JP6925297B2 - Blower and manufacturing method of the blower - Google Patents

Description

The present invention relates to a blower having a motor and a fan inside the box and a method for manufacturing the blower.

Conventionally, a blower device in which components such as a motor and a fan are provided inside a box body forming an outer shell has been used. Patent Document 1 discloses a centrifugal blower including an electric motor having a rotating shaft, a multi-blade centrifugal impeller, and a casing inside the outer shell. The casing is configured such that a side wall provided with a discharge port is sandwiched between a suction plate having a bell mouth-shaped suction port and a flat plate-shaped back plate facing the suction plate. The centrifugal impeller has a disk-shaped main plate, a plurality of blades arranged in an annular shape on the outer peripheral side of the surface of the main plate facing the suction port of the suction plate, and an annular plate attached to the tip of the blade. I have. The main plate is provided with ventilation holes arranged in an annular shape for air to flow through.

Japanese Unexamined Patent Publication No. 2008-169826

Although not mentioned in Patent Document 1, in the assembling work of the blower device, it is preferable to perform the same work collectively as much as possible from the viewpoint of work efficiency. However, in the process of assembling a blower in which a plurality of components are housed inside the outer shell, generally, after the assembly work of assembling the components inside the outer shell is performed, the assembled components are screwed. The fixing screw tightening work is performed. Next, after the assembling work for assembling other components inside the outer shell is performed, the screw tightening work for fixing the assembled components with screws is performed. It should be noted that the assembly is a work of only arranging at a fixed position without including the work of fixing with screws.

Therefore, in the assembling process of the blower in which a plurality of components are housed inside the outer shell, the assembling work and the screw tightening work cannot be performed at once, and the assembling work and the screw tightening work are repeated alternately. Therefore, the work efficiency is deteriorated.

The present invention has been made in view of the above, and an object of the present invention is to obtain a blower capable of improving the efficiency of assembly work.

In order to solve the above-mentioned problems and achieve the object, the blower according to the present invention has a box-shaped blower main body having an opening on the bottom surface forming an intake port and an exhaust port on the side surface, and a blower device. It is provided with a motor that is installed on the blower main body with the drive shaft protruding toward the bottom surface side of the main body and fixed to the top surface of the blower main body. Further, the blower has a circular main plate fixed to the drive shaft with the central shaft coaxial with the drive shaft, and the outer circumference of the main plate parallel to the central axis of the main plate toward the bottom surface side of the blower main body. It comprises a plurality of arranged wings and a fan having. Further, the blower device includes a fan casing in which the top surface is opened and a suction port is formed on the bottom surface, the motor and the fan are housed inside the blower body, and the fan casing is fixed inside the blower body. The motor has a motor fixing portion that can be screwed and fixed from the bottom surface side of the blower body to the top surface of the blower body with screws for attaching the motor. The fan can be fixed to the drive shaft from the bottom surface side of the blower main body. In the main plate, an opening of the main plate is formed in a region corresponding to a motor fixing portion for fixing the motor and the top surface of the blower main body. The main plate opening, the distance between the drive shaft is formed to include a distance equal to the area of the drive movement axis and the motor mounting screws. The fan casing is arranged at a position not overlapping the motor on the top surface side of the blower main body with respect to the fan. The number of main plate openings is larger than the number of motor fixing parts.

According to the present invention, there is an effect that a blower capable of improving the efficiency of the assembling work can be obtained.

Sectional drawing which shows the attachment state of the ventilation fan which concerns on Embodiment 1 of this invention. Front view of the ventilation fan according to the first embodiment of the present invention without the decorative grill. Schematic diagram illustrating screw fixing of a motor, screw fixing of a fan, and screw fixing of a fan casing in a ventilation fan according to a first embodiment of the present invention. A flowchart showing a procedure of a method of attaching a motor, a fan, and a fan casing to a ventilation fan main body in the method of manufacturing a ventilation fan according to the first embodiment of the present invention.

Hereinafter, the blower and the method for manufacturing the blower according to the embodiment of the present invention will be described in detail with reference to the drawings. The present invention is not limited to this embodiment.

