JP2007315692A - Rotating fan and blower - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a rotating fan and blower which reduces noise generated when the rotating fan is rotatively driven by reducing vibration of a driving means propagated to the rotating fan via a rotary shaft. <P>SOLUTION: A through hole 9e for fitting in the rotary shaft 8a is formed in the rotating fan 9 of the blower 1. A groove part 9j is formed on an inner side face of the through hole 9e. By the groove part 9j, a space is formed between an outer surface of the rotary shaft 8a and an inner surface of the through hole 9e, and an abutting area of the through hole 9e and the rotary shaft 8a is reduced. By reducing the abutting area, propagation of vibration of a rotating means 8 to the rotating fan 9 via the rotary shaft 8a is suppressed. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a rotary fan in which a through hole for inserting a rotary shaft is formed, and an air conditioner having the rotary fan and a driving unit for rotating the rotary shaft inserted into the through hole.

  In general buildings, many air blowers are installed to perform air conditioning in the building. In particular, in recent years, it has been required to install a 24-hour ventilation system in a building having a living room, so that a bathroom air conditioner or the like is often used as a blower for indoor ventilation.

  In general, a multi-blade fan such as a sirocco fan is used as a blower for indoor ventilation. The sirocco fan has a structure in which air is sucked and discharged from the center of rotation to the circumferential direction by rotating a disk-shaped fan having a plurality of blades disposed on the peripheral edge. Since the blower using a sirocco fan can reduce the thickness (height) of equipment due to its structure, it is easy to design the apparatus main body compactly. For this reason, the blower using a sirocco fan is easy to install on a bathroom ceiling or the like where installation space is limited, and is most often used in a bathroom air conditioner or the like (see, for example, Patent Document 1).

The sirocco fan is fixed to the rotating shaft of the fan motor, and the sirocco fan rotates by rotating the rotating shaft.
JP 2004-340407 A (page 4-6, FIG. 1)

  However, when the sirocco fan is rotated by rotating the rotating shaft by the fan motor, the abnormal noise generated by the vibration of the fan motor is transmitted to the sirocco fan through the rotating shaft and becomes noise and is emitted from the blower. There was a risk of being lost.

  The present invention has been made in view of the above problems, and can reduce the vibration of the driving means transmitted to the rotating fan via the rotating shaft and reduce the noise generated when the rotating fan is driven to rotate. It is an object of the present invention to provide a possible rotating fan and blower.

  In order to solve the above-mentioned problems, a rotating fan according to the present invention is characterized in that a through hole for inserting a rotating shaft is formed, and a groove is formed on an inner surface of the through hole.

  Thus, by forming the groove on the inner surface of the through hole, a space is created between the outer surface of the rotating shaft and the inner surface of the through hole by the groove, and the contact area between the through hole and the rotating shaft is reduced. To do. Thus, by reducing the contact area, it is possible to suppress the vibration of the rotating means from propagating to the rotating fan via the rotating shaft, and to reduce the generation of noise in the rotating fan. .

  A plurality of the groove portions may be formed in the through hole.

  By forming a plurality of groove portions on the inner surface of the through hole, the contact area between the through hole and the rotating shaft can be further reduced, so that the generation of noise in the rotating fan can be further reduced.

  Furthermore, the plurality of groove portions formed may be provided at equal intervals on the inner surface.

  By providing the groove portions at equal intervals on the inner surface of the through hole, the contact balance between the outer peripheral surface of the rotating shaft and the inner surface of the through hole is likely to be uniform, reducing rotational blur of the rotating fan when rotating the rotating fan. It becomes possible to do. In addition, since the contact balance with the through hole in the rotating shaft becomes uniform, it becomes easy to transmit the rotational force of the rotating shaft to the rotating fan evenly, so that loss of drive efficiency during rotation of the rotating fan can be reduced. It becomes easy.

  Moreover, the said through-hole may exhibit D-shaped cross-sectional opening shape, and the said groove part may be formed in the inner surface of the said through-hole which makes the said cross-sectional opening.

  Thus, when the cross-sectional opening of the through hole is formed in a D-shape, it becomes possible to fit the rotation shaft having the D-shaped cross-section into the through-hole. When the rotating shaft is inserted into the through-hole, the linear edge of the D-shaped cross-sectional opening and the flat side surface portion of the rotating shaft come into contact with each other, and the rotating fan is reliably rotated by this contact surface. It becomes possible to make it.

  Furthermore, there may be a straight edge portion of the cross-sectional opening having a D-shape and a notch portion formed at least at one end portion.

  As described above, the cut-out portion is formed by forming a notch at at least one end of the straight edge of the cross-sectional opening, more preferably at the end of the straight edge to which pressure is applied as the rotary shaft rotates. When the rotation shaft formed in a D-shape is about to rotate, the acute angle portion of the rotation shaft does not press against the edge of the opening due to the space of the notch. In this case, the flat side surface of the rotating shaft is in pressure contact at some end points of the notch, but this pressure contact area is smaller than the pressure contact area in the conventional through hole. It is possible to reduce the rate at which the vibration of the rotating shaft propagates to the rotating fan.

  The blower according to the present invention includes the above-described rotary fan and a rotary shaft having a D-shaped cross section that fits into the through hole of the rotary fan, and the rotary fan is driven and rotated. And a drive means for rotating.

  By configuring the blower using the above-described rotating fan, the contact area between the through hole and the rotating shaft can be reduced by the groove, and the vibration of the rotating means transmitted through the rotating shaft propagates to the rotating fan. Can be suppressed. Furthermore, by forming a plurality of groove portions on the inner side surface of the through hole, the contact area between the through hole and the rotating shaft can be further reduced, so that the vibration is further prevented from propagating to the rotating fan. be able to.

