JP7215306B2 - Blowers and fans - Google Patents

Description

TECHNICAL FIELD The present invention relates to an air blower that rotates an impeller to generate an air flow, and a ventilation fan equipped with the same.

A conventional blower includes an electric motor having a shaft and an impeller attached to the shaft. A bearing that supports the shaft is provided inside the electric motor (see, for example, Patent Document 1).

WO2018/173104

In the above air blower, the load of the impeller is applied to the bearing during transportation, and the bearing may be damaged depending on the load of the impeller.

SUMMARY OF THE INVENTION An object of the present invention is to provide an air blower and a ventilation fan that can reduce the load of the impeller on the bearing.

A blower device according to the present invention includes a casing having an opening, a shaft extending through the opening from the inside of the casing to the outside of the casing, an electric motor having bearings provided in the casing and supporting the shaft, and a shaft extending outside the casing. and an impeller having a protection device, the protection device having a rotating portion capable of rotating radially outwardly of the shaft , extending from the impeller in the direction of the casing, contacting the casing, and supporting the impeller in the direction of the casing. It suppresses movement.

Further, the blower device according to the present invention includes a casing having an opening, a shaft extending through the opening from the inside of the casing to the outside of the casing, an electric motor having bearings provided in the casing and supporting the shaft, and a shaft extending outside the casing. an attached impeller; and a mounting member attached to a shaft between the electric motor and the impeller and having a protective device, the protective device having a rotating portion capable of rotating radially outward of the shaft. It extends from the mounting member in the direction of the casing and comes into contact with the casing to suppress movement of the impeller in the direction of the casing.

Further, a ventilating fan according to the present invention includes a body frame having a wind tunnel, support legs attached to the body frame, and the blower device supported by the support legs.

According to the blower device and the ventilation fan of the present invention, the load of the impeller applied to the bearing can be reduced by providing the protective device that suppresses the movement of the impeller toward the casing.

1 is a perspective view of a ventilation fan according to Embodiment 1 of the present invention; FIG. FIG. 2 is a side cross-sectional view of the electric motor of the ventilation fan according to Embodiment 1 of the present invention; 1 is a perspective view of an impeller of a ventilation fan according to Embodiment 1 of the present invention; FIG. 1 is a diagram of a protective device for a ventilation fan according to Embodiment 1 of the present invention; FIG. 1 is a side view of a blower device for a ventilation fan according to Embodiment 1 of the present invention; FIG. FIG. 4 is a side view of the blower device of the ventilation fan according to the modified example of Embodiment 1 of the present invention;

Below, the air blower according to the embodiment of the present invention will be described in detail based on the drawings. In addition, this invention is not limited by this embodiment.

Embodiment 1.
In Embodiment 1, a ventilation fan 100 having a blower device 30 of the present invention will be described as an example. FIG. 1 is a perspective view of a ventilation fan 100 according to Embodiment 1 of the present invention. Ventilation fan 100 is attached to an opening formed in a wall in a factory, warehouse, store, or residence. The ventilation fan 100 ventilates the room by exhausting air from the room to the outside or by supplying air from the outside to the room.

The ventilation fan 100 includes a body frame 10 , four support legs 20 attached to the body frame 10 , and a blower device 30 supported by the four support legs 20 . The blower device 30 includes an electric motor 40 and an impeller 50 that is driven by the electric motor 40 to rotate and generate an airflow.

In FIG. 1, the outer edge of the body frame 10 is rectangular. At the center of the body frame 10, a wind tunnel section 11, which is an air passage for the ventilation fan 100, is provided.

The four support legs 20 are rod-shaped members extending radially from the electric motor 40 toward each corner of the body frame 10 . An end portion of the support leg 20 on the body frame 10 side is fixed to the body frame 10 . The end of the support leg 20 on the side of the electric motor 40 is fixed to the side surface of the electric motor 40 . Each support leg 20 is bent so as to support the electric motor 40 . The support leg 20 is made of steel having a rigidity capable of supporting the electric motor 40 . Note that the support leg 20 may be made of any material having rigidity capable of supporting the electric motor 40, and may be made of a metal material other than steel.