Embodiment 1.
FIG. 1 is a cross-sectional view showing an attached state of the ventilation fan according to the first embodiment of the present invention. FIG. 2 is a front view of the ventilation fan according to the first embodiment of the present invention, omitting the decorative grill. In FIG. 1, the side surfaces of the motor 3 and the fan 4 are shown. Further, in FIG. 2, only a part of the decorative grill is shown to show the arrangement of the decorative grill. FIG. 3 is a schematic view illustrating screw fixing of the motor 3 in the ventilation fan according to the first embodiment of the present invention, screw fixing of the fan 4, and screw fixing of the fan casing 5. FIG. 3 is a view taken along the line III-III in FIG. In addition, in FIG. 3, only the part related to screw fixing of each part is shown.

The ventilation fan 100 according to the first embodiment of the present invention is a duct ventilation fan which is a ventilation device for ventilating indoor air by inserting a duct connection portion 8 from the indoor side into a duct 14 having an opening in the ceiling and communicating indoors and outdoors. Is.

The ventilation fan 100 has a ventilation fan main body 2 and a duct connection portion 8 provided on a side portion of the ventilation fan main body 2. The ventilation fan main body 2 has a box shape with an open bottom surface, which is one surface facing the top surface 2a of the ventilation fan main body. The ventilation fan main body 2 corresponds to the blower main body in the blower. The motor 3 is screwed and fixed to the top surface 2a of the ventilation fan body. The opening 2c on the bottom surface of the ventilation fan main body 2 has a function of an intake port in the ventilation fan main body 2. As shown in FIG. 1, an exhaust port 2b is formed on the side surface of the ventilation fan main body 2. A duct connecting portion 8 is connected to the exhaust port 2b.

The duct connection portion 8 extends in a direction perpendicular to the side surface of the ventilation fan main body 2 and extends to a position where the exhaust port 2b of the ventilation fan main body 2 communicates with the duct 14. The duct connecting portion 8 is formed in a stepped shape having a different outer diameter. Since the outer shape of the duct connecting portion 8 is stepped with different diameters, a plurality of types of ducts 14 having different diameters can be connected, and workability when taping the joint between the duct connecting portion 8 and the duct 14 is possible. Is improved. The duct 14 extends to the outside and is connected to a hood attached to the outer wall of the building to form a ventilation air passage for ventilating the air in the house.

Inside the duct connection portion 8, a shutter 9 that opens and closes by wind pressure is provided. The shutter 9 is opened by the wind pressure of the air flow generated by the ventilation fan 100 when the ventilation fan 100 is operated, and the inside of the duct connection portion 8 is closed by the weight of the shutter 9 when the shutter 9 is stopped. By providing the shutter 9 in the duct connecting portion 8, it is possible to prevent the outside wind from the outside from entering the room when the ventilation fan 100 is stopped. Although the shutter 9 that opens and closes by wind pressure has been described in the first embodiment, the shutter 9 that is electrically driven may be used.

The ventilation fan 100 includes a multi-blade blower 1 that functions as a blower that is a ventilation drive body that circulates ventilated air, and a fan casing 5 that houses the multi-blade blower 1.

The multi-blade blower 1 has a motor 3 for rotating the fan 4 and a fan 4 which is plugged and connected to the drive shaft 3a of the motor 3 and fixed to a nut. In the motor 3, the top surface 2a , which is the surface opposite to the opening 2c on the bottom surface of the ventilation fan main body 2, and the motor flange 51 provided on the side surface of the motor 3 are screwed and fixed by a motor mounting screw 31. The motor 3 is housed inside the ventilation fan body 2 with the drive shaft 3a protruding toward the bottom surface side of the ventilation fan body 2, and is housed in the top surface 2a of the ventilation fan body 2 from the opening 2c side of the bottom surface of the ventilation fan body 2 to the top surface 2a . It is fixed with screws. That is, the motor 3 can be screwed and fixed to the top surface 2a of the ventilation fan body from the bottom surface side of the ventilation fan body 2.