  Further, by providing the groove portions on the inner side surface of the through hole at equal intervals, the contact balance between the outer peripheral surface of the rotating shaft and the inner side surface of the through hole tends to be equalized, and the rotational vibration of the rotary fan when rotating the rotary fan is facilitated. Can be reduced. Furthermore, since the contact balance with the through hole in the rotating shaft is equalized, it becomes easier to transmit the rotational force of the rotating shaft to the rotating fan evenly, thereby reducing the loss of drive efficiency during rotation of the rotating fan. It becomes easy.

  According to the rotating fan and the air blower according to the present invention, the contact area between the through hole and the rotating shaft can be reduced by the groove, so that the vibration of the rotating means transmitted through the rotating shaft is propagated to the rotating fan. It becomes possible to suppress, and it becomes possible to reduce the noise emitted from an air blower.

  Hereinafter, the case where the air blower according to the present invention is used as a bathroom air conditioner will be described.

  FIG. 1 is a perspective view showing a bathroom air conditioner, and FIG. 2 is a side sectional view showing the bathroom air conditioner. The bathroom air conditioner 1 includes a fan unit 2, a main body case 3, a damper 4, a fan cover 5, a heater 6, and a front panel 7.

  The fan unit 2 includes a fan motor (drive means) 8 and a sirocco fan (rotary fan) 9. The fan motor 8 is installed above the sirocco fan 9, and a rotating shaft 8a for rotating the sirocco fan 9 is suspended from the lower surface of the fan motor as shown in FIG.

  The rotating shaft 8a has a cylindrical shape, and a support member 8b for supporting the sirocco fan 9 from the base side is provided at the base (fan motor 8 side). Further, at the end of the rotating shaft 8a, a side part of the shaft is cut to form a D-cut portion 8c having a D-shaped cross-sectional shape, and a cap nut 10 is screwed to the tip of the D-cut portion 8c. A thread groove portion 8d is formed.

  As shown in FIG. 4, the sirocco fan 9 has a plurality of blades 9b disposed on the peripheral edge of a disk-shaped base 9a, and the rotating shaft 8a of the fan motor 8 passes through the center of the base 9a. A through hole 9e is formed. As shown in FIGS. 5A and 5B, the through hole 9e of the sirocco fan 9 is provided with a plurality of grooves 9j on the inner wall surface with respect to the cross-sectional opening formed in a D-shape. An opening 9f is formed.

  The D-shaped cross-sectional opening has a cross-sectional shape into which the D-cut portion 8c is fitted when the rotating shaft 8a is inserted into the through hole 9e. The groove portions 9j are provided at five locations on the curved surface side of the D-shaped cross-sectional opening, and the respective groove portions 9j are provided at equal intervals so as to maintain a constant distance from each other in the extending direction of the through hole 9e. It has been.

Further, the opening 9f of the through hole 9e has a concave notch at both ends of the linear edge 9g of the opening 9f so as to face the acute angle portion 8e (8e ₁ , 8e ₂ ) of the D cut portion 8c. 9h (9h ₁ , 9h ₂ ) is formed. The notch 9h is formed in a groove shape on the linear edge 9g so as to extend in the extending direction of the through hole 9e.

  As shown in FIG. 4, the base 9a of the sirocco fan 9 is formed with a plurality of strip-shaped holes 9k at positions on a concentric circle centering on the through hole 9e. The belt-like holes 9k are provided in triplicate according to the distance from the through-hole 9e so that the end of one belt-like hole 9k overlaps with the end of another belt-like hole 9k located on the center side or the outer peripheral side. Thus, they are arranged in a staggered pattern.

  The main body case 3 is a box having an opening opened downward, and as shown in FIG. 6, a fan storage portion 12 for installing the fan unit 2 and a damper 4 for storing the damper 4 as a blower portion. A damper storage portion 13 is formed.

  The damper storage part 13 is a recess in which the damper 4 can be rotatably stored. A heater 6 is installed below the damper storage part 13 and a blower outlet 15 to be described later is formed. An exhaust port 16 for exhausting air to the outside is formed on the side wall of the storage unit 13.

  Here, the damper 4 has a substantially rectangular shape in plan view, and has a gently curved shape with a convex central portion when viewed from the side as shown in FIG. A shaft 4 a is formed at the lower end of the damper 4, and both ends of the shaft 4 a are pivotally supported on the side wall of the damper storage portion 13. Further, a rib 4b is formed on the lower surface of the damper 4, and a guide hole 4c for guiding the protruding portion 19 of the cam 18 that is rotated according to the operation mode of the bathroom air conditioner 1 is formed on the rib 4b. ing. When the cam 18 rotates, the stop position of the projection 19 changes according to the rotation angle, and the rotation angle of the damper 4 is adjusted.

  The fan storage portion 12 is a substantially cylindrical recess whose diameter is larger than the diameter of the sirocco fan 9. The fan motor 8 is installed on the upper surface of the main body case 3, and an opening 12 a formed at the center of the fan storage portion 12. Further, the sirocco fan 9 is housed in the fan housing portion 12 with the rotating shaft 8a protruding so that the center of the base 9a of the sirocco fan 9 is fixed to the tip of the rotating shaft 8a.