The electric motor 40 is arranged so that the shaft of the electric motor 40 (not shown in FIG. 1) is positioned at the center of the wind tunnel portion 11 . An impeller 50 , which is a propeller fan, is attached to the tip of the shaft of the electric motor 40 .

The impeller 50 includes a circular boss 51 attached to the shaft of the electric motor 40 , blades 52 connected to the outer periphery of the boss 51 , and a protection device 53 attached to the boss 51 and described later. For example, the number of blades 52 is three, but the number of blades is not limited to three. The impeller 50 rotates in the wind tunnel section 11 as the shaft rotates due to the operation of the electric motor 40 , and generates an airflow passing through the wind tunnel section 11 .

The ventilation fan 100 includes a power cord 60 that supplies electric power to the electric motor 40 . A power cord 60 is wired along one of the four support legs 20 and connected to a commercial power source outside the ventilation fan 100 . The power cord 60 is fixed to the support leg 20 by binding it to the support leg 20 with a binding band 61 . The power cord 60 is fixed to the support leg 20 with any number of binding bands 61 . The binding band 61 is limited in deformation that loosens the binding after being put in the binding state, so that the binding state can be maintained. The binding band 61 is formed using, for example, a synthetic resin material.

Note that the binding band 61 may be formed using a material other than the synthetic resin material. A fixing member other than the binding band 61 may be used to fix the power cord 60 to the support leg 20 . For example, a clip for gripping the power cord 60 and a screw for fixing the clip to the support leg 20 may be used as the fixing member.

Next, the detailed structure of the electric motor 40 will be explained using FIG. FIG. 2 is a side cross-sectional view of electric motor 40 of ventilator 100 according to Embodiment 1 of the present invention.

As shown in FIG. 2, the electric motor 40 includes a casing 41 forming an outer shell of the electric motor 40, a cylindrical stator 42 provided inside the casing 41 and having a coil 42a, and a coil 42a disposed inside the stator 42. and a shaft 44 connected to the rotor 43 and extending along the central axis 43 a of the rotor 43 . The stator 42, rotor 43 and shaft 44 are coaxially arranged.

The casing 41 includes a cylindrical frame 41a, and a first bracket 41b and a second bracket 41c that close two openings of the frame 41a. The frame 41a and the two brackets 41b and 41c are fixed to each other by, for example, adhesion, screw fastening, or welding. An opening 41d is formed in the second bracket 41c. One end of the shaft 44 extends outside the casing 41 from the opening 41d. An impeller 50 (not shown) is attached to the tip of the shaft 44 extending outside the casing 41 . Hereinafter, in the axial direction of the shaft 44, the side on which the impeller 50 is attached, that is, the left side of the paper surface in FIG. 2 is called the load side, and the side opposite to the load side, that is, the right side of the paper surface of FIG.

The shaft 44 is rotatably supported by two bearings 45a and 45b. The two bearings 45 a and 45 b are arranged at positions sandwiching the rotor 43 in the axial direction of the shaft 44 . The first bearing 45a is arranged on the anti-load side of the rotor 43, and the second bearing 45b is arranged on the load side of the rotor 43. As shown in FIG. The first bearing 45a is held by the first bracket 41b. The second bearing 45b is held by the second bracket 41c.

A spring 46 is interposed between the first bracket 41b and the first bearing 45a. The spring 46 applies preload to the first bearing 45a in the axial direction of the shaft 44 toward the load side. A wave washer, for example, is used as the spring 46 .

Here, as shown in FIG. 1, the ventilating fan 100 is transported in a state in which the body frame 10, the supporting legs 20, and the blower device 30 are assembled. When the ventilating fan 100 is transported, it is transported with the shaft 44 of the electric motor 40 extending vertically in consideration of the balance when the ventilating fan 100 is placed. At this time, if the impeller 50 is transported vertically above the electric motor 40 , the load of the impeller 50 is applied to the first bearing 45 a via the shaft 44 . Further, when the ventilation fan 100 is transported, the impeller 50 vibrates in the vertical direction, so that a larger load than when the fan is stationary is repeatedly applied to the first bearing 45a. Therefore, depending on the load of the impeller 50, the first bearing 45a may be damaged.

The load of the impeller 50 is also applied to the spring 46 via the shaft 44 and the first bearing 45a. Therefore, depending on the load of the impeller 50 , there is a possibility that a load exceeding the withstand load of the spring 46 is applied to the spring 46 .