The fan 4 has a circular main plate 41 fixed to the drive shaft 3a with the central shaft C coaxial with the drive shaft 3a, and a state in which the fan 4 extends toward the bottom surface side of the ventilation fan main body 2 on the outer periphery of the main plate 41. It has a plurality of wings 42 arranged in a. In the fan 4, the main plate 41 can be nut-fixed to the drive shaft 3a of the motor 3 from the bottom surface side of the ventilation fan main body 2 in a state where the central shaft C is coaxial with the drive shaft 3a. The tip end side of the drive shaft 3a of the motor 3 is a male screw portion 3b having a diameter smaller than that of the drive shaft 3a and having a thread on the outer peripheral surface. The screw hole 41b provided in the center of the main plate 41 is threaded on the inner peripheral surface to form a female screw portion. Then, by attaching the male screw portion 3b of the drive shaft 3a to the screw hole 41b and tightening the screw hole 41b, the fan 4 is fixed to the drive shaft 3a of the motor 3 with a nut. The fan 4 is rotationally driven by the motor 3 to form an air flow. The plurality of wings 42 are arranged at equal intervals in the circumferential direction of the outer circumference of the main plate 41 and parallel to the central axis C of the main plate 41. That is, the fan 4 is a cylindrical multi-blade centrifugal fan in which a plurality of blades 42 are arranged at equal intervals on the outer circumference of the circular main plate 41.

A plurality of main plate openings 41a are formed in the main plate 41, and the structure is such that the motor mounting screws 31 for fixing the motor 3 can be seen when viewed from the bottom surface side of the ventilation fan main body 2. The main plate opening 41a is provided in an area corresponding to the position where the motor mounting screw 31 is mounted in the in-plane direction of the top surface 2a of the ventilation fan main body. That is, the main plate opening 41a is formed in a region corresponding to the motor fixing portion 34 that fixes the motor 3 and the top surface 2a of the ventilation fan body in the in-plane direction of the top surface 2a of the ventilation fan body. The motor fixing portion 34 is a place where the motor mounting screw 31 is attached to the motor flange 51. The region corresponding to the motor fixing portion 34 is a region facing the motor fixing portion 34 in a state where the fan 4 is appropriately arranged. The main plate opening 41a is formed to include a region in which the distance from the drive shaft 3a is equal to the distance between the drive shaft 3a and the motor mounting screw 31. The area of the main plate opening 41a is larger than the area of the motor fixing portion 34.

By aligning the position of the motor fixing portion 34 at one location and the position of the main plate opening 41a at one location, the positions of the other motor fixing portions 34 and the positions of the other main plate openings 41a are aligned with the top surface 2a of the ventilation fan body. Each matches in the in-plane direction of. Further, it is preferable that the main plate opening 41a is provided in a larger number than the number of motor mounting screws 31 for fixing the motor 3. By providing more than the number of motor mounting screws 31 for fixing the motor 3, the position of the motor fixing portion 34 and the main plate opening 41a can be easily aligned, and the blade balance is also good.

The fan casing 5 houses the multi-blade blower 1. The fan casing 5 has a suction port 6 formed on the bottom surface as well as an opening on the top surface, and is installed inside the ventilation fan main body 2 to house the motor 3 and the fan 4. The fan casing 5 is not arranged on the top surface 2a side of the ventilation fan body with respect to the fan 4, and is in the surface of the top surface 2a of the ventilation fan body when viewed from the opening 2c side of the bottom surface of the ventilation fan body 2. In the direction, it is arranged at a position that does not overlap with the motor 3 including the motor flange 51. That is, the fan casing 5 is arranged at a position not overlapping the motor 3 on the top surface 2a side of the ventilation fan main body with respect to the fan 4.

The fan casing 5 is fixed to the top surface 2a of the ventilation fan body and guides the air flow to the exhaust port 2b. The fan casing 5 is provided with a fan casing flange 52 on the outer peripheral edge portion for fixing to the top surface 2a of the ventilation fan main body. The fan casing 5 is provided with a resin terminal cover 11 that can be opened and closed. Further, an electric wire connecting device (not shown), which is a terminal block unit to which an external power electric wire can be connected, is provided in a portion covered by the terminal cover 11.