  Specifically, the rotating shaft 8a of the fan motor 8 is protruded from the opening 12a of the fan housing portion 12, and as shown in FIG. 3, an elastic layer 17a formed of rubber or the like is provided as an intermediate layer. The washer 17 with the metal plate 17b sandwiched between the rotating shafts 8a is inserted, and then the sirocco fan 9 is inserted. In this case, since the support member 8b is brought into contact with one end face of the washer 17, the movement of the sirocco fan 9 toward the base side of the rotating shaft 8a is restricted. Further, as described above, since the opening 9f of the through hole 9e is formed in a D-shape, the D-cut portion 8c of the rotating shaft 8a is regulated by the D-shaped cross-sectional opening of the through-hole 9e. Become.

  Thereafter, another washer 17 was inserted, and the cap nut 10 was screwed into the thread groove 8d formed at the end of the rotating shaft 8a, so that the sirocco fan 9 was sandwiched between the washer 17 positioned above and below. In this state, the support member 8b and the cap nut 10 are fixed to the rotary shaft 8a.

In addition, since the D cut part 8c of the rotating shaft 8a is fitted into the D-shaped cross-sectional opening of the through hole 9e, the rotation of the rotating shaft 8a is suppressed by pressing the sirocco fan 9 when the cap nut 10 is tightened. Can be regulated. When the sirocco fan 9 is fixed to the rotary shaft 8a in this way, the periphery of the end portion of the straight edge portion 9g of the D-shaped opening in the through hole 9e to which torque is applied by the cap nut 10 Although it tends to be in a state of being pressed against the end surface of the flat side surface portion 8f of the D cut portion 8c of 8a, as shown in FIG. 5B, the D cut portion 8c is provided at both ends of the linear edge portion 9g in the opening portion 9f. for so as to face the acute angle portion 8e is recessed notch 9h are formed, sharp corners 8e ₁ of the direction of the rotation axis 8a is to rotate the pressure with the rotation of the rotary shaft 8a is applied never pressed against the edge of the opening 9f by a linear-like rim portion 9g end the formed notch concave space 9h ₁ of. In this case, the flat side surface portions 8f of the D-cut portion 8c is so that the pressure contact with the end point 9i notch 9h _1, the pressure contact surface area becomes smaller area than pressure area in the conventional through holes.

  Between the side wall surface 12b of the fan housing 12 and the outer peripheral side 9c of the sirocco fan 9, there is a narrow passage 20 for allowing the sucked air to pass to the outer peripheral side 9c of the sirocco fan 9, as shown in FIG. It extends about 3/4 rounds counterclockwise along. Further, the narrow passage 20 is communicated with an expansion passage 21 that guides air passing through the narrow passage 20 to the damper storage portion 13.

  The passage 21 has a wider passage as it extends from the narrow passage 20 to the damper storage portion 13, and one side wall 21 a of the passage extends from the side wall surface 12 b of the fan storage portion 12 to the exhaust port 16. The other side wall 21 b is formed by the outer peripheral side 9 d of the sirocco fan 9 and the side wall 22 a of the tongue-like wall portion 22 that forms the boundary between the narrow passage 20 and the damper storage portion 13.

  As shown in FIGS. 1 and 2, the fan cover 5 is installed so as to cover the lower surface of the main body case 3. The fan cover 5 is formed with a suction hole 5a for guiding air to the center of the sirocco fan 9, and a blowout hole 5b for circulating the air carried to the damper storage part 13 indoors. . The suction hole 5 a is a circular opening formed so as to face the front surface of the base 9 a of the sirocco fan 9, and the blowout hole 5 b is a substantially rectangular opening formed so as to face the damper storage portion 13. By installing the fan cover 5 on the lower surface of the main body case 3, the lower surfaces of the narrow passage 20 and the wide passage 21 are constituted by the fan cover 5.

  A heater 6 is installed in the blowout hole 5 b of the fan cover 5. A PTC heater is used as the heater 6, and ON / OFF control of the heater 6 is performed by measuring the temperature of air heated by a sensor (not shown).

  A front panel 7 is installed on the lower surface of the main body case 3 on which the fan cover 5 is installed. In the front panel 7, a suction port 30 is formed at a position corresponding to the suction hole 5 a of the fan cover 5, and a blower outlet 15 is formed at a position corresponding to the blowout hole 5 b of the fan cover 5. A filter for preventing the inhalation of dust is detachably attached to the suction port 30. The bathroom air conditioner 1 is fixed to the ceiling surface 33 so that the main body case 3 protrudes in the direction of the ceiling, and is installed in the bathroom with only the front panel 7 exposed on the ceiling surface 33 of the bathroom.

  Next, the case where the bathroom air conditioner 1 comprised in this way operates is demonstrated.

  When operating the bathroom air conditioner 1, the user selects the operation mode by operating an operation panel 40 (see FIG. 8) installed in a bathroom dressing room or the like. Specifically, a heating mode that heats the bathroom, a ventilation mode that ventilates the bathroom, a drying mode that hangs clothes etc. on a laundry pipe installed in the bathroom, and dries clothes, etc. Select the cool air mode that uses the bathroom air conditioner like a fan in summer. Furthermore, in a building that needs to be ventilated for 24 hours (ventilate the living room at a rate of once every 2 hours), a 24-hour ventilation mode switch (not shown) is pressed, and the operation mode of the bathroom air conditioner 1 is not selected. In some cases, a 24-hour ventilation mode is operated.

  When the operation mode is selected by the user, the selected operation mode information is transmitted to the control unit 41 installed in the bathroom air conditioner 1, as shown in FIG. The controller 41 controls the rotation angle of the cam 18 by driving the cam driving motor 42 according to the selected operation mode, and adjusts the rotation position of the damper 4 to full open, half open, or full closed. To do. Further, the control unit 41 drives the fan motor 8 of the fan unit 2 according to the selected operation mode to adjust the rotational speed of the sirocco fan 9 to either strong or weak, and to turn the heater 6 on / off. Take control.

  Note that the state where the rotation position of the damper 4 is fully closed means that the damper 4 is rotated to a position where the exhaust port 16 is closed and flows through the narrow passage 20 and the expansion passage 21 as shown in FIG. This means a state in which air is guided to the air outlet 15 (see the air flow indicated by arrows A to B in FIG. 2), and the fully opened state closes the air outlet 15 as shown in FIG. 9A. A state in which the damper 4 is rotated to a position to guide the air flowing through the narrow passage 20 and the wide passage 21 to the exhaust port 16 (see the air flow indicated by arrows A to C in FIG. 9A). The half-open state means that the damper 4 is shown in FIG. 9B in order to guide the air flowing through the narrow passage 20 and the wide passage 21 to both the blowout port 15 and the exhaust port 16. In the state shown in FIG. 9B (air indicated by arrows A to B and arrows A to C in FIG. 9B). It refers to the flow reference).

  Next, the operation of the bathroom air conditioner 1 will be described separately for each operation mode.

<In the heating mode>
When the heating mode is set by the user, as shown in FIG. 2, the control unit 41 turns the damper 4 to the fully closed position, sets the rotation speed of the sirocco fan 9 to be strong, and turns the heater 6 on. Turn it on. When the rotation speed of the sirocco fan 9 is set to be strong, the air in the bathroom is sucked into the main body case 3 from the suction port 30 as the sirocco fan 9 rotates.

  When the sirocco fan 9 rotates, a plurality of groove portions 9j are formed on the inner side surface of the through hole 9e. Therefore, the rotation shaft 8a and the inner side surface of the through shaft 4a are compared with the sirocco fan 9 that does not have the groove portion 9j. The contact area is reduced. Since the contact area is thus reduced, it is possible to reduce the rate at which the vibration of the fan motor 8 propagates to the sirocco fan 9 via the rotating shaft 8a.

  In addition, since the plurality of groove portions 9j are provided at regular intervals, the strength of the peripheral edge portion of the through hole 9e is likely to be lower than that in the case where the groove portions 9j are not provided. For this reason, the vibration propagated to the sirocco fan 9 through the contact portion between the outer surface of the rotating shaft 8a and the inner surface of the through hole 9e is easily attenuated in the vicinity of the periphery of the through hole 9e and propagates in the outer peripheral direction. It is possible to reduce the generated vibration.

  Further, since the plurality of groove portions 9j are provided at equal intervals so as to maintain a constant interval with each other, the contact balance between the outer peripheral surface of the rotating shaft 8a and the inner surface of the through hole 9e is likely to be uniform, and the sirocco It becomes possible to reduce rotational blur of the fan 9. Further, since the contact balance between the rotating shaft 8a and the through-hole 9e is equalized, the rotational force of the rotating shaft 8a can be easily transmitted to the sirocco fan 9. Therefore, the driving efficiency is lost when the sirocco fan 9 is rotated. Can be reduced.

In addition, when the sirocco fan 9 rotates, torque associated with the rotation of the rotary shaft 8a is applied to the linear edge portion 9g of the D-shaped opening in the through hole 9e and around the end portion on the direction in which the rotary shaft 8a rotates. Thus, the end surface of the flat side surface portion 8f in the D-cut portion 8c and the end portion of the straight edge portion 9g of the D-shaped opening in the through hole 9e are likely to be in pressure contact with each other. However, as shown in FIGS. 5A and 5B, concave notches 9h are formed at both ends of the straight edge 9g in the opening 9f so as to face the acute angle portion 8e of the D-cut portion 8c. Therefore, the acute angle portion 8e ₁ on the side of the direction in which the rotation shaft 8a tries to rotate is a notch portion 9h ₁ formed at the end of the linear edge portion 9g to which pressure is applied as the rotation shaft 8a rotates. The concave space does not press against the edge of the opening 9f.

In this case, as described above, the flat side surface portion 8f of the D-cut portion 8c is so that the pressure contact with the end point 9i notch 9h _1, the pressure contact area is less area than pressure area in the conventional through-hole Therefore, it is possible to reduce the rate at which the vibration of the rotary shaft 8a propagates to the sirocco fan 9 via the pressure contact surface.

  The vibration of the fan motor 8 transmitted through the contact surface of the through hole 9e of the sirocco fan 9 is transmitted to the blade 9b formed on the outer peripheral edge through the base 9a of the fan motor 8. However, a plurality of strip-shaped holes 9k are formed in the base 9a, and the strip-shaped holes 9k overlap the end portions of the other strip-shaped holes 9k located on the center side or the outer peripheral side. In this way, they are arranged in a zigzag pattern.

  For this reason, the vibration propagated from the through hole 9e to the outer peripheral side of the base 9a is blocked by the belt-like hole 9k and propagates in a zigzag manner through the belt-like holes 9k arranged in a staggered manner ( (Refer to the chain line indicated by the symbol D in FIG. 4). By arranging the band-shaped holes 9k in a staggered manner in this way, vibrations propagated to the outer peripheral side can be reduced, and vibrations can be propagated in a zigzag manner, so that from the through holes 9e to the blades 9b. The transmission distance becomes longer and it becomes easier to attenuate the vibration.

  Furthermore, since the rigidity of the base 9a of the sirocco fan 9 is reduced by providing the belt-shaped hole 9k, the peak frequency of noise generated in the sirocco fan 9 can be shifted to a low frequency. For this reason, by shifting the peak frequency of the noise generated in the fan motor 8 and the peak frequency of the noise generated in the sirocco fan 9, the mutual vibrations are prevented from resonating and the noise generated in the entire air conditioner is reduced. Is possible.

  In particular, the noise peak frequency of the fan motor 8 is determined by the output performance of the fan motor 8 and the like, and it is difficult to intentionally shift the noise peak frequency. For this reason, it becomes possible to reduce the noise of a bathroom air conditioner effectively by shifting the peak frequency of the noise in the sirocco fan 9 by providing the strip-shaped hole 9k.

  In general, vibration generated with the operation of the fan motor 8 generates significant noise at a frequency that is a multiple of the power supply frequency. In the sirocco fan 9 made of ABS resin (thermoplastic resin made of acrylonitrile, butadiene, styrene), the above-described groove 9j, notch 9h, fan bathroom air conditioner in which the belt-like hole 9k is not formed, and the groove 9j, When the noise level of the bathroom air conditioner 1 of the fan in which the notch portion 9h and the strip-shaped hole 9k are formed is compared at 200 Hz where the noise is significant, the fan in which the groove portion 9j, the notched portion 9h, and the strip-shaped hole 9k are formed. The noise value was about 2/3 lower than that of the fan that was not formed. The amount of reduction in the noise value varies depending on the material of the sirocco fan 9 (for example, when PP resin (polypropylene resin) or the like is used instead of ABS resin), the driving force of the fan motor 8, or the like. However, the fan provided with the groove 9j and the notch 9h tended to have a lower noise value than the fan not provided with the groove 9j and the notch 9h.

  In addition, since the washer 17 provided above and below the sirocco fan 9 is formed with an elastic layer 17a in the middle, the vibration propagated through the rotating shaft 8a is attenuated by the elastic layer 17a, and the sirocco fan 9 It is possible to further reduce the noise transmitted to.

  The air sucked from the suction port 30 passes between the blades 9 b of the sirocco fan 9 and is guided to the damper storage portion 13 through the narrow passage 20 and the expansion passage 21. The air guided to the damper housing portion 13 flows to the heater 6 along the concave curved surface on the lower surface side of the damper 4, and after being heated by the heater 6, is circulated into the bathroom through the air outlet 15. The

<Ventilation mode and 24-hour ventilation>
When the ventilation mode is set by the user, the control unit 41 rotates the damper 4 to the fully open position and sets the rotation speed of the sirocco fan 9 to be strong as shown in FIG. Set 6 to OFF. When the rotation speed of the sirocco fan 9 is set to be strong, air in the bathroom is sucked into the main body case 3 through the suction port 30 as the sirocco fan 9 rotates.

  When the sirocco fan 9 rotates, a plurality of groove portions 9j are formed on the inner side surface of the through hole 9e. Therefore, the rotation shaft 8a and the inner side surface of the through shaft 4a are compared with the sirocco fan 9 that does not have the groove portion 9j. The contact area is reduced. Since the contact area is thus reduced, it is possible to reduce the rate at which the vibration of the fan motor 8 propagates to the sirocco fan 9 via the rotating shaft 8a.

  In addition, since the plurality of groove portions 9j are provided at regular intervals, the strength of the peripheral edge portion of the through hole 9e is likely to be lower than that in the case where the groove portions 9j are not provided. For this reason, the vibration propagated to the sirocco fan 9 through the contact portion between the outer surface of the rotating shaft 8a and the inner surface of the through hole 9e is easily damped in the vicinity of the periphery of the through hole 9e. It becomes possible to reduce the vibration in the direction.

  Further, since the plurality of groove portions 9j are provided at equal intervals so as to maintain a constant interval with each other, the contact balance between the outer peripheral surface of the rotating shaft 8a and the inner surface of the through hole 9e is likely to be uniform, and the sirocco It becomes possible to reduce rotational blur of the fan 9. Further, since the contact balance between the rotating shaft 8a and the through hole 9e is equalized, the rotational force of the rotating shaft 8a can be easily transmitted to the sirocco fan 9, so that the driving efficiency is lost when the sirocco fan 9 rotates. Can be reduced.

Further, when the sirocco fan 9 rotates, the D-cut portion 8c is formed around the end of the linear edge portion 9g of the D-shaped opening in the through hole 9e on the direction side in which the rotating shaft 8a rotates. of so as to face the acute angle portion 8e for recessed notch 9h are formed, the area where the end face of the flat side surface portions 8f of the D-cut portion 8c is pressed against the end point 9i notch 9h _1, the conventional through The pressure contact area in the hole can be reduced. For this reason, it becomes possible to reduce the rate that the vibration of the rotating shaft 8a propagates to the sirocco fan 9 via the pressure contact surface.

  The base 9a of the sirocco fan 9 has a plurality of band-like holes 9k staggered so that the end of one band-like hole 9k overlaps with the end of another band-like hole 9k located on the center side or the outer peripheral side. Therefore, the vibration of the fan motor 8 transmitted to the outer peripheral side of the sirocco fan 9 can be reduced, and the vibration can be easily attenuated by propagating the vibration in a zigzag manner.

  Furthermore, since the rigidity of the base 9a of the sirocco fan 9 can be reduced by providing the belt-shaped hole 9k, the peak frequency of noise generated by the sirocco fan 9 can be shifted to a low frequency, and the air conditioner It becomes possible to reduce the noise generated as a whole.

  In addition, since the washer 17 provided above and below the sirocco fan 9 is formed with an elastic layer 17a in the middle, the vibration propagated through the rotating shaft 8a is attenuated by the elastic layer 17a, and the sirocco fan 9 It is possible to further reduce the noise transmitted to.