In addition, even if the impeller 50 is transported vertically below the electric motor 40, or if the impeller 50 is transported horizontally laterally of the electric motor 40, Also, when the impeller 50 vibrates in the axial direction of the electric motor 40, the load of the impeller 50 is applied to the first bearing 45a and the spring 46, so the first bearing 45a may be damaged and the load capacity of the spring 46 may be reduced. An excessive load may be applied to spring 46 .

Therefore, in this embodiment, the protection device 53 is attached to the impeller 50 . FIG. 3 is a perspective view of impeller 50 of ventilator 100 according to Embodiment 1 of the present invention. 4A is a perspective view of the protection device 53 of the ventilating fan 100 according to Embodiment 1 of the present invention, and FIG. FIG. 2C is a diagram showing a state where the angle is 90°, and FIG. 4C is a cross-sectional view of the protective device 53 taken along line AA showing a state where the angle formed by the fixed portion 54 and the rotating portion 55 is 180°.

As shown in FIG. 3 , the protection device 53 is attached to the surface of the boss 51 that faces the electric motor 40 when the boss 51 is attached to the shaft 44 . The protective device 53 has a fixed portion 54 fixed to the boss 51 and a rotating portion 55 rotatably attached to the fixed portion 54, as shown in FIG.

The fixing portion 54 is, for example, a plate-like member, and is formed with a screw hole 54a. The fixing portion 54 is fixed to the boss 51 by passing the screw 56 through the screw hole 54 a and tightening it into a screw hole (not shown) formed in the boss 51 .

The rotating portion 55 is rotatably attached to the fixed portion 54 via a hinge 57, for example. The rotating portion 55 is, for example, a plate-like member such as sheet metal. The rotating portion 55 is configured to be rotatable radially outward of the boss 51 when attached to the boss 51 . 3 and 4B show the state when the angle formed by the fixed portion 54 and the rotating portion 55 is 90°, and FIG. 4C shows the state when the angle formed by the fixed portion 54 and the rotating portion 55 is 180°. indicates the state of The rotating portion 55 is rotatable between 90° and 180°.

In this embodiment, as shown in FIG. 3, three protective devices 53 are attached to the boss 51 . The three protective devices 53 are mounted on the boss 51 at positions corresponding to the positions where the blades 52 are connected. That is, the rotating portion 55 is attached so as to be located on the back side of the blade 52 when viewed from the load side of the ventilation fan 100 when the angle formed with the fixed portion 54 is 180°. As a result, the effect of the protection device 53 on the airflow generated when the impeller 50 rotates can be reduced.

The position at which the protection device 53 is attached to the boss 51 is not limited to the position corresponding to the position at which the blades 52 are connected as described above. Also, the protective device 53 may be attached to the blade 52 instead of the boss 51 . Also, the number of protection devices 53 attached to the boss 51 is not limited to three, and may be one, two, or four or more.

FIG. 5 is a side view of blower 30 of ventilating fan 100 according to Embodiment 1 of the present invention. 5 shows a state in which the impeller 50 is positioned above the electric motor 40 in the vertical direction.

As shown in FIG. 5 , when the impeller 50 is positioned above the electric motor 40 in the vertical direction, the rotating portion 55 forms an angle of 90° with the fixed portion 54 due to its own weight. It extends in one direction. At this time, the opposite end of the rotating portion 55 is in contact with the second bracket 41 c of the casing 41 . Thereby, the load of the impeller 50 is received by the second bracket 41 c of the casing 41 .

In addition, the end portion of the rotating portion 55 on the anti-load side comes into contact with the casing 41 before the spring 46 is crushed to the extent that a load exceeding the withstand load is applied to the spring 46 . As a result, it is possible to prevent a load exceeding the withstand load from being applied to the spring 46 .

Further, when the impeller 50 rotates due to the operation of the electric motor 40 , the rotating portion 55 rotates radially outward of the shaft 44 due to centrifugal force and forms an angle of 180° with the fixed portion 54 . As a result, the influence of the rotating portion 55 on the rotation of the impeller 50 can be reduced.

According to the present invention, the end portion of the protection device 53 extending from the impeller 50 toward the casing 41 on the side of the electric motor 40 is in contact with the casing 41, thereby suppressing the movement of the impeller 50 toward the casing 41. be able to. Therefore, when the fan 100 is transported with the impeller 50 positioned vertically above the electric motor 40, the load applied to the first bearing 45a and the spring 46 can be reduced.

Further, even when the impeller 50 is transported vertically below the electric motor 40 and when the impeller 50 is transported horizontally laterally of the electric motor 40, the impeller By vibrating the impeller 50 in the axial direction of the electric motor 40, the load of the impeller 50 applied to the first bearing 45a and the spring 46 can be reduced.

In addition, since the rotating portion 55 contacts the casing 41 before the spring 46 is crushed to the extent that a load exceeding the withstand load is applied to the spring 46, the load exceeding the withstand load is applied to the spring 46. can be prevented.

In addition, since the rotating portion 55 rotates radially outward of the shaft 44 due to the centrifugal force generated by the rotation of the impeller 50 , it does not interfere with the rotation of the impeller 50 .

In addition, since the protection device 53 can be attached to the impeller 50 simply by forming a screw hole for tightening the screw 56 in the impeller 50, there is no need to make a significant design change of the impeller 50. Moreover, since the structure of the electric motor 40 does not need to be changed, the structure of the electric motor 40 does not become complicated, and the manufacturing method of the electric motor 40 does not need to be changed. Furthermore, the method of attaching the impeller 50 to the electric motor 40 does not need to be changed from the conventional product.

In this embodiment, the protection device 53 is attached to the impeller 50. However, if it is possible to suppress the movement of the impeller 50 toward the casing 41, the protection device 53 can be attached to a component other than the impeller 50. may be installed.

FIG. 6 is a side view of blower device 30 of ventilating fan 100 according to a modification of Embodiment 1 of the present invention. As shown in FIG. 6 , in the modification of the first embodiment, a mounting member 70 is mounted on the shaft 44 between the electric motor 40 and the impeller 50 . Then, the protection device 53 is attached to the attachment member 70 instead of the impeller 50 . The mounting member 70 has a circular shape similar to that of the boss 51, for example. For example, three protection devices 53 are attached to the attachment member 70 . Even in this case, when the impeller 50 is positioned vertically above the electric motor 40 , the electric motor 40 side end of the rotating portion 55 extending from the mounting member 70 toward the casing 41 contacts the casing 41 .

As a result, the impeller 50 can be prevented from moving toward the casing 41, and the load applied to the first bearing 45a and the spring 46 during transportation of the ventilation fan 100 can be reduced. Further, since the mounting member 70 rotates together with the shaft 44 , the centrifugal force generated by the rotation of the mounting member 70 causes the rotating portion 55 to rotate radially outward of the shaft 44 . Therefore, since the rotating portion 55 does not hinder the rotation of the impeller 50, it does not need to be removed when the ventilating fan 100 is used.

Further, in the present embodiment, the rotating portion 55 is made of sheet metal having its own weight, but the rotating portion 55 is not limited to the sheet metal. When the impeller 50 is positioned above the electric motor 40 in the vertical direction, the rotating portion 55 extends from the impeller 50 toward the casing 41. If the member has its own weight, it can be rotated by a member other than the sheet metal. A motion unit 55 may be configured.

In the present embodiment, when the impeller 50 is positioned above the electric motor 40 in the vertical direction, the rotating portion 55 forms an angle of 90° with the fixed portion 54 due to its own weight, and the impeller 50 rotates. It has been explained that the angle formed with the fixed portion 54 is 180° due to the centrifugal force caused by the However, the method of rotating the rotating portion 55 is not limited to this embodiment. For example, when the ventilation fan 100 is transported, the rotating portion 55 and the fixing portion 54 are manually fixed so that the angle formed by the fixing portion 54 is 90°. The angle may be changed to 180° and fixed. Even in such a case, when the ventilation fan 100 is transported, the impeller 50 is prevented from moving toward the casing 41 by fixing the rotating portion 55 with the fixed portion 54 at an angle of 90°. and the load of the impeller 50 applied to the first bearing 45a and the spring 46 can be reduced.

Further, in the present embodiment, the rotating portion 55 has an angle of 90° with the fixed portion 54 and the opposite end of the rotating portion 55 is in contact with the casing 41 . The non-load-side end portion may be in contact with the casing 41 when the angle formed with 54 is other than 90°. That is, the rotating portion 55 may be fixed in a state in which the angle formed with the fixing portion 54 is larger than 90° and smaller than 180°. is in contact with the casing 41 so that the casing 41 receives the load of the impeller 50, the effects of the present invention can be obtained.

Further, in the present embodiment, the rotating portion 55 is rotatable radially outwardly of the boss 51 , but the rotating portion 55 is rotatable radially inwardly of the boss 51 . may That is, the rotating portion 55 may be rotatable between 0° and 180°. In this case, even if the rotating portion 55 can be fixed in a state where the angle between the rotating portion 55 and the fixing portion 54 is larger than 0° and smaller than 90°, the end portion of the rotating portion 55 on the opposite side of the load does not touch the casing 41 . The effects of the present invention can be obtained by contacting and receiving the load of the impeller 50 on the casing 41 .

Further, in the present embodiment, the rotating portion 55 is rotatably attached to the fixed portion 54 via the hinge 57, for example. It may be one that does not rotate from the state where the angle formed is 90°. Even in this case, the effect of reducing the load applied to the first bearing 45a and the spring 46 during transportation of the ventilating fan 100 can be obtained.

Further, in the present embodiment, the screw 56 is used as an example of the component for attaching the protective device 53 to the impeller 50 , but the component for attaching the protective device 53 is not limited to the screw 56 . As long as the protective device 53 can be attached to the impeller 50, a part such as a bolt may be used.

In addition, although the protective device 53 includes the fixed portion 54 fixed to the boss 51 and the rotating portion 55 rotatably attached to the fixed portion 54 , the protective device 53 includes the fixed portion 54 . Alternatively, it may be composed only of the rotating portion 55 . For example, a hinge 57 may be provided on the boss 51 and the protective device 53 composed only of the rotating portion 55 may be attached to the hinge 57 . Moreover, although the protective device 53 has been described as being attached to the impeller 50 , the protective device 53 may be integrally formed with the impeller 50 .

Moreover, although the casing 41 of the electric motor 40 is provided with the frame 41a, the first bracket 41b, and the second bracket 41c, the structure of the casing 41 is not limited to the structure of the present embodiment. It may be composed of

Further, in the present embodiment, the ventilating fan 100 has been described as an example of a device equipped with the blower device 30, but the present invention can be applied to other products such as an air conditioner as long as it is a device equipped with the blower device 30. You may

Reference Signs List 10 Body frame 11 Wind tunnel 20 Support leg 30 Blower device 40 Electric motor 41 Casing 41a Frame 41b First bracket 41c Second bracket 41d Opening 42 Stator 42a Coil 43 Rotor 43a Central shaft 44 Shaft 45a First bearing 45b Second bearing 46 Spring 50 Impeller 51 Boss 52 Blade 53 Protective device 54 Fixed part 54a Screw hole 55 Rotating part 56 Screw 57 hinge, 60 power cord, 61 binding band, 70 mounting member.

Claims (3)

an electric motor having a casing having an opening, a shaft passing through the opening and extending from the inside of the casing to the outside of the casing, and a bearing provided in the casing to support the shaft;
an impeller mounted on the shaft extending out of the casing and having a protection device;
with
The protective device has a rotating portion that can rotate radially outward of the shaft , extends from the impeller in the casing direction, contacts the casing, and blows air to suppress movement of the impeller in the casing direction. Device. an electric motor having a casing having an opening, a shaft passing through the opening and extending from the inside of the casing to the outside of the casing, and a bearing provided in the casing to support the shaft;
an impeller attached to the shaft extending outside the casing;
a mounting member mounted on the shaft between the electric motor and the impeller and having a protection device;
with
The protection device includes a rotating portion that can rotate radially outward of the shaft , extends from the mounting member in the casing direction, contacts the casing, and blows air to suppress movement of the impeller in the casing direction. Device. a body frame having a wind tunnel;
a support leg attached to the body frame;
The blower device according to claim 1 or 2 supported by the support legs ;
ventilation fan .

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