The electric wire connecting device and the motor 3 are electrically connected by an internal electric wire (not shown). As a result, the electric power supplied from the external power supply electric wire connected to the electric wire connecting device flows to the motor 3 via the electric wire connecting device and the internal electric wire, so that the electric energy is transferred to the rotational movement of the drive shaft 3a of the motor 3. Will be converted. The rotational movement of the drive shaft 3a of the motor 3 is transmitted to the fan 4 connected to the drive shaft 3a. As a result, the fan 4 rotates to form an air flow. Due to this air flow, air is sucked from the suction port 6 of the fan casing 5, and the sucked air is discharged from the exhaust port 2b. That is, the fan casing 5 forms an exhaust air passage from the suction port 6 to the exhaust port 2b along the inner wall of the fan casing 5.

Since the ventilation fan 100 does not look good when the internal parts such as the fan casing 5 can be seen from the opening formed in the ceiling, the ventilation fan 100 is provided with a decorative grill 12 which is a design part in order to hide the internal parts and improve the design. The decorative grill 12 includes a spring 13 for attachment to the ventilation fan main body 2. The decorative grill 12 is fixed by hooking the spring 13 on the spring fixing portion 7 provided on the fan casing 5. By attaching the decorative grill 12 by a spring 13, it is possible to cope with fluctuations in the thickness of the ceiling surface, and there is no gap between the ceiling surface and the decorative grill 12. The decorative grill 12 has an effect of preventing foreign matter from being mixed into the multi-blade blower 1 in addition to improving the design of the ventilation fan 100.

Next, a method of attaching the motor 3, the fan 4, and the fan casing 5 in the method of manufacturing the ventilation fan 100 according to the first embodiment will be described. FIG. 4 is a flowchart showing a procedure of a method of attaching the motor 3, the fan 4, and the fan casing 5 to the ventilation fan main body 2 in the method of manufacturing the ventilation fan 100 according to the first embodiment of the present invention.

In the method of attaching the motor 3, the fan 4, and the fan casing 5 according to the first embodiment, in step S10, the motor 3 is assembled and arranged inside the ventilation fan main body 2 from the opening 2c side of the bottom surface of the ventilation fan main body 2. The process is carried out. It should be noted that the assembly is a work of only arranging at a fixed position without including the work of fixing with screws. An opening for assembling the motor 3 is formed on the top surface 2a of the ventilation fan body, and the motor 3 is arranged by superimposing the motor flange 51 on the top surface 2a from the opening 2c side of the bottom surface in the area adjacent to the opening. NS. At this time, the positions of the screw holes 21a formed in the region adjacent to the opening on the top surface 2a of the ventilation fan main body and the positions of the screw holes 51a formed in the motor flange 51 are aligned with each other.

Next, in step S20, the fan 4 is assembled and arranged by inserting and connecting the main plate 41 from the opening 2c side of the bottom surface of the ventilation fan main body 2 to the drive shaft 3a of the motor 3 arranged inside the ventilation fan main body 2. The fan placement process is performed. Then, by attaching the male screw portion 3b of the drive shaft 3a to the screw hole 41b and tightening the screw hole 41b, the fan 4 is fixed to the drive shaft 3a of the motor 3 with a nut.

Next, in step S30, the fan casing is housed inside the ventilation fan main body 2 in which the motor 3 and the fan 4 are arranged, and the motor 3 and the fan 4 are housed inside from the opening 2c side of the bottom surface of the ventilation fan main body 2. A fan casing arranging step of assembling and arranging 5 is performed. The fan casing 5 is arranged so that the fan casing flange 52 provided on the outer peripheral edge portion is aligned with the top surface 2a of the ventilation fan main body. At this time, the positions of the screw holes 2d formed on the top surface 2a of the ventilation fan body and the positions of the screw holes 52a formed on the fan casing flange 52 are aligned with each other.

Next, in step S40, the motor 3 is screwed and fixed from the bottom opening 2c side of the ventilation fan body 2 to the top surface 2a of the ventilation fan body with a motor mounting screw 31, and the fan casing is fixed from the bottom opening 2c side of the ventilation fan body 2. A fixing step of fixing 5 to the top surface 2a of the ventilation fan body with screws 33 for attaching the fan casing is performed.

As described above, since the main plate 41 is formed with a plurality of main plate openings 41a, the motor flange 51 and the motor mounting screw 31 can be seen when viewed from the opening 2c side of the bottom surface of the ventilation fan main body 2. Has been done. Further, the suction port 6 formed on the bottom surface of the fan casing 5 is opened to the outside of the motor flange 51 in the in-plane direction of the top surface 2a of the ventilation fan body. That is, the suction port 6 is opened to the region including the motor flange 51 in the in-plane direction of the top surface 2a of the ventilation fan main body. The fan casing 5 is not arranged on the top surface 2a side of the ventilation fan body with respect to the fan 4, and is in the surface of the top surface 2a of the ventilation fan body when viewed from the opening 2c side of the bottom surface of the ventilation fan body 2. In the direction, it does not overlap the motor 3 including the motor flange 51. Therefore, even after the motor 3, the fan 4, and the fan casing 5 are assembled inside the ventilation fan main body 2 in advance, the motor flange 51 and the screw hole 51a can be seen when viewed from the opening 2c side of the bottom surface of the ventilation fan main body 2. It is said that.

As a result, the motor 3 is screwed and fixed to the top surface 2a of the ventilation fan body and the fan casing 5 is screwed and fixed to the ventilation fan body 2 from the opening 2c side of the bottom surface of the ventilation fan body 2. That is, in step S40, the motor 3 is screwed and fixed to the top surface 2a of the ventilation fan body by attaching and tightening the motor mounting screw 31 to the screw hole 21a and the screw hole 51a. Further, in step S40, the fan casing 5 is screwed and fixed to the ventilation fan main body 2 by attaching and tightening the fan casing mounting screw 33 to the screw hole 2d and the screw hole 52a.

When the fan casing 5 is arranged between the motor flange 51 and the main plate opening 41a in the in-plane direction of the top surface 2a of the ventilation fan body, the motor mounting screw 31 is tightened via the main plate opening 41a. Can't. Therefore, the fan casing 5 is arranged at a position on the top surface 2a side of the ventilation fan main body with respect to the fan 4 so as not to overlap the motor 3 and the motor flange 51.

As described above, after assembling the motor 3, the fan 4, and the fan casing 5 inside the ventilation fan main body 2 in advance, the motor mounting screw, which is a fixing screw, is collectively viewed from the opening 2c side of the bottom surface of the ventilation fan main body 2. It is possible to tighten the 31 and the fan casing mounting screw 33. Therefore, in the method of manufacturing the ventilation fan 100, the screw tightening work of the parts fixed inside the ventilation fan main body 2 can be integrated into one process, so that the efficiency of the assembly work of the ventilation fan 100 is improved and the productivity of the ventilation fan 100 is improved. do.

That is, when assembling and screwing and fixing each part of the motor 3, the fan 4, and the fan casing 5 continuously for each part, assembling the motor 3, screwing and fixing the motor 3, and fixing the fan 4 The work is performed in the order of assembling and fixing the nut, assembling the fan casing 5, and fixing the fan casing 5 with screws. In this case, with respect to the motor 3 and the fan casing 5, the assembling work and the screw tightening work are alternately repeated, so that the work efficiency is deteriorated.

On the other hand, in the method of manufacturing the ventilation fan 100 according to the first embodiment, the work is performed in the order of assembling the motor 3, assembling the fan 4 and fixing the nut, and fixing the motor 3 and the fan casing 5 with screws. This is performed, and the steps of screwing and fixing the motor 3 and the fan casing 5 are integrated into one step, so that the work efficiency is improved.

