JPH10148353A - Fan motor mounting structure for ceiling cassette type air conditioner - Google Patents

Abstract

PROBLEM TO BE SOLVED: To improve the rigidity of a leg unit hanging a fan motor, and restrain a temperature rise of the fan motor. SOLUTION: A plurality of leg units 8 of hanging a fan moor 3 are provided on the ceiling plate 2a of a casing 2 for a ceiling cassette type air conditioner so as to surround the fan motor 3 while respective leg units 8 are connected integrally by a connecting plate 10, formed annually so as to surround the fan moor 3. A curl part 17 is formed at the inner peripheral rim of the connection plate 10 with a predetermined interval from the side surface 3b of a motor so as to guide a part of air stream in the casing 2 along the side surface 3b of the fan motor 3.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a mounting structure for a fan motor housed in a casing of a ceiling cassette type air conditioner.

[0002]

2. Description of the Related Art An outline of a ceiling cassette type air conditioner is shown in FIG. As shown in the figure, in this type of ceiling cassette type air conditioner, a fan motor 3, a turbo fan 4, a heat exchanger 5, and the like are housed in a casing 2 attached to a ceiling 1 of a room. Air is sucked by a turbo fan 4 from a suction port 6 at the center of the lower surface of the casing 2, passes through a heat exchanger 5, and is then blown out from air outlets 7 on both sides of the lower surface.

[0005] The mounting structure of the fan motor 3 will be described with reference to FIG. 5. Bolts 8 as legs for suspending the fan motor 3 are provided on a ceiling plate 2 a of a casing 2.
A plurality are attached so as to surround the motor 3. The bolts 8 are attached to the mounting pieces 3 of the fan motor 3.
A rubber vibration isolator 10 having a groove 9 with which a is engaged is inserted, a washer 11 for holding down the vibration isolator rubber 10 is inserted, and a nut 12 is tightened. According to this structure, the fan motor 3 is mounted on the bolt 8 of the ceiling
Suspended and fixed via

[0004]

As described above, if the bolts 8 for fixing the fan motor 3 are independent of each other as described above, if there is a drop during transportation of the product, the independent bolts 8 are used. It is conceivable that an impact force is easily applied and the bolt 8 is inclined. Particularly, in recent years, since the thickness of the ceiling plate 2a to which the bolts 8 are attached has become thinner and the strength has been reduced in order to reduce costs, the bolts 8 tend to be inclined. When the bolt 8 is tilted, the mounting angle of the fan motor 3 is shifted, and the turbo fan 4 is tilted, which may lead to deterioration of the blowing performance.

Further, since the turbo fan 4 attached to the rotating shaft 3a of the fan motor 3 is formed in a bell shape so as to cover the fan motor 3, the fan motor 3
There is a problem that the heat of the motor 3 itself is likely to be trapped around the fan motor 3 and the bearing of the fan motor 3 deteriorates due to the temperature rise due to the heat generation. Therefore, it is necessary to suppress the temperature rise of the fan motor 3 by some means.

SUMMARY OF THE INVENTION An object of the present invention, which has been made in view of the above circumstances, is to improve the rigidity of a leg for suspending a fan motor and to suppress a rise in temperature of the fan motor. An object of the present invention is to provide a fan motor mounting structure for a device.

[0007]

SUMMARY OF THE INVENTION In order to achieve the above object, the present invention provides a ceiling cassette type air conditioner having a casing and a leg for suspending a fan motor surrounding the motor. A plurality of legs are integrally connected by a ring-shaped connecting plate surrounding the fan motor. In this case, the legs for suspending the fan motor are integrally connected by a ring-shaped connecting plate, and the rigidity is dramatically improved.
The impact resistance against falling etc. is improved.

Further, a curl portion may be formed at an inner peripheral edge of the connecting plate at a predetermined distance from the side surface of the fan motor so as to guide a part of the airflow in the casing along the side surface of the fan motor. . In this case, a part of the airflow in the casing is guided by the connecting plate and the curl portion thereof and flows along the side surface of the fan motor, so that the temperature rise of the fan motor is suppressed by the air cooling effect.

