JP6937156B2 - Fan - Google Patents

Description

The present invention relates to a fan using an axial fan.

Conventionally, as this type of fan, an electric motor cover (corresponding to the motor casing of the present invention) containing an electric motor (corresponding to the motor of the present invention) and blades rotated by the electric motor (corresponding to the axial flow of the present invention). A fan having a support (corresponding to a fan) and a support column to which an upper portion is connected to the motor cover is known (see, for example, Patent Document 1).

Japanese Patent No. 56934999

In recent years, a DC motor has come to be used as a drive source for a fan of an electric fan. Since the DC motor is smaller than the conventional AC motor, it is possible to reduce the size of the blower including the motor casing and the axial fan. However, in such a conventional electric fan, the miniaturization of the motor cannot be fully utilized, and the motor casing is only slightly miniaturized.

An object of the present invention is to solve the above problems, to provide a fan capable of minimizing the blower portion including the motor casing and improving the design.

In the fan according to claim 1 of the present invention, a blower having a motor casing containing a motor and an axial flow fan rotated by the motor, a support column for supporting the blower part, and a lower portion of the support column are connected to each other. In a fan having a base portion to be formed, an extension portion having an axial longitudinal cross-sectional area smaller than the axial longitudinal cross-sectional area of the motor casing at a portion where the motor is housed is formed on the antiaxial flow fan side of the motor casing. is, the extension portion is connected to an upper portion of the strut, swing motor is housed inside the base, together with the strut by the swing motor is rotatable, the operation means is provided on the extension portion is the vertical swing mechanism is shall provided with switch board and torque hinge for operating means in the interior of the extension.

Further, the electric fan according to claim 2 of the present invention has a portion in which the motor casing is housed in the central hub of the axial flow fan in claim 1.

The fan according to claim 1 of the present invention can be miniaturized by configuring it as described above. Further, since it is not necessary to house the swing motor in the motor casing, the blower portion can be further miniaturized. Further, since the extension portion can be operated while the user is standing, the operability can be improved.

Since the motor casing has a portion housed in the central hub of the axial fan, the dimension from the front end of the axial fan to the rear end of the motor casing can be reduced. The blower can be made smaller.

It is a front view of the electric fan which shows 1st Embodiment of this invention. The same is the right side view. The same is a plan view. The same is a cross-sectional view taken along the line AA. The same is an exploded cross-sectional view of the main part. It is a right side view of the blower part of the electric fan which shows the 2nd Embodiment of this invention. It is a right side view of the blower part of the electric fan which shows the 3rd Embodiment of this invention. It is a right side view of the blower part of the electric fan which shows the reference example of this invention.

Hereinafter, the first embodiment of the present invention will be described with reference to FIGS. 1 to 5. 1 is the electric fan of the present invention. The fan 1 includes a disk-shaped base portion 2, a cylindrical support column 3 provided in the center of the base portion 2, and a blower portion 4 attached to the upper portion of the support column 3.

The base 2 has a swing motor 5 such as a stepping motor and a spur gear 6 rotated by the swing motor 5 inside. Then, the spur gear 6 is connected to the support column 3. Therefore, the support column 3 is rotatable with respect to the base portion 2. Reference numeral 7 denotes a bearing that pivotally supports the support column 3. Reference numeral 8 denotes a light receiving portion of a remote controller (not shown).

The blower portion 4 includes a motor casing 10 in which a motor 9 such as a DC motor is housed, an extension portion 11 extending behind the motor casing 10, and a rear guard 12 attached to the motor casing 10. It has a front guard 13 attached to the front side of the rear guard 12, and an axial flow fan 14 surrounded by the rear guard 12 and the front guard 13 and provided on the front side of the motor casing 10. That is, the extension portion 11 is formed on the opposite side (anti-axial flow fan 14 side) of the axial flow fan 14 with the motor casing 10 interposed therebetween. The rear guard 12 and the front guard 13 are configured by using a plurality of metal wires.

The motor casing 10 will be described in detail. The motor casing 10 is configured by connecting a casing main body 15 provided on the front side and a flange portion 16 provided behind the casing main body 15 and having a diameter larger than that of the casing main body 15. In the posture shown in FIG. 4, the casing main body 15 is formed in a substantially cylindrical shape in which the axial direction is the front-rear direction. The outer diameter of the portion of the casing main body 15 in front of the tightening body 18 described later is D ₁ . Then, the motor 9 is housed in a space surrounded by the casing main body 15 and the flange portion 16. The motor 9 is located inside the casing body 15. Further, the motor 9 is formed in a substantially cylindrical shape in which the axial direction is the front-rear direction in the posture shown in FIG. The outer diameter of the motor 9 is D ₂ . Further, a through hole (not shown) is formed in the center of the front portion of the casing main body 15, and the rotating shaft 17 of the motor 9 projects from the through hole. Further, the tightening body 18 is detachably attached to the casing main body 15. The tightening body 18 is formed to have substantially the same diameter as the flange portion 16. Further, the tightening body 18 is screwed into the casing main body 15. A plurality of protrusions 19 for hanging fingers are formed on the front side of the tightening body 18. Then, by sandwiching the central portion of the rear guard 12 between the tightening body 18 and the flange portion 16, the rear guard 12 is fixed to the motor casing 10. Therefore, most of the casing body 15 is located in the area surrounded by the rear guard 12 and the front guard 13.

_{Further, the outer diameter D 1 of the} portion of the casing main body 15 in front of the tightening body 18 is slightly smaller than _{the inner diameter D 3} of the central hub 20 of the axial flow fan 14. That is, D ₃ > D ₁ > D ₂ . The front portion of the casing main body 15 on the axial fan side of the motor casing 10 is housed in the central hub 20 of the axial fan 14. As a result, the dimension from the front end of the axial fan 14 to the rear end of the motor casing 10 can be reduced, so that the blower portion 4 can be miniaturized. The axial fan 14 is attached to the rotating shaft 17 by a mounting screw 21.