In addition, a conveyor type production method is generally used as a production method for producing mass-produced products. In the method of manufacturing the ventilation fan 100 according to the first embodiment, the work space for "screw tightening" required at several places on the conveyor can be consolidated into one place, which also contributes to space saving of the work area. do.

Further, in the ventilation fan 100 according to the first embodiment, it is not necessary to remove the fan 4 at the time of maintenance of the motor 3, and the motor 3 and the fan 4 can be removed integrally, so that the maintainability of the motor 3 is improved. ..

Further, in the above, the motor 3 and the fan 4 are individually arranged inside the ventilation fan main body 2 of the ventilation fan 100 in advance, but the main body of the ventilation fan 100 is the one in which the motor 3 and the fan 4 are assembled and fixed first. It can also be assembled inside. In this case, after the motor 3 and the fan 4 are fixedly arranged from the opening 2c side of the bottom surface of the ventilation fan body 2 to the inside of the ventilation fan body 2 by assembling the motor 3, the opening 2c side of the bottom surface of the ventilation fan body 2 is arranged. Therefore, the fan casing 5 is arranged inside the ventilation fan main body 2. After that, the motor 3 is screwed and fixed, and the fan casing 5 is screwed and fixed to the ventilation fan main body 2.

In the above, the ventilation fan 100 which is a ventilation fan for ducts has been described, but the structure and manufacturing method of the ventilation fan 100 according to the first embodiment are based on the positional relationship between the motor 3 and the fan 4 in addition to the ventilation fan for ducts. It can be applied to equipment such as a blower and an air conditioner having the same configuration as the ventilation fan 100 according to the first embodiment.

As described above, in the ventilation fan 100 according to the first embodiment, the screw tightening work, which is the same work that occurs as an independent process for each of a plurality of parts in the assembly work, is integrated into one process and collectively from the same direction. It is possible to do it. Therefore, the ventilation fan 100 according to the first embodiment has an effect that the efficiency of the assembling work can be improved.

The configuration shown in the above-described embodiment shows an example of the content of the present invention, can be combined with another known technique, and is one of the configurations without departing from the gist of the present invention. It is also possible to omit or change the part.

1 Multi-blade blower, 2 Ventilation fan body, 2a Ventilation fan body top surface, 2b Exhaust port, 2c Bottom opening, 2d, 21a, 41b, 51a, 52a Screw hole, 3 Motor, 3a Drive shaft, 3b Male screw part, 4 fan, 5 fan flange, 6 suction port, 7 spring fixing part, 8 duct connection part, 9 shutter, 11 terminal cover, 12 decorative grille, 13 spring, 14 duct, 31 motor mounting screw, 33 fan casing mounting screw , 34 Motor fixing part, 41 Main plate, 41a Main plate opening, 42 wings, 51 Motor flange, 52 Fan casing flange, 100 Ventilation fan.

Claims (4)

A box-shaped blower body with an open bottom that forms an intake port and an exhaust port on the side,
A motor installed on the blower body with the drive shaft protruding toward the bottom surface of the blower body and fixed to the top surface of the blower body.
A circular main plate fixed to the drive shaft in a state where the central axis is coaxial with the drive shaft, and arranged parallel to the central axis of the main plate toward the bottom surface side of the blower main body on the outer periphery of the main plate. With multiple wings installed, with a fan,
A fan casing in which the top surface is opened and a suction port is formed on the bottom surface, the motor and the fan are housed inside the blower body, and the fan casing is fixed inside the blower body.
It is a blower with
The motor has a motor fixing portion that can be screwed and fixed from the bottom surface side of the blower body to the top surface of the blower body with screws for attaching the motor.
The fan can be fixed to the drive shaft from the bottom surface side of the blower main body.
In the main plate, an opening of the main plate is formed in a region corresponding to a motor fixing portion for fixing the motor and the top surface of the blower main body.
The main plate opening is formed to include a region in which the distance from the drive shaft is equal to the distance between the drive shaft and the motor mounting screw.
The fan casing is disposed in a position that does not overlap the motor at top side of the blower body than the fan,
The quantity of the main plate opening is larger than the quantity of the motor fixing portion.
A blower that features. A box-shaped blower body with an open bottom that forms an intake port and an exhaust port on the side,
A motor installed on the blower body with the drive shaft protruding toward the bottom surface of the blower body and fixed to the top surface of the blower body.
A circular main plate fixed to the drive shaft in a state where the central axis is coaxial with the drive shaft, and arranged parallel to the central axis of the main plate toward the bottom surface side of the blower main body on the outer periphery of the main plate. With multiple wings installed, with a fan,
A fan casing in which the top surface is opened and a suction port is formed on the bottom surface, the motor and the fan are housed inside the blower body, and the fan casing is fixed inside the blower body.
It is a blower with
The motor has a motor fixing portion that can be screwed and fixed from the bottom surface side of the blower body to the top surface of the blower body with screws for attaching the motor.
The fan can be fixed to the drive shaft from the bottom surface side of the blower main body.
In the main plate, an opening of the main plate is formed in a region corresponding to a motor fixing portion for fixing the motor and the top surface of the blower main body.
The main plate opening is formed to include a region in which the distance from the drive shaft is equal to the distance between the drive shaft and the motor mounting screw.
The fan casing is arranged at a position not overlapping the motor on the top surface side of the blower main body with respect to the fan.
The fan casing can be screwed and fixed from the bottom surface side of the blower body.
Wind devices send it said. The main body of the blower, which has a box-like shape with an open bottom that forms the air intake and has an exhaust port on the side.
A motor that is housed inside the blower body and fixed to the top surface of the blower body with the drive shaft protruding toward the bottom surface of the blower body.
A circular main plate fixed to the drive shaft in a state where the central axis is coaxial with the drive shaft, and arranged parallel to the central axis of the main plate toward the bottom surface side of the blower main body on the outer periphery of the main plate. With multiple wings installed, with a fan,
A fan casing in which the top surface is opened and a suction port is formed on the bottom surface, the motor and the fan are housed inside the blower body, and the fan casing is fixed to the blower body.
It is a manufacturing method of a blower having
A motor placement process for arranging the motor inside the blower body, and
A fan arranging step of arranging the fan on the motor arranged inside the blower main body, and
A fixing step of screwing and fixing the motor from the bottom surface side of the blower body to the top surface of the blower body, and
Only including,
In the fixing step, the motor is blown from the bottom surface side of the blower main body through a main plate opening formed in a region corresponding to the motor fixing portion for fixing the motor and the top surface of the blower main body. Fix it with screws on the top surface of the device body,
The quantity of the main plate opening is larger than the quantity of the motor fixing portion.
A method of manufacturing a blower, which is characterized by. The main body of the blower, which has a box-like shape with an open bottom that forms the air intake and has an exhaust port on the side.
A motor that is housed inside the blower body and fixed to the top surface of the blower body with the drive shaft protruding toward the bottom surface of the blower body.
A circular main plate fixed to the drive shaft in a state where the central axis is coaxial with the drive shaft, and arranged parallel to the central axis of the main plate toward the bottom surface side of the blower main body on the outer periphery of the main plate. With multiple wings installed, with a fan,
A fan casing that opens the top surface and forms a suction port on the bottom surface to store the motor and the fan inside the blower main body and is fixed to the blower main body.
It is a manufacturing method of a blower having
A motor placement process for arranging the motor inside the blower body, and
A fan arranging step of arranging the fan on the motor arranged inside the blower main body, and
A fixing step of screwing and fixing the motor from the bottom surface side of the blower body to the top surface of the blower body, and
Including
Inside the blower main body in which the motor and the fan are arranged, the fan casing is arranged at a position on the top surface side of the blower main body with respect to the fan so as not to overlap the motor, and is temporarily fixed by screws. Has a fan casing process,
In the fixing step, the fan casing is screwed and fixed to the blower main body from the bottom surface side of the blower main body.
Manufacturing method of sending wind equipment it said.

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