  The air sucked from the suction port 30 passes between the blades 9 b of the sirocco fan 9 and is guided to the damper storage portion 13 through the narrow passage 20 and the expansion passage 21.

  The air that has flowed to the damper storage portion 13 flows to the exhaust port 16 as it is, and is discharged to the outside or another room by an exhaust pipe connected to the exhaust port 16.

  In addition, when performing ventilation for 24 hours, while the control part 41 rotates the damper 4 to a full open position, the rotational speed of the sirocco fan 9 is set to weak, and the heater 6 is turned off. In the 24-hour ventilation mode, the wind speed of the air introduced into the main body case 3 becomes weak, and there is a difference that the sirocco fan 9 is driven intermittently or continuously as necessary. Air will be inhaled and exhausted through this route.

  In the case of 24-hour ventilation, since the fan unit 2 operates at midnight, the sirocco fan 9 is formed with a groove 9j, a notch 9h, and a belt-like hole 9k, and the vibration of the fan motor that propagates through the rotary shaft 8a is generated. By reducing it, indoor ventilation can be performed while ensuring a remarkable noise reduction effect. In particular, in the bathroom air conditioner 1 in which the sirocco fan 9 rotates intermittently or continuously by 24-hour ventilation or the like, noise reduction associated with the formation of the groove 9j becomes more effective.

<Dry mode and cool breeze mode>
When the user sets the drying mode, as shown in FIG. 9B, the control unit 41 rotates the damper 4 to the half-open position and sets the rotation speed of the sirocco fan 9 to be strong. Set 6 to ON. When the rotation speed of the sirocco fan 9 is set to be strong, air in the bathroom is sucked into the main body case 3 through the suction port 30 as the sirocco fan 9 rotates.

  When the sirocco fan 9 rotates, a plurality of groove portions 9j are formed on the inner side surface of the through hole 9e. Therefore, the rotation shaft 8a and the inner side surface of the through shaft 4a are compared with the sirocco fan 9 that does not have the groove portion 9j. The contact area is reduced. Since the contact area is thus reduced, it is possible to reduce the rate at which the vibration of the fan motor 8 propagates to the sirocco fan 9 via the rotating shaft 8a.

  In addition, since the plurality of groove portions 9j are provided at regular intervals, the strength of the peripheral edge portion of the through hole 9e is likely to be lower than that in the case where the groove portions 9j are not provided. For this reason, the vibration propagated to the sirocco fan 9 through the contact portion between the outer surface of the rotating shaft 8a and the inner surface of the through hole 9e is easily damped in the vicinity of the periphery of the through hole 9e. It becomes possible to reduce the vibration in the direction.

  Further, since the plurality of groove portions 9j are provided at equal intervals so as to maintain a constant interval with each other, the contact balance between the outer peripheral surface of the rotating shaft 8a and the inner surface of the through hole 9e is likely to be uniform, and the sirocco It becomes possible to reduce rotational blur of the fan 9. Further, since the contact balance between the rotating shaft 8a and the through hole 9e is equalized, the rotational force of the rotating shaft 8a can be easily transmitted to the sirocco fan 9, so that the driving efficiency is lost when the sirocco fan 9 rotates. Can be reduced.

Further, when the sirocco fan 9 rotates, the D-cut portion 8c is formed around the end of the linear edge portion 9g of the D-shaped opening in the through hole 9e on the direction side in which the rotating shaft 8a rotates. of so as to face the acute angle portion 8e for recessed notch 9h are formed, the area where the end face of the flat side surface portions 8f of the D-cut portion 8c is pressed against the end point 9i notch 9h _1, the conventional through The pressure contact area in the hole can be reduced. For this reason, it becomes possible to reduce the rate that the vibration of the rotating shaft 8a propagates to the sirocco fan 9 via the pressure contact surface.

  The base 9a of the sirocco fan 9 has a plurality of band-like holes 9k staggered so that the end of one band-like hole 9k overlaps with the end of another band-like hole 9k located on the center side or the outer peripheral side. Therefore, the vibration of the fan motor 8 transmitted to the outer peripheral side of the sirocco fan 9 can be reduced, and the vibration can be easily attenuated by propagating the vibration in a zigzag manner.

  Furthermore, since the rigidity of the base 9a of the sirocco fan 9 can be reduced by providing the belt-shaped hole 9k, the peak frequency of noise generated by the sirocco fan 9 can be shifted to a low frequency, and the air conditioner It becomes possible to reduce the noise generated as a whole.

  In addition, since the washer 17 provided above and below the sirocco fan 9 is formed with an elastic layer 17a in the middle, the vibration propagated through the rotating shaft 8a is attenuated by the elastic layer 17a, and the sirocco fan 9 It is possible to further reduce the noise transmitted to.

  The air sucked from the suction port 30 passes between the blades 9 b of the sirocco fan 9 and is guided to the damper storage portion 13 through the narrow passage 20 and the expansion passage 21.

  The air that has flowed into the damper storage portion 13 is discharged to the outside or the like via the exhaust port 16 by the damper 4 rotated to the half-open position, and the other air is discharged via the blowout port 15. Circulated to the bathroom.

  When the cool air mode is selected by the user, the control unit 41 rotates the damper 4 to the half-open position and sets the rotation speed of the sirocco fan 9 to be strong as shown in FIG. 9B. Then, the heater 6 is turned off. As described above, even in the cool air mode, air is sucked and discharged through the same route as that in the drying mode described above. For this reason, as in the above-described drying mode, the groove portion 9j, the notch portion 9h, and the strip-shaped hole 9k are formed in the sirocco fan 9, thereby reducing the vibration of the fan motor 8 propagating through the rotating shaft 8a. A noise reduction effect can be achieved.

  As described above, in the bathroom air conditioner 1 according to the present invention, the groove portion 9j is formed on the inner side surface of the through hole 9e. Therefore, the groove portion 9j causes the outer surface of the rotating shaft 8a and the inner surface of the through hole 9e. A space is created in part, and the contact area between the through hole 9e and the rotating shaft 8a is reduced. Thus, by reducing the contact area, it is possible to suppress the vibration of the fan motor 8 from propagating to the sirocco fan 9 via the rotating shaft 8a, and to reduce the generation of noise in the sirocco fan 9. Is possible.

  In addition, since a plurality of groove portions 9j are formed in the through hole 9e, the contact area between the through hole 9e and the rotating shaft 8a can be further reduced, and the generation of noise in the sirocco fan 9 is further reduced. It becomes possible to make it.

  Further, since the plurality of formed groove portions 9j are provided at equal intervals on the inner surface of the through hole 9e, the contact balance between the outer peripheral surface of the rotating shaft 8a and the inner surface of the through hole 9e tends to be uniform, and the sirocco fan 9 rotation blur can be reduced. Further, since the contact balance with the through-hole 9e in the rotating shaft 8a becomes uniform, it becomes easy to transmit the rotational force of the rotating shaft 8a to the sirocco fan 9 uniformly, so that the driving efficiency is lost when the sirocco fan 9 rotates. Can be easily reduced.

  Further, since the cross-sectional opening of the through hole 9e is formed in a D shape, the rotary shaft 8a having a D cross section can be fitted into the through hole 9e. When the rotating shaft 8a is fitted into the through hole 9e, the linear edge of the D-shaped cross-sectional opening and the flat side surface portion of the rotating shaft 8a come into contact with each other. Can be reliably rotated.

Further, when the sirocco fan 9 rotates, the D-cut portion 8c is formed around the end of the linear edge portion 9g of the D-shaped opening in the through hole 9e on the direction side in which the rotating shaft 8a rotates. for so as to face the acute angle portion 8e is recessed notch 9h are formed, the end face of the flat side surface portions 8f of the D-cut portion 8c is, for the area to be pressed against the end point 9i notch 9h ₁ conventional through The pressure contact area in the hole can be reduced. For this reason, it becomes possible to reduce the rate that the vibration of the rotating shaft 8a propagates to the sirocco fan 9 via the pressure contact surface.

  The base 9a of the sirocco fan 9 has a plurality of band-like holes 9k staggered so that the end of one band-like hole 9k overlaps with the end of another band-like hole 9k located on the center side or the outer peripheral side. Therefore, the vibration of the fan motor 8 transmitted to the outer peripheral side of the sirocco fan 9 can be reduced, and the vibration can be easily attenuated by propagating the vibration in a zigzag manner.

  Furthermore, since the rigidity of the base 9a of the sirocco fan 9 can be reduced by providing the belt-shaped hole 9k, the peak frequency of noise generated by the sirocco fan 9 can be shifted to a low frequency, and the air conditioner It becomes possible to reduce the noise generated as a whole.

  As mentioned above, although embodiment which uses the air blower which concerns on this invention as the bathroom air conditioner 1 was classified according to operation mode, the air blower which concerns on this invention is not limited to embodiment mentioned above. Absent. It will be apparent to those skilled in the art that various changes and modifications can be made within the scope of the claims, and these are naturally within the technical scope of the present invention. Understood.

  For example, in the above-described embodiment, the groove 9j is formed on the inner surface of the through hole 9e toward the extending direction of the through hole 9e. However, the groove 9j is not necessarily formed in the extending direction of the through hole 9e. It is not limited to the installation direction, and may be inclined with respect to the extending direction. Regardless of the direction in which the groove 9j is formed, the formation of the groove 9j can reduce the contact area between the through hole 9e and the rotary shaft 8a. The vibration of the fan motor 8 transmitted to the sirocco fan 9 can be reduced.

Furthermore, as shown in FIG. 10A, the groove portion may be formed in the inner peripheral direction of the through hole 9e. By forming a so grooves 9j ₁ as a horizontal connecting portion between base 9a of the sirocco fan 9, it is possible to reduce the contact area between the through hole 9e and the rotary shaft 8a, the outer peripheral side of the base 9a It is possible to reduce the amount of vibration transmitted.

Further, as shown in FIG. 10B, a boss 9l surrounding the through hole 9e with respect to the front and back surfaces of the base 9a is formed, and the contact surface between the through hole 9e and the rotating shaft 8a is only the boss 9l portion. it may form a groove 9j ₂ so. By forming the groove 9j ₂ in this way, vibration propagated through the contact surface is transmitted to the base 9a through the boss 9l, and the vibration wraps around from the boss 9l to the base 9a. Thus, the vibration is transmitted (refer to the chain line indicated by symbol E in FIG. 10B), so that the transmission distance of the vibration becomes long and the vibration can be attenuated. Furthermore, since the base 9a is attached to the rotary shaft 8a via the boss 9l portion, the attachment strength between the base 9a and the boss 9l is lowered, and the vibration propagated through this attachment portion is further reduced. The Rukoto.

Further, in the above-described embodiment, the five groove portions 9j are provided on the curved surface side of the D-shaped cross-sectional opening, but the number and location of the installation are not limited. For example, as shown in FIG. 11, four grooves 9j _3, it may be evenly placed so as to draw a cross the through hole 9e. Furthermore, it is good also as a structure which penetrates a groove | channel to the outer side of the boss | hub 9l, and is notched in slit shape in the boss | hub 9l part.

In the above-described embodiment, the configuration in which the notches 9h (9h ₁ , 9h ₂ ) are formed at both ends of the linear edge 9g in the opening 9f has been described. However, the notches 9h are not necessarily formed at both ends. It is not necessary to be provided at least at one end, and more preferably at the end of the linear edge 9g to which pressure is applied as the rotating shaft 8a rotates.

  Furthermore, in the above-described embodiment, the case where the sirocco fan 9 is used as a unit with the fan motor 8 is described. However, the fan is not necessarily limited to a unitized one. A fan, a motor, etc. may be comprised separately. In the embodiment, the case where a sirocco fan is used as a fan for blowing air has been described. However, the fan is not necessarily limited to a sirocco fan, and a multi-blade fan such as a radial fan is used. May be.

  Furthermore, in the above-described embodiment, the air conditioner that performs ventilation (circulation) and exhaust of air using a single fan unit has been described. However, both the fan unit for ventilation and the fan unit for exhaust are provided. Even if it is an air blower, the same effect can be show | played by applying the structure of the air blower which concerns on this invention.

  Moreover, although the air conditioner for bathroom was demonstrated in embodiment mentioned above, the air blower which concerns on this invention is not limited to the air conditioner for bathrooms, Even if it is an air conditioner used other than a bathroom Good.

It is a perspective view which shows the bathroom air conditioner which concerns on embodiment. It is side sectional drawing which shows the bathroom air conditioner by which the damper was rotated in the fully closed state. It is the expanded view which showed the structure of the fan unit which concerns on embodiment. It is the front view which showed the sirocco fan which concerns on embodiment. It is an enlarged view of the through-hole which showed the state which the rotating shaft fitted to the through-hole of the sirocco fan. It is the perspective view which showed the main body case which concerns on embodiment from the lower side opening direction. It is the bottom view which showed the main body case which concerns on embodiment. It is the block diagram which showed the control function of the bathroom air conditioner which concerns on embodiment. It is side sectional drawing which shows the bathroom air conditioner by which the damper was rotated in the fully open state, and the bathroom air conditioner by which the damper was rotated in the half open state. It is sectional drawing which showed the sirocco fan in which the groove part was formed toward the circumferential direction in the internal peripheral surface of a through-hole. It is the front view of the sirocco fan installed so that a groove part may draw a cross with respect to a through-hole, and the enlarged view which showed the through-hole.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 ... Bathroom air conditioner 2 ... Fan unit 3 ... Body case 4 ... Damper 4a ... (Damper) shaft 4b ... (Damper) rib 4c ... (Rib) guide hole 5 ... Fan cover 5a ... (Fan cover) suction Hole 5b ... (fan cover) blowout hole 6 ... heater 7 ... front panel 8 ... fan motor (driving means)
8a ... (fan motor) (the rotation axis) rotation axis 8b ... support (rotary shaft) member 8c ... (the rotation axis) D-cut portion 8d ... screw groove _{8e, 8e 1, 8e 2 ...} (D -cut portion of the ) Acute angle part 8f ... Flat side face part 9, 9 '(D cut part) ... Sirocco fan (rotary fan)
9a ... base 9b (of sirocco fan) ... blade 9c (of sirocco fan) ... outer peripheral side 9d (of sirocco fan) ... outer peripheral side 9e (of sirocco fan constituting the side wall of the expanded passage) through hole (of sirocco fan) 9f ... (through hole) apertures 9 g ... (openings) straight-like rim portion _{9h, 9h 1, 9h 2 ...} ( through-hole) notch 9i ... (notches) endpoint _9j, 9j _1, 9j ₂ , 9j ₃ ... groove portion 9k (through hole) ... strip-like hole 9l ... boss 9m (of sirocco fan) ... slit shape 10 (formed on boss) cap nut 12 ... fan housing portion 12a ... (of fan housing portion) Opening 12b ... Side wall surface 13 (of fan storage part) ... Damper storage part 15 ... Air outlet (discharge port)
16 ... Exhaust port (exhaust port)
17 Washer (intervening member)
17a ... (washer) elastic layer 17b ... (washer) metal plate 18 ... cam 19 ... (cam) projection 20 ... narrow passage 21 ... wide passage 21a ... one side wall 21b (of the wide passage) ... (wide passage) Other side wall 22 ... tongue-like wall part 22a ... side wall 30 (of the tongue-like wall part) ... suction port (intake port)
33 ... Ceiling surface 40 ... Operation panel 41 ... Control unit 42 ... Cam drive motor

Claims (6)

A through hole for inserting the rotating shaft is formed,
A rotary fan, wherein a groove is formed on an inner surface of the through hole. The rotary fan according to claim 1, wherein a plurality of the groove portions are formed in the through hole. The rotary fan according to claim 2, wherein the plurality of groove portions are provided at equal intervals on the inner surface. The through hole has a D-shaped cross-sectional opening shape,
The rotary fan according to any one of claims 1 to 3, wherein the groove is formed on an inner surface of the through hole that forms the cross-sectional opening.   The rotary fan according to claim 4, wherein a cutout portion is formed at least at one end portion of the straight edge portion of the cross-sectional opening having a D-shape. A rotating fan according to any one of claims 1 to 5,
An air blower comprising: a rotary shaft having a D-shaped cross section that fits into the through hole of the rotary fan, and driving means that rotates the rotary fan by driving and rotating the rotary shaft.

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