In addition, a turbo fan formed so as to cover the fan motor is attached to a rotating shaft of the fan motor, and an exhaust port for discharging an airflow flowing along a side surface of the fan motor to the turbo fan. May be formed. With this configuration, the airflow flowing along the side surface of the fan motor is discharged from the exhaust port formed in the turbo fan, so that the airflow is smooth and the cooling effect of the fan motor is enhanced.

[0010]

DESCRIPTION OF THE PREFERRED EMBODIMENTS One embodiment of the present invention will be described below with reference to the accompanying drawings.

FIG. 1 is a side sectional view showing an outline of a fan motor mounting structure of a ceiling cassette type air conditioner according to this embodiment.

As shown, a fan motor 3 is mounted on a ceiling plate 2a of a casing 2 of the ceiling cassette type air conditioner.
A plurality of bolts 8 as legs for suspending the motor 3 are attached so as to surround the motor 3. As shown in FIG. 5, these bolts 8 have their shaft portions 8a inserted into holes 9 formed in the ceiling plate 2a, and their heads 8b are attached to the ceiling plate 2a by welding. In the present embodiment, the three bolts 8 are attached at approximately 120-degree intervals as shown in FIG. 2, but are not limited to this, and four or more bolts 8 may be attached at approximately equal intervals.

A cylindrical anti-vibration rubber 10 is inserted through the shaft 8 a of the bolt 8. The mounting piece 3a of the fan motor 3 disposed at the center of each of the bolts 8 is attached to the vibration isolating rubber 10.
Are formed. Also, the bolt shaft 8
5A, a through hole 11 of a ring-shaped connecting plate 10 surrounding the fan motor 3 as shown in FIG. 2 is inserted instead of the washer 11 shown in FIG. Insertion hole 1
1 is 3 at intervals of approximately 120 degrees according to the arrangement of the bolts 8
Individually formed. A nut 12 is fastened to the threaded portion of the bolt shaft 8a.

According to this configuration, when the nut 12 is tightened, the anti-vibration rubber 10 is slightly compressed, so that the connecting plate 10 is sandwiched and held between the anti-vibration rubber 10 and the nut 12. The three bolts 8 are integrally connected by a connecting plate 10. That is, since the three bolts 8 are connected at their roots by the ceiling plate 2a and at their distal ends by the connecting plate 10, they form a part of a space frame that forms a closed space inside, and The rigidity is remarkably improved as compared with that of FIG. At this time, the connecting plate 10 functions not only as a member for suppressing the vibration-proof rubber 10 from falling off as in the washer 11 shown in FIG. 5, but also as a member for increasing the rigidity.

Further, a turbo fan 4 formed so as to cover the fan motor 3 is attached to the rotating shaft 3 # of the fan motor 3. The turbo fan 4 has a bell-shaped base 4a formed so as to cover the fan motor 3, an impeller 4b radially attached to the base 4a, and a shroud 4c formed so as to cover the impeller 4b. The air guided from the central inlet 13 flows out radially outward from the outlet 14. The inflow port 13 is connected to the duct 15 of the suction port 6 as shown in FIG.

According to this configuration, when the turbo fan 4 is rotated by the fan motor 3, the indoor air is sucked from the suction port 6 at the center of the lower surface of the casing 2 and flows radially outward through the turbo fan 4. After passing through the heat exchanger 5, the air is blown into the room from the air outlets 7 on both sides of the lower surface of the casing 2. Here, a part of the air flowing through the casing 2 passes between the base portion 4a and the ceiling plate 2a and flows inside the base portion 4a as shown in FIG.

That is, a predetermined gap 15 is formed between the outer edge of the base portion 4a and the ceiling plate 2a.
An exhaust port 16 for discharging an airflow guided to the inside of the base portion 4a is formed in the vicinity of the central portion of a. As the exhaust port 16, a long hole formed at intervals around the rotation shaft 3 a in the circumferential direction, a ring hole formed in a ring shape in the circumferential direction, or the like is used. According to this configuration, since the pressure on the inlet 13 side of the turbo fan 4 is lower than that on the outlet 14 side, a part of the air flowing out from the outlet 14 passes through the gap 15 to the base portion 4a. It is guided inside and is discharged from the exhaust port 16 and circulates.