The extension portion 11 has a substantially cylindrical shape, and is provided so as to project rearward from the center of the flange portion 16 of the motor casing 10. The extension portion 11 is provided coaxially with the motor casing 10 and the motor 9. Further, an operating means 22 is provided on the upper surface of the extension portion 11. The operating means 22 has a main operating means 22A and a sub-operating means 22B. The main operating means 22A is a physical switch that operates the axial flow fan 14 to rotate and stop. Further, the sub-operation means 22B is a touch switch, and operates for adjusting the rotation speed of the axial fan 14, selecting the swing of the blower unit 4, and setting the off timer. Further, the switch board 22C is housed inside the extension portion 11. Further, a notch 23 is formed in a portion slightly in front of the center of the lower surface of the extension 11, and the upper end of the support column 3 is inserted into the extension 11 from the notch 23. Then, the upper end of the support column 3 is connected to the vertical swing mechanism 24 for adjusting the depression / elevation angle of the blower portion 4 in the extension portion 11. Since the motor 9 is not accommodated in the extension portion 11, the outer dimension (in the case of the present embodiment) of the extension portion 11 can be reduced. That is, the outer diameter D ₄ of the extension portion 11 is smaller than _{the outer diameter D 1 of the} portion of the casing main body 15 that is in front of the tightening body 18. That is, the axial cross-sectional area of the extension portion 11 is smaller than the axial cross-sectional area of the casing main body 15 in which the motor 9 is housed. The axial cross-sectional area referred to here is a cross-sectional area including a hollow portion, and does not refer to a cross-sectional area of only outer shell parts and built-in parts. In this embodiment, the axial straight cross-sectional area of the extended portion 11 is the area of a circle with a diameter _{D 4 (π (D 4/} 2) 2). Similarly, the axial straight cross-sectional area of the casing body 15 is the area of a circle of diameter _{D 1 (π (D 1/} 2) 2). Further, the outer diameter D ₄ of the extension portion 11 is smaller than the outer diameter D _{2 of the motor 9.} That is, the axial straight cross-sectional area of the extended portion 11, the axial straight cross-sectional area ^{_{(π (D 2/2)}} 2) of the motor 9 is smaller than. Therefore, D ₃ > D ₁ > D ₂ > D ₄ . In this embodiment, D ₄ is about 45 mm. Further, the strut 3, from being inserted into the extension 11, at least at its upper end, the lateral width is formed narrower than the outer diameter D ₄ of the extension 11. In the case of the present embodiment, since the support column 3 has a cylindrical shape, its outer diameter D ₅ is smaller than _{the outer diameter D 4} of the extension portion 11 _{(D 4} > D ₅ ).

The vertical swing mechanism 24 uses a mechanism called a so-called torque hinge, which rotates steplessly and is held by friction at an arbitrary position within the rotation range. Since this torque hinge can be made smaller than a mechanism that is held in multiple stages by using uneven engagement or the like, it can be installed even inside the extension portion 11 having a small diameter. In the structure of the present invention, the motor 9, the rear guard 12, the front guard 13, and the axial fan 14 are located in front of the support column 3, so that the center of gravity of the blower portion 4 is closer to the front. Therefore, a force that tilts the front of the blower portion 4 downward is applied to the vertical swing mechanism 24 due to gravity. Therefore, as the torque hinge constituting the vertical swing mechanism 24, one having sufficient torque to maintain the posture of the blower portion 4 is used. Further, the space between the notch 23 and the support column 3 is closed by a sheet (not shown). Then, this sheet can prevent the user's finger from entering the notch 23. As a result, it is possible to reduce the risk that the user will pinch his / her finger between the notch 23 and the support column 3.

Then, as described above, the motor 9 is housed in the motor casing 10, and the extension portion 11 in which the motor 9 is not housed is provided behind the motor casing 10. Since the wasted space can be reduced and the blower portion 4 can be miniaturized, the design can be improved. In the present embodiment, since the switch board 22C and the vertical swing mechanism 24 of the operating means 22 are provided on the extension portion 11, the switch board 22C and the vertical swing mechanism 24 of the operating means 22 are provided on the extension portion 11. It is enough if it is large enough to be accommodated. Further, since the motor 9 itself is a DC motor and is small in size, the motor casing 10 itself can also be formed in a small size. Further, the portion of the casing body 15 on the side of the axial flow fan 14 of the motor casing 10 on the front side of the tightening body 18 is housed in the central hub 20 of the axial flow fan 14, so that the axial flow fan is accommodated. Since the dimension from the front end of the 14 to the rear end of the motor casing 10 can be reduced, the blower portion 4 can be further miniaturized. Further, in the conventional electric fan, the swinging motor is generally housed in the blower portion, but in the fan 1 of the present invention, the swinging motor 5 is housed in the base portion 2, so that the above-mentioned The blower unit 4 can be made smaller.

The axial flow fan 14 is provided with blade portions 27 composed of a plurality of blades 26 on the outer periphery of a short cylindrical frame body 25 whose both ends are open in the axial direction, and the central hub 20 and the frame body 25 are plurality of. It is connected by a spoke portion 29 composed of spokes 28.

Next, the operation of the first embodiment of the present invention will be described. First, the user connects one end of a power cord (not shown) to the power connection portion (not shown) of the base 2, and connects the other end of the power cord to an AC power supply (not shown). By doing so, the fan 1 is in an operable state. Then, the electric fan 1 can be operated by operating the operating means 22 provided on the upper portion of the extension portion 11. The fan 1 uses the operating means 22 to rotate and stop the axial fan 14, adjust the rotational speed of the axial fan 14, select the swing of the blower 4, and set the off timer. It is operable. Then, by providing the operating means 22 on the upper portion of the extension portion 11, the user can operate the fan 1 while standing, and the operability can be improved. Then, the air flow is generated by rotating the axial flow fan 14, which is the same as that of the conventional electric fan.

When the axial fan 14 is rotated, the blade portion 27 generates a main air flow. Then, along with this main airflow, a secondary airflow is generated and circulates inside the frame body 25.

Further, when the auxiliary operating means 22B is operated to select the blower portion 4 to swing, the swing motor 5 built in the base portion 2 reciprocates. Then, when the swing motor 5 reciprocates, the movement of the swing motor 5 is transmitted to the spur gear 6, and the support column 3 connected to the spur gear 6 reciprocates. In this way, when the strut 3 reciprocates, the blower portion 4 provided at the upper end of the strut 3 also reciprocates in conjunction with it. As a result, the axial fan 14 can blow air over a wide range while the blower portion 4 swings in the horizontal direction.

When moving the fan 1, there are three parts that the user can grasp. The first gripping position H ₁ is the upper part of the support column 3. The strut 3 is, as described above, since a thin cylindrical outer diameter D _5, easy to hold even a small human hand. Further, the second gripping position H ₂ is a portion of the extension portion 11 in front of the support column 3. Since this position is close to the upper part of the center of gravity of the fan 1, the weight balance when gripping is excellent and it is easy to grip. However, since this position is close to the notch 23 formed in the lower part of the extension 11, when the blower 4 is tilted downward relative to the support column 3, it becomes the edge of the notch 23. There is a risk of pinching your fingers with the support column 3. Therefore, when gripping the gripping position H _2, the front end portion or grips to grasp the thumb and forefinger (or middle finger), or the index finger (and middle finger) in gripped so hooked from below of the extension 11 , The fan 1 is moved so as not to be tilted. Then, as described above, since the vertical swing mechanism 24 is configured with a large torque hinge of torque, the blower unit 4 is less likely to tilt in the vertical direction when gripping the gripping position H _2. Furthermore, the third holding position H ₃ is a partial later than the strut 3 in the extension 11. Since this position deviates from the center of gravity of the fan 1, when grasped, the blower portion 4 is tilted so as to be relatively downward with respect to the support column 3. Therefore, after moving, the direction of the blower portion 4 in the vertical direction is changed. Need to adjust. On the other hand, when gripping the gripping position H _3, since the trailing edge of the cutout portion 23 is moved away from the column 3, without pinching fingers between the edge and the post 3 after the cutout portion 23, a safety be.

By making the support column 3 or the extension portion 11 grippable in this way, it is not necessary to provide a grip portion such as a handle on the blower portion 4. Since it is not necessary to provide a grip portion such as a handle in this way, the airflow sucked from the rear of the axial flow fan 14 is not disturbed by the grip portion such as the handle. In particular, as in the present invention, the axial flow fan 14 of the type in which the secondary airflow generated according to the main airflow generated by the wing portion 27 is circulated from the rear of the blower portion 4 to the inside of the frame body 25 is provided. In the fan 1 used, it is effective because it can prevent the wing airflow from being obstructed.

As described above, the present invention is a fan 1 having a motor casing 10 in which a motor 9 is housed, a blower portion 4 having an axial flow fan 14 rotated by the motor 9, and a support column 3 supporting the blower portion 4. In the axial straight cross-sectional area of the casing body 15 of the motor casing 10, which is a portion where the motor 9 is housed on the opposite side (anti-axial flow fan 14 side) of the axial flow fan 14 with the motor casing 10 interposed therebetween. ^{_{(π (D 1/2)}} 2) with extension 11 having a smaller axial straight cross-sectional area than ^{_{(π (D 4/2)}} 2) is formed, connecting the extension 11 at the top of the column 3 Therefore, the wasted space in the blower unit 4 can be reduced, so that the blower unit 4 can be miniaturized.

Further, it has a base portion 2 in which the swing motor 5 is housed, and the lower portion of the support column 3 is connected to the base portion 2, and the support column 3 is made rotatable by the swing motor 5. Therefore, it is not necessary to house the swing motor 5 in the motor casing 10, so that the blower portion 4 can be further miniaturized.

Further, the axial fan 14 side of the motor casing 10 is housed in the central hub 20 of the axial fan 14, so that the dimension from the front end of the axial fan 14 to the rear end of the motor casing 10 can be measured. Since it can be made smaller, the blower portion 4 can be made smaller.

Further, since the operating means 22 is provided on the extension portion 11, the user can operate the operating means 22 while standing, so that the operability can be improved.

Next, a second embodiment of the present invention will be described with reference to FIG. In the second embodiment, the configurations other than the extension portion 33 are the same as the configurations in the first embodiment described above, and thus the description thereof will be omitted.

Reference numeral 31 is the electric fan of the present invention. The fan 31 includes a disk-shaped base 2, a cylindrical support 3 provided in the center of the base 2, and a blower 32 attached to the upper part of the support 3.

The blower portion 32 includes a motor casing 10 in which a motor 9 such as a DC motor is housed, an extension portion 33 extending behind the motor casing 10, and a rear guard 12 attached to the motor casing 10. It has a front guard 13 attached to the front side of the rear guard 12, and an axial flow fan 14 surrounded by the rear guard 12 and the front guard 13 and provided on the front side of the motor casing 10. That is, the extension portion 33 is formed on the opposite side (anti-axial flow fan 14 side) of the axial flow fan 14 with the motor casing 10 interposed therebetween.

The extension portion 33 has a substantially cylindrical shape, and is provided so as to project rearward from the center of the flange portion 16 of the motor casing 10. The extension portion 33 is provided coaxially with the motor casing 10 and the motor 9. An operating means 22 is provided on the upper surface of the extension 33, and the switch board 22C is housed inside the extension 33. Further, a notch 23 is formed in a portion slightly in front of the center of the lower surface of the extension 33, and the upper end of the support column 3 is inserted into the extension 33 from the notch 23. Then, a protrusion 34 is formed at the lower portion of the rear end portion of the extension portion 33. Further, the upper end of the support column 3 is connected to the vertical swing mechanism 24 for adjusting the depression / elevation angle of the blower portion 4 in the extension portion 33. Since the motor 9 is not accommodated in the extension portion 33, the outer dimension (in the case of the present embodiment) of the extension portion 33 can be reduced. _{That is, the outer diameter D 4} of the portion of the extension portion 33 excluding the protrusion 34 is smaller than _{the outer diameter D 1 of the} portion of the casing main body 15 in front of the tightening body 18. That is, the axial cross-sectional area of the extension portion 33 is smaller than the axial cross-sectional area of the casing main body 15 in which the motor 9 is housed. In this embodiment, the axial straight cross-sectional area of the extended portion 33 is the area of a circle with a diameter _{D 4 (π (D 4/} 2) 2). Similarly, the axial straight cross-sectional area of the casing body 15 is the area of a circle of diameter _{D 1 (π (D 1/} 2) 2). Further, the outer diameter D ₄ of the extension portion 33 is smaller than the outer diameter D _{2 of the motor 9.} That is, the axial straight cross-sectional area of the extended portion 33, the axial straight cross-sectional area ^{_{(π (D 2/2)}} 2) of the motor 9 is smaller than. In the present embodiment, the outer diameter D ₄ of the extension portion 33 excluding the protrusion 34 is about 45 mm. Further, the strut 3, from being inserted into the extended portion 33, at least its upper portion, is formed narrower than the outer diameter D ₄ of the breadth the extended portion 33. In the case of the present embodiment, since the support column 3 has a cylindrical shape, its outer diameter D ₅ is smaller than _{the outer diameter D 4} of the extension portion 33 excluding the protrusion 34.

The vertical swing mechanism 24 uses a mechanism called a so-called torque hinge, which rotates steplessly and is held by friction at an arbitrary position within the rotation range. Since this torque hinge can be made smaller than a mechanism that is held in multiple stages by utilizing uneven engagement or the like, it can be installed even inside the extension portion 33 having a small diameter. In the structure of the present invention, the motor 9, the rear guard 12, the front guard 13, and the axial fan 14 are located in front of the support column 3, so that the center of gravity of the blower portion 32 is closer to the front. Therefore, a force that tilts the front of the blower portion 32 downward is applied to the vertical swing mechanism 24 due to gravity. Therefore, as the torque hinge constituting the vertical swing mechanism 24, one having sufficient torque to maintain the posture of the blower portion 32 is used.

Then, as described above, the motor 9 is housed in the motor casing 10, and the extension portion 33 in which the motor 9 is not housed is provided behind the motor casing 10, so that the blower portion 32 is provided. Since the wasted space can be reduced and the blower portion 32 can be miniaturized, the design can be improved. In the present embodiment, the extension portion 33 is provided with the switch board 22C of the operating means 22 and the vertical swing mechanism 24. Therefore, in the extension portion 33, the switch board 22C of the operating means 22 and the vertical swing mechanism 24 are provided. It is enough if it is large enough to be accommodated. Further, the portion of the casing body 15 on the side of the axial flow fan 14 of the motor casing 10 on the front side of the tightening body 18 is housed in the central hub 20 of the axial flow fan 14, so that the axial flow fan is accommodated. Since the dimension from the front end of the 14 to the rear end of the motor casing 10 can be reduced, the blower portion 32 can be further miniaturized. Further, in the conventional electric fan, the swinging motor is generally housed in the blower portion, but in the fan 31 of the present invention, the swinging motor 5 is housed in the base portion 2, so that the above-mentioned The blower portion 32 can be made smaller.

Next, the operation of the second embodiment of the present invention will be described. First, the user connects one end of a power cord (not shown) to the power connection portion (not shown) of the base 2, and connects the other end of the power cord to an AC power supply (not shown). By doing so, the electric fan 31 can be operated. Then, the electric fan 31 can be operated by operating the operating means 22 provided on the upper portion of the extension portion 33. The fan 31 uses the operating means 22 to rotate and stop the axial fan 14, adjust the rotational speed of the axial fan 14, select the swing of the blower 32, and set the off timer. It is operable. Then, by providing the operating means 22 on the upper portion of the extension portion 33, the user can operate the fan 31 while standing, and the operability can be improved. Then, the air flow is generated by rotating the axial flow fan 14, which is the same as that of the conventional electric fan.

Further, when the auxiliary operating means 22B is operated to select the blower portion 32 to swing, the swing motor 5 built in the base portion 2 reciprocates. Then, when the swing motor 5 reciprocates, the movement of the swing motor 5 is transmitted to the spur gear 6, and the support column 3 connected to the spur gear 6 reciprocates. In this way, when the support column 3 reciprocates, the blower portion 32 provided at the upper end portion of the support column 3 also reciprocates in conjunction with the rotation. As a result, the axial fan 14 can blow air over a wide range while the blower portion 32 swings in the horizontal direction.

When moving the fan 31, there are three parts that the user can grasp. The first gripping position H ₁ is the upper part of the support column 3. As described above, the support column 3 has a cylindrical shape with a small outer diameter, so that even a person with a small hand can easily hold it. Further, the second gripping position H ₂ is a portion of the extension portion 33 before the support column 3. Since this position is close to the upper part of the center of gravity of the fan 31, the weight balance when gripping is excellent and it is easy to grip. However, since this position is close to the notch 23 formed in the lower part of the extension 33, when the blower 32 is tilted downward relative to the support column 3, it becomes the edge of the notch 23. There is a risk of pinching your fingers with the support column 3. Therefore, the case of gripping the gripping position H _2, or to grasp to grasp the front end portion of the extension portion 33 with the thumb and forefinger (or middle finger), or the index finger (and middle finger) in gripped so hooked from below , The fan 31 is moved so as not to be tilted. Then, as described above, since the vertical swing mechanism 24 is configured with a large torque hinge of torque, the blower 32 is less likely to tilt in the vertical direction when gripping the gripping position H _2. Furthermore, the third holding position H ₃ is a partial later than the strut 3 in the extension portion 33. Since this position deviates from the center of gravity of the fan 31, the blower portion 32 tilts so as to be relatively downward with respect to the support column 3 when grasped. Therefore, after moving, the direction of the blower portion 32 in the vertical direction is changed. Need to adjust. On the other hand, when gripping the gripping position H _3, since the trailing edge of the cutout portion 23 is moved away from the column 3, without pinching fingers between the edge and the post 3 after the cutout portion 23, a safety be. Further, when gripping the gripping position H _3, since the blower 32 is inclined so that the relative downward with respect to the post 3, but the user tends to slip his hand, as described above, the extension portion Since the protrusion 34 is formed in the lower portion of the rear end portion of the 33, the protrusion 34 can be caught by the fingers of the user's hand, making it difficult to drop the fan 31.

By making the support column 3 or the extension portion 33 grippable in this way, it is not necessary to provide a grip portion such as a handle on the blower portion 32. Since it is not necessary to provide a grip portion such as a handle in this way, the airflow sucked from the rear of the axial flow fan 14 is not disturbed by the grip portion such as the handle. In particular, as in the present invention, the axial flow fan 14 of the type in which the secondary airflow generated according to the main airflow generated by the wing portion 27 is circulated from the rear of the blower portion 32 to the inside of the frame body 25 is provided. In the fan 31 used, it is effective because it can prevent the wing airflow from being obstructed.

As described above, the present invention is a fan 31 having a motor casing 10 in which a motor 9 is housed, a blower portion 32 having an axial flow fan 14 rotated by the motor 9, and a support column 3 supporting the blower portion 32. In the axial straight cross-sectional area of the casing body 15 of the motor casing 10, which is a portion where the motor 9 is housed on the opposite side (anti-axial flow fan 14 side) of the axial flow fan 14 with the motor casing 10 interposed therebetween. ^{_{(π (D 1/2)}} 2) with a small axial straight cross-sectional area than ^{_{(π (D 4/2)}} 2) extension 33 having is formed, connecting the extension portion 33 at the top of the column 3 Therefore, the wasted space in the blower unit 32 can be reduced, so that the blower unit 32 can be miniaturized.

Further, it has a base portion 2 in which the swing motor 5 is housed, and the lower portion of the support column 3 is connected to the base portion 2, and the support column 3 is made rotatable by the swing motor 5. Therefore, it is not necessary to house the swing motor 5 in the motor casing 10, so that the blower portion 32 can be further miniaturized.

Further, the axial fan 14 side of the motor casing 10 is housed in the central hub 20 of the axial fan 14, so that the dimension from the front end of the axial fan 14 to the rear end of the motor casing 10 can be measured. Since it can be made smaller, the blower portion 32 can be made smaller.

Further, since the operating means 22 is provided on the extension portion 33, the user can operate the operating means 22 while standing, so that the operability can be improved.

Next, a third embodiment of the present invention will be described with reference to FIG. In the third embodiment, the configurations other than the extension portion 43 are the same as the configurations in the first and second embodiments described above, and thus the description thereof will be omitted.

41 is the electric fan of the present invention. The fan 41 includes a disk-shaped base portion 2, a cylindrical support column 3 provided in the center of the base portion 2, and a blower portion 42 attached to the upper portion of the support column 3.

The blower portion 42 includes a motor casing 10 in which a motor 9 such as a DC motor is housed, an extension portion 43 extending behind the motor casing 10, and a rear guard 12 attached to the motor casing 10. It has a front guard 13 attached to the front side of the rear guard 12, and an axial flow fan 14 surrounded by the rear guard 12 and the front guard 13 and provided on the front side of the motor casing 10. That is, the extension portion 43 is formed on the opposite side (anti-axial flow fan 14 side) of the axial flow fan 14 with the motor casing 10 interposed therebetween.

The extension portion 43 has a substantially cylindrical shape, and is provided so as to project rearward from the center of the flange portion 16 of the motor casing 10. The extension portion 43 is provided coaxially with the motor casing 10 and the motor 9. An operating means 22 is provided on the upper surface of the extension 43, and the switch board 22C is housed inside the extension 43. Further, a notch 23 is formed in a portion slightly in front of the center of the lower surface of the extension 43, and the upper end of the support column 3 is inserted into the extension 43 from the notch 23. Then, a front protrusion 44 and a rear protrusion 45 are formed at the lower portions of the front end portion and the rear end portion of the notch 23 of the extension portion 43, respectively. Further, the upper end of the support column 3 is connected to the vertical swing mechanism 24 for adjusting the depression / elevation angle of the blower portion 42 in the extension portion 43. Since the motor 9 is not accommodated in the extension portion 43, the outer dimension (in the case of the present embodiment) of the extension portion 43 can be reduced. _{That is, the outer diameter D 4} of the portion of the extension portion 43 excluding the protrusions 44 and 45 is smaller than _{the outer diameter D 1 of the} portion of the casing main body 15 in front of the tightening body 18. That is, the axial cross-sectional area of the extension portion 43 is smaller than the axial cross-sectional area of the casing main body 15 in which the motor 9 is housed. In this embodiment, the axial straight cross-sectional area of the extended portion 43 is the area of a circle with a diameter _{D 4 (π (D 4/} 2) 2). Similarly, the axial straight cross-sectional area of the casing body 15 is the area of a circle of diameter _{D 1 (π (D 1/} 2) 2). Further, the outer diameter D ₄ of the extension portion 43 is smaller than the outer diameter D _{2 of the motor 9.} That is, the axial straight cross-sectional area of the extended portion 43, the axial straight cross-sectional area ^{_{(π (D 2/2)}} 2) of the motor 9 is smaller than. In the present embodiment, the outer diameter D ₄ of the extension portion 43 excluding the protrusions 44 and 45 is about 45 mm. Further, the strut 3, from being inserted into the extended portion 43, at least at its upper end, the lateral width is formed narrower than the outer diameter D ₄ of the extension portion 43. In the case of the present embodiment, since the support column 3 has a cylindrical shape, its outer diameter D ₅ is smaller than _{the outer diameter D 4} of the extension portion 43 excluding the protrusions 44 and 45.

The vertical swing mechanism 24 uses a mechanism called a so-called torque hinge, which rotates steplessly and is held by friction at an arbitrary position within the rotation range. Since this torque hinge can be made smaller than a mechanism that is held in multiple stages by utilizing uneven engagement or the like, it can be installed even inside the extension portion 43 having a small diameter. In the structure of the present invention, the motor 9, the rear guard 12, the front guard 13, and the axial fan 14 are located in front of the support column 3, so that the center of gravity of the blower portion 42 is closer to the front. Therefore, a force that tilts the front of the blower portion 42 downward is applied to the vertical swing mechanism 24 due to gravity. Therefore, as the torque hinge constituting the vertical swing mechanism 24, one having sufficient torque to maintain the posture of the blower portion 42 is used.

Then, as described above, the motor 9 is housed in the motor casing 10, and the extension portion 43 in which the motor 9 is not housed is provided behind the motor casing 10, so that the blower portion 42 has. Since the wasted space can be reduced and the blower portion 42 can be miniaturized, the design can be improved. In the present embodiment, the extension portion 43 is provided with the switch board 22C of the operating means 22 and the vertical swing mechanism 24. Therefore, in the extension portion 43, the switch board 22C of the operating means 22 and the vertical swing mechanism 24 are provided. It is enough if it is large enough to be accommodated. Further, the portion of the casing body 15 on the side of the axial flow fan 14 of the motor casing 10 on the front side of the tightening body 18 is housed in the central hub 20 of the axial flow fan 14, so that the axial flow fan is accommodated. Since the dimension from the front end of the 14 to the rear end of the motor casing 10 can be reduced, the blower portion 42 can be further miniaturized. Further, in the conventional electric fan, the swinging motor is generally housed in the blower portion, but in the fan 41 of the present invention, the swinging motor 5 is housed in the base portion 2, so that the above-mentioned The blower portion 42 can be made smaller.

Next, the operation of the third embodiment of the present invention will be described. First, the user connects one end of a power cord (not shown) to the power connection portion (not shown) of the base 2, and connects the other end of the power cord to an AC power supply (not shown). By doing so, the electric fan 41 can be operated. Then, the electric fan 41 can be operated by operating the operating means 22 provided on the upper portion of the extension portion 43. The fan 41 uses the operating means 22 to rotate and stop the axial fan 14, adjust the rotational speed of the axial fan 14, select the swing of the blower 42, and set the off timer. It is operable. Then, by providing the operating means 22 on the upper portion of the extension portion 43, the user can operate the fan 41 while standing, and the operability can be improved. Then, the air flow is generated by rotating the axial flow fan 14, which is the same as that of the conventional electric fan.

Further, when the auxiliary operating means 22B is operated to select the blower portion 42 to swing, the swing motor 5 built in the base portion 2 reciprocates. Then, when the swing motor 5 reciprocates, the movement of the swing motor 5 is transmitted to the spur gear 6, and the support column 3 connected to the spur gear 6 reciprocates. In this way, when the support column 3 reciprocates, the blower portion 42 provided at the upper end portion of the support column 3 also reciprocates in conjunction with the rotation. As a result, the axial fan 14 can blow air over a wide range while the blower portion 42 swings in the horizontal direction.

When moving the fan 41, there are three parts that the user can grasp. The first gripping position H ₁ is the upper part of the support column 3. As described above, the support column 3 has a cylindrical shape with a small outer diameter, so that even a person with a small hand can easily hold it. Further, the second gripping position H ₂ is a portion of the extension portion 43 before the support column 3. Since this position is close to the upper part of the center of gravity of the fan 41, the weight balance when gripping is excellent and it is easy to grip. However, since this position is close to the notch 23 formed in the lower part of the extension 43, when the blower 42 falls down relative to the support column 3, it becomes the edge of the notch 23. There is a risk of pinching your fingers with the support column 3. Therefore, the case of gripping the gripping position H _2, or to grasp to grasp the front end portion of the extension portion 43 with the thumb and forefinger (or middle finger), or the index finger (and middle finger) in gripped so hooked from below , The fan 41 is moved so as not to be tilted. Further, the front protrusion 44 is formed on the front edge of the notch 23 in the lower part of the extension 43, and when the user's finger touches the front protrusion 44, the front protrusion 44 However, it is possible to improve safety by notifying the user that there is a risk of pinching a finger behind. Then, as described above, since the vertical swing mechanism 24 is configured with a large torque hinge of torque, the blower 42 is less likely to tilt in the vertical direction when gripping the gripping position H _2. Furthermore, the third holding position H ₃ is a partial later than the strut 3 in the extended portion 43. Since this position deviates from the center of gravity of the fan 41, the blower portion 42 tilts so as to be relatively downward with respect to the support column 3 when grasped. Therefore, after moving, the direction of the blower portion 42 in the vertical direction is changed. Need to adjust. On the other hand, when gripping the gripping position H _3, since the trailing edge of the cutout portion 23 is moved away from the column 3, without pinching fingers between the edge and the post 3 after the cutout portion 23, a safety be. Further, the rear protrusion 45 is formed on the trailing edge of the notch 23 in the lower portion of the extension 43, and when the user's finger touches the rear protrusion 45, the front protrusion 45 is formed. However, it is possible to further improve safety by notifying the user that there is a risk of pinching a finger in the front.

By making the support column 3 or the extension portion 43 grippable in this way, it is not necessary to provide a grip portion such as a handle on the blower portion 42. Since it is not necessary to provide a grip portion such as a handle in this way, the airflow sucked from the rear of the axial flow fan 14 is not disturbed by the grip portion such as the handle. In particular, as in the present invention, the axial flow fan 14 of the type in which the secondary airflow generated according to the main airflow generated by the wing portion 27 is circulated from the rear of the blower portion 42 to the inside of the frame body 25 is provided. In the fan 41 used, it is effective because it can prevent the wing airflow from being obstructed.

As described above, the present invention is a fan 41 having a motor casing 10 in which a motor 9 is housed, a blower portion 42 having an axial flow fan 14 rotated by the motor 9, and a support column 3 supporting the blower portion 42. In the axial straight cross-sectional area of the casing body 15 of the motor casing 10, which is a portion where the motor 9 is housed on the opposite side (anti-axial flow fan 14 side) of the axial flow fan 14 with the motor casing 10 interposed therebetween. ^{_{(π (D 1/2)}} 2) with extension 43 having a smaller axial straight cross-sectional area than ^{_{(π (D 4/2)}} 2) is formed, connecting the extended portion 43 at the top of the column 3 Therefore, the wasted space in the blower portion 42 can be reduced, so that the blower portion 42 can be miniaturized.

Further, it has a base portion 2 in which the swing motor 5 is housed, and the lower portion of the support column 3 is connected to the base portion 2, and the support column 3 is made rotatable by the swing motor 5. Therefore, it is not necessary to house the swing motor 5 in the motor casing 10, so that the blower portion 42 can be further miniaturized.

Further, the axial fan 14 side of the motor casing 10 is housed in the central hub 20 of the axial fan 14, so that the dimension from the front end of the axial fan 14 to the rear end of the motor casing 10 can be measured. Since it can be made smaller, the blower portion 42 can be made smaller.

Further, since the operating means 22 is provided on the extension portion 43, the user can operate the operating means 22 while standing, so that the operability can be improved.

Next, a reference example of the present invention will be described with reference to FIG. In the fourth embodiment, the configurations other than the extension portion 53 are the same as the configurations in the first to third embodiments described above, and thus the description thereof will be omitted.

Reference numeral 51 denotes the electric fan of the present invention. The fan 51 includes a disk-shaped base 2, a cylindrical support 3 provided in the center of the base 2, and a blower 52 attached to the upper part of the support 3.

The blower portion 52 includes a motor casing 10 in which a motor 9 such as a DC motor is housed, an extension portion 53 extending behind the motor casing 10, and a rear guard 12 attached to the motor casing 10. It has a front guard 13 attached to the front side of the rear guard 12, and an axial flow fan 14 surrounded by the rear guard 12 and the front guard 13 and provided on the front side of the motor casing 10. That is, the extension portion 53 is formed on the opposite side (anti-axial flow fan 14 side) of the axial flow fan 14 with the motor casing 10 interposed therebetween.

The extension portion 53 has a substantially cylindrical shape, and is provided so as to project rearward from the center of the flange portion 16 of the motor casing 10. The extension portion 53 is provided coaxially with the motor casing 10 and the motor 9. An operating means 22 is provided on the upper surface of the extension 53, and the switch board 22C is housed inside the extension 53. Further, a mounting hole 54 is formed in a portion slightly in front of the center of the lower surface portion of the extension portion 53, and the upper end of the support column 3 is inserted into the extension portion 53 from the mounting hole 54. The inner diameter of the mounting hole 54 is substantially the same as the outer diameter of the support column 3. Further, the upper end of the support column 3 is fixed in the extension portion 53 in a state orthogonal to the axial direction of the extension portion 53. Since the motor 9 is not accommodated in the extension portion 53, the outer dimension (in the case of the present embodiment) of the extension portion 53 can be reduced. That is, the outer diameter of the extension portion 53 is smaller than the outer diameter of the portion of the casing main body 15 that is in front of the tightening body 18. That is, the axial cross-sectional area of the extension portion 53 is smaller than the axial cross-sectional area of the casing main body 15 in which the motor 9 is housed. In this embodiment, the axial straight cross-sectional area of the extended portion 53 is the area of a circle with a diameter _{D 4 (π (D 4/} 2) 2). Similarly, the axial straight cross-sectional area of the casing body 15 is the area of a circle of diameter _{D 1 (π (D 1/} 2) 2). Further, the outer diameter D ₄ of the extension portion 53 is smaller than the outer diameter D _{2 of the motor 9.} That is, the axial straight cross-sectional area of the extended portion 53, the axial straight cross-sectional area ^{_{(π (D 2/2)}} 2) of the motor 9 is smaller than. In the present embodiment, the outer diameter D ₄ of the extension portion 53 is about 45 mm. Further, the strut 3, from being inserted into the extended portion 53, at least its upper portion, is formed narrower than the outer diameter D ₄ of the breadth the extended portion 53. In the case of the present embodiment, since the support column 3 has a cylindrical shape, its outer diameter D ₅ is smaller than _{the outer diameter D 4} of the extension portion 53.

Then, as described above, the motor 9 is housed in the motor casing 10, and the extension portion 53 in which the motor 9 is not housed is provided behind the motor casing 10, so that the blower portion 52 Since the wasted space can be reduced and the blower portion 52 can be miniaturized, the design can be improved. In the present embodiment, since the switch board 22C of the operating means 22 is provided on the extension 53, it is sufficient that the extension 53 has a size that accommodates the switch board 22C of the operating means 22. Further, the portion of the casing body 15 on the side of the axial flow fan 14 of the motor casing 10 on the front side of the tightening body 18 is housed in the central hub 20 of the axial flow fan 14, so that the axial flow fan is accommodated. Since the dimension from the front end of the 14 to the rear end of the motor casing 10 can be reduced, the blower portion 52 can be further miniaturized. Further, in the conventional electric fan, the swinging motor is generally housed in the blower portion, but in the fan 51 of the present invention, the swinging motor 5 is housed in the base portion 2, so that the above-mentioned The blower portion 52 can be made smaller.

Next, the operation of the fourth embodiment of the present invention will be described. First, the user connects one end of a power cord (not shown) to the power connection portion (not shown) of the base 2, and connects the other end of the power cord to an AC power supply (not shown). By doing so, the fan 51 is in an operable state. Then, the electric fan 51 can be operated by operating the operating means 22 provided on the upper portion of the extension portion 53. The fan 51 uses the operating means 22 to rotate and stop the axial fan 14, adjust the rotational speed of the axial fan 14, select the swing of the blower 52, and set the off timer. It is operable. Then, by providing the operating means 22 on the upper portion of the extension portion 53, the user can operate the fan 51 while standing, and the operability can be improved. Then, the air flow is generated by rotating the axial flow fan 14, which is the same as that of the conventional electric fan.

Further, when the auxiliary operating means 22B is operated to select the blower portion 52 to swing, the swing motor 5 built in the base portion 2 reciprocates. Then, when the swing motor 5 reciprocates, the movement of the swing motor 5 is transmitted to the spur gear 6, and the support column 3 connected to the spur gear 6 reciprocates. In this way, when the strut 3 reciprocates, the blower 52 provided at the upper end of the strut 3 also reciprocates in conjunction with it. As a result, the axial fan 14 can blow air over a wide range while the blower 52 swings in the horizontal direction.

When moving the fan 51, there are two parts that the user can grasp. The first gripping position HA is the upper part of the support column 3. As described above, the support column 3 has a cylindrical shape with a small outer diameter, so that even a person with a small hand can easily hold it. Further, the second gripping position HB is the entire extension portion 53. Since this position, particularly the portion from the periphery of the support column 3 to the flange portion 16, is close to immediately above the center of gravity of the fan 51, the weight balance when gripping is excellent and it is easy to grip. Further, unlike the first to third embodiments, since the vertical swing mechanism 24 does not exist, there is no risk of pinching a finger and it is safe.

By making the support column 3 or the extension portion 53 grippable in this way, it is not necessary to provide a grip portion such as a handle on the blower portion 52. Since it is not necessary to provide a grip portion such as a handle in this way, the airflow sucked from the rear of the axial flow fan 14 is not disturbed by the grip portion such as the handle. In particular, as in the present invention, the axial flow fan 14 of the type in which the secondary airflow generated according to the main airflow generated by the wing portion 27 is circulated from the rear of the blower portion 52 to the inside of the frame body 25 is provided. In the fan 51 used, it is effective because it can prevent the wing airflow from being obstructed.

As described above, the present invention is a fan 51 having a motor casing 10 in which a motor 9 is housed, a blower 52 having an axial flow fan 14 rotated by the motor 9, and a support column 3 supporting the blower 52. In the axial straight cross-sectional area of the casing body 15 of the motor casing 10, which is a portion where the motor 9 is housed on the opposite side (anti-axial flow fan 14 side) of the axial flow fan 14 with the motor casing 10 interposed therebetween. ^{_{(π (D 1/2)}} 2) with extension 53 having a smaller axial straight cross-sectional area than ^{_{(π (D 4/2)}} 2) is formed, connecting the extended portion 53 at the top of the column 3 Therefore, the wasted space in the blower portion 52 can be reduced, so that the blower portion 52 can be miniaturized.

Further, it has a base portion 2 in which the swing motor 5 is housed, and the lower portion of the support column 3 is connected to the base portion 2, and the support column 3 is made rotatable by the swing motor 5. Therefore, it is not necessary to house the swing motor 5 in the motor casing 10, so that the blower portion 52 can be further miniaturized.

Further, the axial fan 14 side of the motor casing 10 is housed in the central hub 20 of the axial fan 14, so that the dimension from the front end of the axial fan 14 to the rear end of the motor casing 10 can be measured. Since it can be made smaller, the blower portion 52 can be made smaller.

Further, since the operating means 22 is provided on the extension portion 53, the user can operate the operating means 22 while standing, so that the operability can be improved.

The present invention is not limited to the above embodiments, and various modifications can be made within the scope of the gist of the invention. For example, in each of the above embodiments, the extension portions 11, 33, 43, and 53 are formed in a cylindrical shape, but the shape is not limited to this shape, and the extension portions 11, 33, 43, and 53 may be formed in a polygonal cylinder shape or an elliptical cylinder shape. Further, in each of the above embodiments, only the support column 3 is configured to reciprocate with respect to the base portion 2, but the base portion is divided into upper and lower parts, and the upper portion of the base portion is integrally formed with the support column to form the base portion. The upper part and the support column may be configured to reciprocate together.

1,31,41,51 Fan 2 Base 3 Prop 4,32,42,52 Blower 5 Swing motor 9 Motor 10 Motor casing 11,33,43,53 Extension 14 Axial flow fan 15 Casing body (motor casing)
20 Central hub 22 Operating means D ₁ Diameter of motor casing 10 D ₂ Diameter of motor 9 D ₃ Inner diameter of central hub 20 D ₄ Outer diameter of extension 11

Claims (2)

In a fan having a motor casing in which a motor is housed, a blower having an axial fan rotated by the motor, a support column for supporting the blower part, and a base portion to which a lower portion of the support column is connected.
An extension portion having an axial cross-sectional area smaller than the axial cross-sectional area of the motor casing at the portion where the motor is housed is formed on the counter-axial flow fan side of the motor casing , and this extension portion is formed on the support column. It is connected to the upper part, and a swing motor is housed inside the base portion. The swing motor makes the support column rotatable, and an operating means is provided in the extension portion to operate inside the extension portion. fan, characterized in Rukoto vertical swing mechanism is provided with a switch board and torque hinge for means. The fan according to claim 1, wherein the motor casing has a portion housed in a central hub of the axial fan.

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