate-like configuration having the taper 27 or a plate-like configuration not having a taper may be used as long as the suction force can be increased by the pressure difference between the inlet side and the outlet side of the bell mouth structure. Good.
[0035]
Further, for example, as shown by a broken line in FIG. 4, a plurality of cooling fins 6 rotating around the rotation shaft 4 are arranged along the rotation shaft 4, and the most combustion fan among the plurality of arranged cooling fins 6. The opening 10 may be formed in a region directly below the cooling fins 6 (6a) 3. As described above, when a plurality of cooling fins 6 are provided, the cooling fins 6 can further enhance the heat dissipation effect of the rotating shaft and further improve the cooling efficiency of the rotating shaft 4 and the fan motor 5.
[0036]
【The invention's effect】
According to the first aspect of the fan motor cooling device, the motor motor covers the fan motor and the rotating shaft connecting the fan motor to the combustion fan with the motor case, and the motor case is on the side facing the fan motor. An air inlet from the outside of the combustion appliance is formed at the opposite side of the rotating shaft, and the cooling fin for cooling the rotating shaft provided on the rotating shaft has an axial flow propeller shape to rotate the air introduced from the air inlet. Further, a passage from the air introduction port to the fan motor, the rotating shaft, and the cooling fin is formed as an air passage for cooling the fan motor, and the periphery of the cooling fin on the tip side of the air passage is formed. Since the bell mouth structure has a reduced cross-sectional area of the air passage, this bell mouth structure allows the air inlet side and the air passage to exit. In order to be able to increase the pressure difference between the side it can be carried out very efficiently the flow of air along the rotating shaft produced by the cooling fins of the axial flow propeller shape.
[0037]
Therefore, in this fan motor cooling device, it becomes possible to cool the fan motor and the rotating shaft very efficiently, and further, for example, as compared with the case where the fan motor is directly cooled by blowing air as described above, By cooling the fan motor and the rotating shaft with the air flowing along the shaft, the noise caused by the wind can be made very small. Moreover, since the heat of the rotating shaft can be radiated by the cooling fin to cool the rotating shaft more efficiently, the rotating shaft and the fan motor can be cooled more efficiently.
[0038]
According to the second invention of the fan motor cooling device, in addition to the effects of the first invention, the passage between the partition wall formed in the motor case and the bottom surface of the motor case is discharged from the opening. The fan motor cooling air discharged from the opening is made into a duct passage that guides the air for cooling the fan motor to the outside of the combustion appliance, and the partition wall prevents the air flow from the duct passage to the air passage side. It is possible to guide the air to the outside of the combustion appliance more reliably, and to reliably prevent the fan motor cooling air from flowing to the air passage side. Further, according to the second aspect of the present invention, since the partition is provided between the motor case and the internal space of the combustion appliance to isolate the motor case from the exhaust port side space of the combustion chamber of the combustion appliance, for example, Operations such as inspection of the fan motor cooling device can be performed very easily.
[0039]
In addition, the fan motor cooling device 3 In the invention of Is A space is formed between the motor case and the partition, and this space forms a space for heat insulation between the air passage for the fan motor cooling air and the combustion chamber. Because Since the space between the motor case and the partition wall can reliably insulate the air passage for the fan motor cooling air from the combustion chamber, it is ensured that the fan motor cooling air is warmed by the combustion exhaust gas on the combustion chamber side. Therefore, the fan motor and the rotating shaft can be cooled more efficiently.
[0040]
further The Fan motor cooling device 4th invention In Is The center line of the cooling fin in the direction perpendicular to the rotating shaft is Of bellmouth structure Located between the top and bottom of the opening Because it was configured The pressure difference between the air inlet side which is the inlet side of the air passage for the fan motor cooling air and the upper end of the opening which is the outlet side (the tip of the bell mouth structure) can be maximized. As a result, the flow of air generated in the air passage can be maximized and the efficiency of air flow can be maximized, and the cooling effect of the fan motor and the rotating shaft by this flow of air can be maximized.
[0041]
Furthermore, according to the combustion appliance provided with the fan motor cooling device of the present invention, the excellent combustion appliance capable of cooling the fan motor and the rotary shaft very efficiently by the above-described effect of the fan motor cooling device of the present invention. It can be.
[Brief description of the drawings]
FIG. 1 is a cross-sectional configuration diagram illustrating an embodiment of a fan motor cooling device and a combustion appliance including the fan motor cooling device according to the present invention.
FIG. 2 is a perspective view showing the exhaust side of the combustion appliance of the above embodiment in an exploded state.
FIG. 3 is an explanatory diagram showing an example of the positional relationship between the bell mouth structure wall 13 and the cooling fin 6 and a configuration example of the bell mouth structure.
FIG. 4 is a cross-sectional configuration diagram showing another embodiment including a fan motor cooling device and a fan motor cooling device according to the present invention.
FIG. 5 is an explanatory view showing an example of a conventional fan motor cooling device and a combustion appliance including the fan motor cooling device.
[Explanation of symbols]
1 Combustion appliance
3 Combustion fan
4 Rotating shaft
5 Fan motor
6 Cooling fins
8 Motor case
9 Air inlet
11 Duct passage
12 partition wall
13 Bellmouth structural wall
14 Combustion chamber

Claims (5)

A combustion fan is provided in the combustion chamber on the exhaust port side of the combustion chamber of the combustion appliance and sucks the combustion exhaust gas and forcibly guides it to the exhaust port, and the rotation shaft of the combustion fan has the combustion exhaust gas generated in the combustion chamber. Fan motor cooling for cooling the fan motor of a type of combustion fan device that protrudes outward through the exhaust side chamber wall of the combustion chamber that forms the exhaust port side space that flows to the exhaust port, and a fan motor is connected to the protruding tip side The fan motor and the rotating shaft outside the exhaust side chamber wall are covered with a motor case, and the motor case is combusted at a position facing the fan motor and opposite to the rotating shaft. An air inlet from the outside of the instrument is formed, and the rotating shaft is provided with cooling fins for cooling the rotating shaft. And an axial flow propeller shape that allows air introduced from the air introduction port to flow along the rotation shaft. The motor case has a side wall directly below the cooling fin for discharging air. After the passage of the fan motor, the rotary shaft, and the cooling fin from the air inlet, the direction of the exhaust side chamber wall of the projecting portion of the rotary shaft is changed to the direction along the exhaust side chamber wall. The passage leading to the air discharge opening is formed as an air passage for fan motor cooling air, and the periphery of the cooling fin of the air passage is formed in a bell mouth structure with a reduced cross-sectional area of the air passage. Fan motor cooling device characterized by.   A combustion fan is provided on the exhaust port side of the combustion chamber of the combustion instrument, and has a combustion fan that sucks the combustion exhaust gas and forcibly guides it to the exhaust port, and the rotation shaft of the combustion fan has the combustion exhaust gas generated in the combustion chamber in the exhaust port. A fan motor cooling device for cooling a fan motor of a combustion fan device of a type that protrudes outward through an exhaust side chamber wall that forms an exhaust port side space that flows into the exhaust fan, and a fan motor is connected to the protruding tip side of the exhaust motor. The fan motor outside the exhaust side chamber wall and the periphery of the rotary shaft are covered with a motor case, and the motor case is on the surface facing the fan motor and is located on the opposite side of the rotary shaft from the outside of the combustion appliance. An introduction port is formed, and the rotation shaft is provided with cooling fins for cooling the rotation shaft, and the cooling fins rotate around the rotation shaft. And an axial flow propeller shape that allows air introduced from the air introduction port to flow along the rotation shaft, and a passage from the air introduction port to the fan motor, the rotation shaft, and the cooling fin is used for cooling the fan motor. It is formed as an air passage for air, and a partition wall protrudes from the side wall of the motor case to the cooling fin side, and a protruding tip end side of the partition wall is formed in a bell mouth structure bent along the air passage. A space is formed between the partition wall and the bottom surface of the motor case, and a passage between the partition wall and the bottom surface of the motor case formed by this space is for cooling the fan motor that passes through the air passage. It forms a duct passage for guiding air to the outside of the combustion appliance, and an opening for discharging the air for cooling the fan motor is formed at the outlet of the duct passage. A partition is provided between the motor case and the internal space of the combustion appliance to separate the motor case from the exhaust outlet side space of the combustion appliance, and the partition is connected to the exhaust side chamber wall. The bottom surface of the case is arranged along the outer surface of the exhaust side chamber wall where the rotation shaft of the combustion fan protrudes, and the partition wall allows air flow from the duct passage to the air passage side. A fan motor cooling device characterized in that it is configured to prevent.   A combustion fan is provided on the exhaust port side of the combustion chamber of the combustion appliance and sucks the combustion exhaust gas and forcibly guides it to the exhaust outlet side. The rotation shaft of the combustion fan passes through the exhaust side chamber wall from the exhaust side of the combustion chamber. A fan motor cooling device for cooling a fan motor of a combustion fan device of a type protruding outward and having a fan motor connected to the protruding tip side, around the fan motor and the rotating shaft outside the exhaust side chamber wall Is covered with a motor case, and an air inlet from the outside of the combustion appliance is formed at a position opposite to the rotating shaft on the opposite side of the rotating shaft. Cooling fins for cooling the rotating shaft are provided, and the cooling fins rotate around the rotating shaft to rotate the air introduced from the air introduction port. An axial flow propeller shape that flows along the air inlet, and a passage from the air introduction port through the fan motor, the rotating shaft, and the cooling fin is formed as an air passage for fan motor cooling air, and the motor case A partition wall protrudes from the side wall facing the cooling fin to the cooling fin side, and a protruding tip end side of the partition wall is formed in a bell mouth structure bent along the air passage. And an opening for cooling the fan motor cooling air passing through the air passage is formed between the opening and the motor case bottom, and a passage between the partition wall and the motor case bottom is discharged from the opening. It forms a duct passage that guides the fan motor cooling air to the outside of the combustion appliance, and the partition wall flows air from the duct passage to the air passage side. A partition is provided between the motor case and the internal space of the combustion appliance, and a partition that separates the motor case from an exhaust side space of the combustion chamber of the combustion appliance is provided. A fan motor cooling device characterized in that a space portion is formed between the air passages and a space for heat insulation between the air passage for fan motor cooling air and the combustion chamber.   4. The fan motor cooling device according to claim 1, wherein a center line of the cooling fin in a direction orthogonal to the rotating shaft is located between an upper end and a lower end of the opening of the bell mouth structure. .   A combustion appliance comprising the fan motor cooling device according to any one of claims 1 to 4.

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