In order to cool the fan motor 3 by air using the circulating flow, the inner peripheral edge of the connecting plate 10 is spaced downward from the side surface 3b of the fan motor 3 formed in a cylindrical shape at a predetermined interval. A curled portion 17 is formed (see FIG. 3). Due to the curl portion 17, the circulating flow flows along the side surface 3b of the fan motor 3, and the air cooling of the fan motor 3 is achieved. The curl portion 17
The connecting plate 10 may be formed by simply punching a flat plate.

The operation of this embodiment having the above configuration will be described.

Since the bolts 8 attached to the ceiling plate 2a for suspending the fan motor 3 are integrally connected by a ring-shaped connecting plate 10, the rigidity is dramatically improved, and Improves impact resistance. Therefore, even if the ceiling plate 2a is made thinner for cost reduction, the inclination of the bolt 8 due to a drop or the like is suppressed, and the mounting angle of the turbo fan 4 is shifted, thereby deteriorating the blowing performance. Can be prevented beforehand.

In the present embodiment, a part of the air flow in the casing 2 is reduced by the connecting plate 10 and the curled portion 1 thereof.
7, and flows along the side surface 3b of the fan motor 3, so that the temperature rise of the fan motor 3 is suppressed by the air cooling effect. Therefore, the deterioration of the bearing of the fan motor 3 due to the temperature rise due to the heat generated by the fan motor 3 itself can be suppressed, and the durability is improved.

Further, in this embodiment, since the base portion 4a of the turbo fan 4 is provided with the exhaust port 16 for discharging the airflow flowing along the side surface 3b of the motor 3, the exhaust port 16 is provided.
The air current flowing along the fan motor side surface 3b is discharged from the exhaust port 16 and the flow (circulation) of the cooling air flow becomes smooth, and the cooling effect of the fan motor 3 is improved.

[0023]

As described above, according to the fan motor mounting structure of the ceiling cassette type air conditioner according to the present invention, the following effects can be exhibited.

(1) According to the first aspect of the present invention, since the legs for suspending the fan motor are integrally connected by the connecting plate, the rigidity of the legs is increased, and the impact resistance against dropping and the like is improved. Significantly improved.

(2) According to the second aspect of the present invention, a part of the airflow in the casing is guided along the side surface of the fan motor by the curl portion formed on the inner peripheral edge of the connecting plate. Temperature rise can be suppressed.

(3) According to the third aspect of the invention, since the cooling airflow flowing along the side surface of the fan motor is discharged from the exhaust port formed in the turbo fan, the flow of the airflow becomes smooth, and Motor cooling effect increases.

[Brief description of the drawings]

FIG. 1 is an explanatory view showing a fan motor mounting structure of a ceiling cassette type air conditioner showing one embodiment of the present invention.

FIG. 2 is a perspective view showing a leg portion and a connecting plate of the mounting structure.

FIG. 3 is a perspective view showing a connecting plate of the mounting structure.

FIG. 4 is a side sectional view of the ceiling cassette type air conditioner.

FIG. 5 is an explanatory diagram of a fan motor mounting structure of a ceiling cassette type air conditioner showing a conventional example.

[Explanation of symbols]

 Reference Signs List 2 casing 2a ceiling plate 3 fan motor 3χ rotating shaft 3b side surface 4 turbo fan 8 bolt as leg 10 connecting plate 16 exhaust port 17 curl

Claims (3)

[Claims] 1. A plurality of legs for suspending a fan motor are provided on a ceiling plate of a casing of a ceiling cassette type air conditioner so as to surround the motor.
A fan motor mounting structure for a ceiling cassette type air conditioner, wherein the fan motors are integrally connected by a ring-shaped connecting plate surrounding the fan motors. 2. An inner peripheral edge of the connecting plate, which guides a part of the airflow in the casing along a side surface of the fan motor.
2. A fan motor mounting structure for a ceiling cassette type air conditioner according to claim 1, wherein a curled portion is formed at a predetermined interval from a side surface of the fan motor. 3. An exhaust port for attaching a turbo fan formed to cover the fan motor to a rotation shaft of the fan motor, and discharging an airflow flowing along a side surface of the fan motor to the turbo fan. The fan motor mounting structure for a ceiling cassette type air conditioner according to claim 2, wherein: