JP2021028494A - Blower - Google Patents

Abstract

To provide a blower capable of blowing air further downward than the horizontal direction, while achieving compactification of the device.SOLUTION: A blower 1 includes: an air blowing part 2 having a housing 20 in which a slit 210 from a lower surface to an upper surface is formed; and a support part 3 having a support leg 33 which is inserted in the slit 210. The support leg 33 includes: a vertical part 336 erected from the support part 3 and inserted in the slit 210; an inclined part 337 connected to an upper end of the vertical part 336 and inclining frontward and upward; and a pivot part 338 connected to a tip of the inclined part 337 and pivoted to a shaft part 293 of the air blowing part 2. The pivot part 338 is provided further frontward than a region in which the vertical part 336 is extended upward. In a horizontal attitude in which an air blowing direction F of the air blowing part 2 becomes the horizontal direction, a gap D1 is formed between a lower end 210a of the slit 210 and the vertical part 336, and the air blowing part 2 can be rotated so that the air blowing direction F of the air blowing part 2 faces further downward than the horizontal direction.SELECTED DRAWING: Figure 14

Description

The present embodiment relates to a blower such as a circulator.

Conventionally, as a blower capable of swinging up and down, a circulator having a structure in which the casing of the blower portion is supported by two support legs is known (see Patent Document 1).

The circulator described in Patent Document 1 has a structure in which two support legs are erected on a pedestal at a distance wider than the width of the blower portion, and the blower portion is pivotally supported between the two support legs. Therefore, the width of the pedestal portion is inevitably larger than that of the blower portion, and it is difficult to reduce the size of the device.

Therefore, a circulator has been proposed in which a slit is provided in the casing of the blower portion and the support leg provided in the pedestal portion is inserted into the slit so that the blower portion is supported inside the casing by the support leg (Patent Document). 2).

With such a structure, the circulator can be designed compactly.

Japanese Patent No. 5568171 Japanese Patent No. 6363811

However, although the circulator described in Patent Document 2 can be designed compactly, the range of motion of the vertical swing is limited to the angle range from the horizontal direction to the upward diagonal direction. Therefore, when the circulator is installed on the shelf or on the window frame, it is not possible to blow air downward from the horizontal direction.

As described above, in the conventional structure, it is not possible to swing the device downward (depression angle) from the horizontal direction while trying to make the device compact.

The present embodiment provides a blower capable of blowing air downward from the horizontal direction while making the device compact.

According to one aspect of the present embodiment, a blower portion having a housing having a slit extending in the vertical direction and a support leg inserted into the slit and pivotally attaching the blower portion so as to be rotatable in the vertical direction are provided. The support leg is provided with a support portion to be provided, and the support leg is provided upright near the rear end of the support portion and inserted into the slit, and a shaft portion provided in front of the base portion and inserted into the blower portion. A pivotal portion having an insertion hole is provided, and the lower end of the slit is provided at a position facing the front-rear central portion of the support portion in a horizontal posture in which the ventilation direction of the ventilation portion is horizontal. A blower having a structure in which a gap is formed between the lower end of the slit and the base portion of the support leg, and the blower portion can be rotated so that the blower direction of the blower portion faces downward from the horizontal direction. Provided.

Further, according to another aspect of the present embodiment, a blower portion having a housing having a slit extending in the vertical direction and the blower portion inserted into the slit are pivotally attached so as to be rotatable in the vertical direction. A support portion having a support leg is provided, and the support leg is inserted in a base portion erected in the support portion and inserted into the slit, and an insertion portion provided in front of the base portion and through which a shaft portion of the blower portion is inserted. The slit is provided with a pivot portion having a hole, and the pivot portion is provided so as to support the shaft portion of the blower portion from the rear, and the slit is in a horizontal posture in which the blower direction of the blower portion is horizontal. The lower end of the blower portion is located below the shaft portion of the blower portion, a gap is formed between the lower end portion of the slit and the base portion of the support leg, and the blower direction of the blower portion is lower than the horizontal direction. Provided is a blower having a structure capable of rotating the blower portion so as to face.

Further, according to another aspect of the present embodiment, a blower portion having a housing having a slit extending in the vertical direction and the blower portion inserted into the slit are pivotally attached so as to be rotatable in the vertical direction. A support portion having a support leg is provided, and the blower portion is provided with a locking portion that projects in the axial direction of rotation, and a plurality of locking recesses formed in the locking portion and the support leg have a plurality of locking recesses. An angle adjusting mechanism including a pressing pin to be accommodated and an elastic portion for urging the pressing pin to press the locking recess is provided, and the support leg has the locking portion movable. Provided is a blower having a formed slit, in which the pressing pin is configured to be pressed against one of the plurality of locking recesses.

Further, according to another aspect of the present embodiment, a blower portion having a housing having a slit extending in the vertical direction and the blower portion inserted into the slit are pivotally attached so as to be rotatable in the vertical direction. A support portion having a support leg is provided, and a pivoting mechanism for suppressing the release of the pivotal state of the blower portion and the support leg is provided, and the pivoting mechanism is in the axial direction of rotation from the blower portion. A locking portion that protrudes into the door, a flange portion formed at the tip of the locking portion, a slit provided on the support leg into which the flange portion is movably inserted, and a slit provided in the slit. By rotating the support leg so that the protrusion and the flange portion face each other in the axial direction, the support leg is prevented from coming off from the shaft portion of the blower portion. A configured blower is provided.

Further, according to another aspect of the present embodiment, a blower portion having a housing having a slit extending in the vertical direction and the blower portion inserted into the slit are pivotally attached so as to be rotatable in the vertical direction. A support portion having a support leg is provided, and the blower portion has a grill, in which a plurality of fins are provided in a spiral shape, and an inner end portion close to the center of the spiral of the plurality of fins is provided. A gap is formed between the lower end of the slit and the support leg in a horizontal posture in which the blower portion projects in the blower direction from the outer end portion continuous with the blower port and the blower direction of the blower portion is horizontal. Provided is a blower having a configuration in which the blower portion can be rotated so that the blower direction of the windshield is downward from the horizontal direction.

According to the present embodiment, it is possible to provide a blower capable of blowing air downward from the horizontal direction while making the device compact.

The perspective view which shows the horizontal posture of the blower which concerns on this embodiment. The front view which shows the horizontal posture of the blower which concerns on this embodiment. The right side view which shows the horizontal posture of the blower which concerns on this embodiment. The top view which shows the horizontal posture of the blower which concerns on this embodiment. The rear view which shows the horizontal posture of the blower which concerns on this embodiment. An exploded perspective view of the blower according to the present embodiment. An exploded perspective view of a support portion included in the blower according to the present embodiment. An exploded perspective view of a support leg portion provided in the support portion according to the present embodiment. An exploded perspective view of a main body portion included in the support portion according to the present embodiment. The right side view which shows the maximum upward posture of the blower which concerns on this embodiment. The right side view which shows the maximum downward posture of the blower which concerns on this embodiment. The perspective view which shows the insertion state into the slit of the support leg provided in the blower which concerns on this embodiment. The perspective view which shows the horizontal posture of the blower which concerns on this embodiment partially broken. The right side view which shows the horizontal posture of the blower which concerns on this embodiment partially broken. The right side view which shows the maximum downward posture of the blower which concerns on this embodiment partially broken. The right side view which shows the maximum upward posture of the blower which concerns on this embodiment partially broken. The figure which looked at the maximum downward posture of the blower which concerns on this embodiment, along the blow direction. The cross-sectional view which shows the angle adjustment mechanism provided in the blower which concerns on this embodiment. The rear view which shows the rear cover provided in the blower which concerns on this embodiment. The perspective view which shows the support leg provided in the blower which concerns on this embodiment. The cross-sectional view which shows the insertion state into the slit of the support leg provided in the blower which concerns on this embodiment. The perspective view which shows the state before inserting the shaft part of the motor cover provided in the blower which concerns on this embodiment into the insertion hole of a support leg. The perspective view which shows the state which the shaft part of the motor cover provided in the blower which concerns on this embodiment is inserted into the insertion hole of a support leg. The cross-sectional view which shows the pivoting mechanism provided in the blower which concerns on this embodiment. The cross-sectional view which shows the left-right swing mechanism provided in the blower which concerns on this embodiment. An exploded perspective view of the blower according to the present embodiment as viewed from the back side. The perspective view which shows the wiring state of the electric cable provided in the blower which concerns on this embodiment. The perspective view of the wiring state of the electric cable provided in the blower which concerns on this embodiment as seen from the back side. The perspective view which shows an example of the use state of the blower which concerns on this embodiment. The perspective view which shows the 1st modification of the blower which concerns on this embodiment. The perspective view which shows the 2nd modification of the blower which concerns on this embodiment.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. In the description of the drawings, the same or similar parts are designated by the same or similar reference numerals. However, it should be noted that the drawings are schematic, and the relationship between the thickness and the plane dimensions, the ratio of the thickness of each layer, etc. are different from the actual ones. Therefore, the specific thickness and dimensions should be determined in consideration of the following explanation. In addition, it goes without saying that the drawings include parts having different dimensional relationships and ratios from each other.

[Overview]
It has a circulator structure in which the blower portion 2 is supported inside the cover (housing) 20 by the support legs 33, and can swing downward from the horizontal direction.

[appearance]
1 to 5 are external views showing a blower 1 according to the present embodiment, FIG. 1 is a perspective view, FIG. 2 is a front view, FIG. 3 is a right side view, FIG. 4 is a top view, and FIG. It is a rear view. The blower 1 is configured to have a spherical grill structure to enhance the wind speed and to have an evolved spherical design to look compact.

Specifically, as shown in FIGS. 1 to 5, the blower 1 according to the present embodiment supports the blower portion 2 having the grill 23 having the blower port 2a formed on the front side, and the blower portion 2. It is provided with a support portion 3.

In the grill 23, a plurality of fins 24 are provided in a spiral shape, and the inner end portion 24b near the center portion O of the spiral of the plurality of fins 24 projects in the blowing direction F from the outer end portion 24c continuous with the air blowing port 2a. There is. In other words, the inner end portion 24b projects in the blowing direction F with respect to the outer end portion 24c of the portion 24a in which the plurality of fins 24 are formed in the grill 23. The portion 24a on which the plurality of fins 24 are formed is a portion of the grill 23 excluding the cap 25 at the center O of the spiral. The inner end portion 24b is the inner end side near the central portion O of the spiral, and includes the vicinity of the inner end. The outer end portion 24c is a portion on the outer end side continuous with the air outlet 2a. As a result, the wind gathers (converges) in the center, and the wind speed in the center of the blowing direction can be improved. In addition, the reach of the wind (spiral airflow) blown from the air outlet 2a can be extended. As a result, the air in the room can be reliably agitated, and the temperature in the room can be made uniform to contribute to energy saving. The blower port 2a of the blower portion 2 is formed in a circular shape.

Here, in the blower 1 according to the present embodiment, the blower portion 2 is rotatably supported by the support portion 3. That is, the blower 1 according to the present embodiment includes a blower portion 2 and a support portion 3 that rotatably supports the blower portion 2.

The blower portion 2 preferably has a cover (housing) 20 in which a slit 210 extending in the vertical direction is formed. Further, it is preferable that the support portion 3 has a support leg 33 that is inserted into the slit 210 and pivotally attaches the blower portion 2 so as to be vertically rotatable. In this way, the blower portion 2 can be supported inside the cover (housing) 20 by the support legs 33, and the blower 1 can be made compact.

At this time, in a horizontal posture (the posture shown in FIGS. 1 to 5) in which the blowing direction F of the blowing portion 2 is horizontal, a gap D1 (see FIG. 14) is provided between the lower end 210a of the slit 210 and the support leg 33. It is preferable that the blower portion 2 can be rotated so that the blower direction F of the blower portion 2 faces downward from the horizontal direction. In this way, the air can be blown downward rather than horizontally.

By making the blower 1 compact in this way, it can be easily arranged on a shelf, a window frame, or the like. Further, if the air can be blown downward from the horizontal direction, the air can be blown below the shelf or the window frame while the blower 1 is arranged on the shelf or the window frame. That is, the blower 1 according to the present embodiment is used not only in a mode of arranging it on the floor surface and blowing air above the floor surface, but also in a state where it is installed on a shelf or a window frame. Since it can be used in a manner in which air is blown above or below the window frame, the degree of freedom in the installation location can be improved.

Further, it is preferable that the blower portion 2 is in the maximum downward posture in which the blower portion 2 is rotated to the lower limit of the rotatable range so that the blower port 2a of the blower portion 2 is not blocked by the support portion 3. In this way, it is possible to prevent the wind blown from the blower port 2a from hitting the support portion 3 in a state where the blower portion 2 is rotated to the lower limit of the rotatable range. As a result, it is possible to prevent the air volume from being weakened in the entire range in which the blower portion 2 can rotate.

Further, the cover (housing) 20 preferably has an arcuate surface 20a centered on the rotation axis C of the blower portion 2. Further, the support portion 3 preferably has a concave curved surface 322a facing the arcuate surface 20a with a gap D2 (see FIG. 15) having a predetermined dimension. Then, it is preferable that the gap D2 between the arcuate surface 20a of the cover (housing) 20 and the concave curved surface 322a of the support portion 3 does not expand when the blower portion 2 is rotated. By doing so, it is possible to prevent the blower portion 2 from interfering with the support portion 3 when the blower portion 2 is rotated. Further, it is possible to prevent the gap formed between the blower portion 2 and the support portion 3 from becoming large when the blower portion 2 is rotated. As a result, it is possible to prevent an object or the like from being caught in the gap between the blower portion 2 and the support portion 3 when the blower portion 2 is rotated, and it is possible to improve safety.

Further, it is preferable that a rib 212 projecting in the width direction of the slit 210 is formed on the inner surface 211c of the cover (housing) 20 that defines the width of the slit 210. In this way, the strength of the cover (housing) 20 can be increased. Further, by forming the rib 212 in the slit 210, it is possible to prevent a hand, a finger or the like from entering the slit 210, and it is possible to improve safety.

Further, it is preferable that the pivot mechanism 50 for suppressing the release of the pivoted state of the blower portion 2 and the support leg 33 is provided. By doing so, the blower portion 2 is manually rotated, and even if a force in the twisting direction is applied to the cover (housing) 20, the support legs 33 can be prevented from coming off from the blower portion 2. ..

Further, it is preferable that the cover (housing) 20 has a front cover 21 and a rear cover 22 that can be divided at an intermediate position between the front and rear of the blower portion 2. By doing so, the front cover 21 and the rear cover 22 can be easily manufactured, and the parts can be easily arranged inside the cover (housing) 20. That is, it is possible to improve the workability of assembling the blower unit 2. The slit 210 is preferably formed from the lower surface to the back surface to the upper surface of the rear cover 22. By doing so, since the slit 210 is formed in the rear cover 22 which is one member, it is possible to prevent the slits from being displaced due to an assembly error or the like. As a result, the blower portion 2 can be rotated more smoothly.

Further, it is preferable that the support legs 33 are provided near the rear end of the support portion 3. In this way, even if the slit 210 is formed in the rear cover 22 divided at the front-rear intermediate position of the blower portion 2, the blower portion 2 is rotated so that the blower direction F of the blower portion 2 faces downward from the horizontal direction. You will be able to make it.

[Details of each part]
Hereinafter, the blower 1 according to the present embodiment will be described in more detail with reference to FIGS. 6 to 9. Here, FIG. 6 is an exploded perspective view of the blower, FIG. 7 is an exploded perspective view of the support portion included in the blower, FIG. 8 is an exploded perspective view of the support leg portion included in the support portion, and FIG. 9 is an exploded perspective view of the support portion. It is an exploded perspective view of the main body part provided.

(Blower)
As shown in FIG. 6, the blower portion 2 includes a cover (housing) 20 in which a slit 210 extending in the vertical direction is formed, and the cover (housing) 20 can be divided at a front-rear intermediate position of the blower portion 2. It has a front cover 21 and a rear cover 22.

Further, the blower portion 2 has a grill 23. Further, the blower unit 2 has a fan 27 for blowing air to generate an air flow, a motor 28 for driving the fan 27, and a motor cover 29 attached to the rear cover 22 while holding the motor 28. ..

As shown in FIG. 6, the front cover 21 is formed in a tubular shape having a shape like a cut front portion of the front half of the spherical shell, and has a circular opening 21a that opens forward. The front cover 21 can be formed of, for example, a synthetic resin material such as polypropylene. A spherical grill 23 is fitted into the circular opening 21a from behind.

The grill 23 is, for example, a front panel made of a synthetic resin material having high impact resistance. In the present embodiment, the grill 23 has a plurality of spiral fins 24, and the plurality of fins 24 are formed in a convex shape so as to gradually project toward the central portion O of the spiral. By doing so, the wind is sent from the rear of the grill 23, and when the air flow (wind) passes in the front-rear direction of the grill 23, a spiral air flow that travels straight while swirling is generated. In the present embodiment, the grill 23 is formed so that the front surface forms a part of a spherical surface.

As described above, in the present embodiment, the front cover 21 and the grill 23 form a hemisphere on the front side of the blower portion 2.

On the other hand, the rear cover 22 is hemispherically formed by a plurality of crosspieces 22a, and a large number of vents 22b for taking in outside air are formed over almost the entire surface of the rear cover 22. The rear cover 22 can also be formed of, for example, a synthetic resin material such as polypropylene.

Then, the front cover 21 into which the grill 23 is fitted and the rear cover 22 are fitted to form a spherical shape. That is, the spherical blower portion 2 is formed by fitting the front cover 21 into which the grill 23 is fitted and the rear cover 22.

In this way, if the appearance of the blower portion 2 is spherical, it can be made to have a sophisticated appearance, and by eliminating the corners, it can be made to have a more compact appearance. In addition, it is possible to improve the cuteness and fashionability of the appearance.

It should be noted that the plurality of fins 24 may be supported by a circular ring intersecting with each fin 24 in order to prevent fingers from entering through the gaps between the plurality of fins 24 and also to reinforce the grill 23.

Further, in the present embodiment, a cylindrical wind tunnel portion 26 is provided on the outer peripheral edge portion of the grill 23 so as to extend rearward. The wind tunnel portion 26 is a cylindrical member provided on the radial outer side of the fan 27, so that the inner diameter of the wind tunnel portion 26 is substantially equal to the inner diameter of the air outlet 2a. That is, in the present embodiment, the air outlet 2a of the air blower 2 is inside the portion of the grill 23 where the wind tunnel 26 is continuously provided. As described above, in the present embodiment, by providing the cylindrical wind tunnel portion 26 inside the blower portion 2, the directivity and straightness of the wind, which are the actions peculiar to the circulator, can be ensured.

The motor 28 drives the fan 27, and includes a motor main body 28a and an output shaft 28b protruding from the motor main body 28a. A fan 27 is attached to the tip of the output shaft 28b so that the fan 27 rotates about the output shaft 28b when the motor 28 is driven.

Further, in the present embodiment, the motor 28 is held by the motor cover 29. Specifically, the motor body 28a is held by the motor cover 29 in a state where the output shaft 28b is inserted into the insertion hole 291 of the motor cover 29. The motor cover 29 is attached to the rear cover 22 while holding the motor 28.

Then, with the motor 28 and the fan 27 attached to the rear cover 22 via the motor cover 29, the rear cover 22 is fitted to the front cover 21 into which the grill 23 is fitted, so that a blower mechanism is incorporated therein. Part 2 is formed.

By making the configuration of the blower portion 2 such a configuration, when the motor 28 is driven to rotate the fan 27, the outside air taken in from the vent 22b of the rear cover 22 is blown out from the blower port 2a. The wind will be sent to the front of the blower unit 2. As described above, the air flow (wind) from the rear to the front travels straight while swirling when passing through the grill 23, so that the wind blown from the air outlet 2a generates a spiral air flow. , Will head forward.

Further, in the present embodiment, the rear cover 22 has the air holes 22c at the rear portion of the motor, and the air holes 292 are formed in the motor cover 29.

Therefore, when the motor 28 is driving the fan 27, the outside air is also taken in from the air holes 22c at the rear portion of the motor, so that a larger air volume can be secured. Further, when the motor 28 is driving the fan 27, an air flow passing through the air hole 292 is also generated. Therefore, the air flow generated by the motor 28 itself can cause the motor 28 to have a cooling effect. It is also a measure against heat generation of 28.

(Support part)
The support portion 3 is placed on an installation surface such as a floor surface, and a power cord 80 is attached to the support portion 3. Further, as shown in FIG. 7, the support portion 3 includes a main body portion in which the blower portion 2 is arranged upward and a pair of support portions 3 fixed to the main body portion to support the blower portion 2 inside the cover (housing) 20. It is provided with a support leg 33.

It is preferable that the main body portion of the support portion 3 has a size in a plan view that is substantially the same as or smaller than a size in a plan view of the blower portion 2. By doing so, as shown in FIG. 4, the size of the blower 1 in the plan view can be made substantially the same as the size of the blower unit 2 in the plan view, and the entire blower 1 becomes too large. It can be suppressed. If the size of the main body of the support portion 3 in the plan view is substantially the same as the size of the blower portion 2 in the plan view, it is possible to reduce the size of the blower 1 while suppressing the blower 1 from tipping over. become able to. That is, it becomes possible to mount the blower 1 more stably while reducing the size of the blower 1.

Further, as shown in FIG. 8, the support leg 33 is formed with an accommodating portion 333, and the accommodating portion 333 accommodates the pressing pin 41 in a state of being inserted into the coil spring 42. Then, by covering the accommodating portion 333 accommodating the pressing pin 41 and the coil spring 42 with the fall suppressing cover 34, the pressing pin 41 and the coil spring 42 are suppressed from falling from the accommodating portion 333.

On the other hand, as shown in FIG. 9, the main body portion of the support portion 3 has a pedestal lower portion 31 formed in a circular shape in a plan view, and a pedestal upper portion 32 that can be fitted to the pedestal lower portion 31. The cover forming the outer surface of both the lower pedestal 31 and the upper pedestal 32 can be made of a synthetic resin material such as polypropylene, for example.

The main body of the support portion 3 has a hollow inside, and the circuit board 35, the left-right swing mechanism 60, and the like are housed in this cavity.

Further, a one-legged strut portion 321 is vertically erected behind the center of the cover of the pedestal upper portion 32, and an operation panel 323 is erected in front of the strut portion 321 of the cover of the pedestal upper portion 32. Is placed. The blower portion 2 is arranged above the upper surface 322 of the support column portion 321 in a state where a gap (a gap D2 having a predetermined dimension in the present embodiment) is formed between the blower portion 2 and the upper surface 322.

Therefore, when setting the height of the strut portion 321 and the amount of deviation from the center of the strut portion 321 (the center of the upper part of the pedestal in a plan view), an operation by a user or the like is performed between the blower portion 2 and the operation panel 323. It is preferable that a space is formed so as not to interfere with the operation of the panel 323.

The operation panel 323 is provided with, for example, a power button for switching the power off / on, an air volume button for adjusting the air volume of the blower unit 2, a swing button for switching the left / right swing on / off, and the like.

Further, openings 322b that open upward are formed on both sides of the upper surface 322 of the support column 321 in the width direction, and by inserting the tip (lower end) of the support leg 33 into the opening 322b, the support leg 33 is held by the main body portion of the support portion 3. In the present embodiment, the opening 322b is formed on the rear end side of the upper surface 322 of the support column 321. That is, in the present embodiment, the support legs 33 are provided near the rear end of the support portion 3.

Further, in the present embodiment, the blower 1 has a remote controller 70 for switching the power on / off, and the remote controller mounting portion for mounting the remote controller 70 on the lower end portion on the rear side of the support column 321. 324 is formed (see FIG. 5 and the like). A remote control receiving unit 35a for receiving a signal from the remote control 70 is mounted on the circuit board 35, and the remote control receiving unit 35a is exposed from the lower end portion on the front side of the support column portion 321 toward the front.

[Up and down swing structure]
In the present embodiment, the blower portion 2 is supported by the support portion 3 so that it can swing in the vertical direction. In the following, the vertical swing structure of the blower portion 2 will be described with reference to FIGS. 10 to 17. 10 is a right side view showing the maximum upward posture of the blower, FIG. 11 is a right side view showing the maximum downward posture of the blower, and FIG. 12 is a perspective view showing the insertion state of the support leg of the blower into the slit. It is a figure. Further, FIG. 13 is a perspective view showing the horizontal posture of the blower partially broken, and FIG. 14 is a right side view showing the horizontal posture of the blower partially broken. Further, FIG. 15 is a right side view showing the maximum downward posture of the blower partially broken, FIG. 16 is a right side view showing the maximum upward posture of the blower partially broken, and FIG. 17 is a maximum downward view of the blower. It is the figure which looked at the posture along the blowing direction.

In the blower 1 according to the present embodiment, the blower portion 2 can be swung up and down in a range from the maximum upward posture shown in FIG. 10 to the maximum downward posture shown in FIG. That is, in the blower 1 according to the present embodiment, the blower portion 2 can be rotated so that the blower direction F is not only upward than the horizontal direction but also downward. Specifically, the blower portion 2 can be rotated within a range in which the angle θ formed by the blower direction F and the horizontal plane is −25 ° to + 90 °.

Here, in the present embodiment, as shown in FIG. 12, the support legs 33 are inserted into the slits 210 formed in the rear cover 22 and extending in the vertical direction, and the motor covers are fixed to the rear cover 22. It is pivotally attached to 29.

Specifically, cylindrical shaft portions 293 are formed on both sides of the motor cover 29 in the width direction so as to project outward in the width direction, and are formed in the cover (housing) 20 of the support leg 33. An insertion hole 332 through which the shaft portion 293 is inserted is formed at the tip of the position.

Then, by inserting the insertion holes 332 of the support legs 33 into each of the shaft portions 293 formed on both sides in the width direction of the motor cover 29, the motor cover 29 is sandwiched by the pair of support legs 33. It is supported so that it can be rotated in the vertical direction.

Further, the support leg 33 inserted into the slit 210 is formed by inserting the lower end (tip located outside the housing) into the opening 322b formed in the upper surface 322 of the support portion 321 to form the main body portion of the support portion 3. It is held in.

In this way, while the lower end of the support leg 33 is held by the main body portion of the support portion 3, the motor cover 29 is rotatably supported in the vertical direction by the pair of support legs 33, so that the motor cover 29 is supported by the support portion. It is configured to be rotatable with respect to 3 (main body portion and support leg 33).

At this time, the rear cover 22 to which the motor cover 29 is fixed, the motor 28 and the fan 27 fixed to the rear cover 22 via the motor cover 29, the front cover 21 fitted to the rear cover 22, and the grill fitted to the front cover 21. The 23 and the wind tunnel portion 26 rotate with the rotation of the motor cover 29.

That is, in the present embodiment, the motor cover 29 pivotally attached to the pair of support legs 33 is rotated with respect to the support portion 3 (main body portion and support leg 33), so that the entire blower portion 2 is supported. It is configured to rotate with respect to 3 (main body portion and support leg 33).

At this time, the blower portion 2 rotates with respect to the support portion 3 (main body portion and support leg 33) from the state where the support leg 33 is located on the lower end 210a side of the slit 210 to the state where it is located at the upper end 210b of the slit 210. Will be done.

Here, in the present embodiment, the blower portion 2 can be rotated so that the blower direction F of the blower portion 2 faces downward from the horizontal direction.

Specifically, as shown in FIGS. 13 and 14, a gap D1 is formed between the lower end 210a of the slit 210 and the support leg 33 in a horizontal posture in which the blowing direction F of the blowing portion 2 is horizontal. I did it.

In the present embodiment, as described above, the support legs 33 are provided near the rear end of the support portion 3. Specifically, the support legs 33 are connected to the vertical portion 336 which is erected above the opening 322b and the upper end of the vertical portion 336 while being held by the support portion 3, and are inclined forward and upward. It is provided with an inclined portion 337 to be provided, and a pivoted portion 338 connected to the tip of the inclined portion 337 and pivotally attached to the shaft portion 293. The insertion hole 332 described above is formed in the pivot portion 338.

Then, the slit 210 is provided in the middle of the vertical portion 336 while the support leg 33 is held near the rear end of the support portion 3.

Further, the cover (housing) 20 is configured to be divided into a front cover 21 and a rear cover 22 at an intermediate position between the front and rear of the blower portion 2 in the horizontal posture, and the slit 210 is the rear cover 22 in the horizontal posture. It is formed up to the vicinity of the lower edge of the. That is, the lower end 210a of the slit 210 is positioned closer to the center portion in the front-rear direction of the support portion 3 in the horizontal posture.

By doing so, the gap D1 is formed between the lower end surface 211a that defines the lower end 210a of the slit 210 and the front surface of the support leg 33 in the state where the blower 1 is in the horizontal posture.

Then, in the horizontal posture, by forming a gap D1 between the lower end surface 211a and the front surface of the support leg 33, the blower portion 2 reaches a position where the front surface of the support leg 33 comes into contact with the lower end surface 211a. Can be further rotated downward (see FIG. 15). That is, the blower portion 2 can be rotated so that the blower direction F of the blower portion 2 faces downward from the horizontal direction.

Further, in the present embodiment, the slit 210 is formed up to the vicinity of the upper end edge of the rear cover 22 in the horizontal posture. That is, the slit 210 is formed from the lower surface of the rear cover 22 to the upper surface through the back surface. In other words, the slit 210 is formed from the lower surface to the back surface to the upper surface of the rear cover 22.

Therefore, the blower portion 2 can be rotated upward until the rear surface of the support leg 33 comes into contact with the upper end surface 211b that defines the upper end 210b of the slit 210 (see FIG. 16). ..

As described above, in the present embodiment, the blower portion 2 is rotated in the vertical direction in the range from the state where the support leg 33 is located on the upper end 210b side of the slit 210 to the state where it is located on the lower end 210a side. Is configured to allow

The state in which the blower portion 2 is rotated to a position where the front surface of the support leg 33 comes into contact with the lower end surface 211a of the slit 210 (the state shown in FIG. 15) is the maximum downward posture of the blower 1 (the blower portion 2 rotates). It is in a state of being rotated to the lower limit of the possible range). In the present embodiment, as described above, the maximum downward posture is in the state where the angle θ formed by the blowing direction F and the horizontal plane is −25 °.

Further, the state in which the blower portion 2 is rotated to a position where the rear surface of the support leg 33 comes into contact with the upper end surface 211b of the slit 210 (the state shown in FIG. 16) is the maximum upward posture of the blower 1 (the blower portion 2 rotates). It is in a state of being rotated to the upper limit of the possible range). In the present embodiment, as described above, the maximum upward posture is in the state where the angle θ formed by the blowing direction F and the horizontal plane is + 90 °.

Further, in the present embodiment, a pivoting portion 338 is formed at the tip of the inclined portion 337 of the support leg 33, and this pivoting portion 338 serves as the rotation axis C of the blower portion 2 (FIG. 14 to 16).

Further, in the present embodiment, the rotation axis C of the blower portion 2 coincides with the center of the spherical blower portion 2 in the side view (state viewed along the rotation axis direction).

By aligning the rotation axis C of the blower portion 2 with the center of the blower portion 2 in this way, the outer surface of the cover (housing) 20 is a circle centered on the rotation axis C of the blower portion 2. It becomes an arcuate surface 20a. That is, in the present embodiment, the cover (housing) 20 has an arcuate surface 20a centered on the rotation axis C of the blower portion 2.

Further, with the blower portion 2 supported by the support portion 3, a concave curved surface 322a is formed on the upper surface 322 of the support column portion 321 facing the arcuate surface 20a. The concave curved surface 322a is a part of a spherical surface concentric with the arcuate surface 20a.

By forming such an arcuate surface 20a and a concave curved surface 322a on the blower portion 2 and the support portion 3, the concave curved surface 322a faces the arcuate surface 20a with a gap D2 having a predetermined dimension. .. Further, when the blower portion 2 is rotated, the gap D2 between the arcuate surface 20a and the concave curved surface 322a of the support portion 3 does not expand.

By doing so, it is possible to prevent the blower portion 2 and the support portion 3 from interfering with each other when the blower portion 2 is rotated. Further, even if the blower portion 2 is rotated, the silhouette of the blower 1 (the contour shape of the blower 1 in the side view) hardly changes.

Further, if the gap D2 between the arcuate surface 20a and the concave curved surface 322a of the support portion 3 is prevented from expanding, there will be something in the gap between the blower portion 2 and the support portion 3 when the blower portion 2 rotates. It is possible to suppress being pinched, and it is possible to improve safety.

The arcuate surface 20a may be formed at least at a portion facing the concave curved surface 322 when the blower portion 2 is rotated within a rotatable range, and the entire outer surface of the blower portion 2 may be formed. It is not necessary to use the arcuate surface 20a.

Further, in the present embodiment, as shown in FIG. 17, the blower port 2a of the blower portion 2 is not blocked by the support portion 3 in the maximum downward posture in which the blower portion 2 is rotated to the lower limit of the rotatable range. I am doing it. That is, when the blower 1 is viewed along the blowing direction F, the lower end of the circular blower port 2a is at the same position as the front upper end of the support column 321 or is located above the front upper end of the support column 321. It is configured to do.

In this way, even when the blower 1 is in the maximum downward posture, it is possible to prevent the wind discharged from the blower port 2a from hitting the support portion 3. That is, it is possible to prevent the wind discharged from the air outlet 2a from being diffused by the support portion 3.

[Angle adjustment mechanism]
Further, in the present embodiment, the blower 1 is provided with an angle adjusting mechanism 40, and when the blower 2 is rotated within a rotatable range, the blower 2 is held stepwise at a predetermined angle. I am trying to do it. Hereinafter, the angle adjusting mechanism 40 according to the present embodiment will be described with reference to FIG. Note that FIG. 18 is a cross-sectional view showing an angle adjusting mechanism included in the blower.

The angle adjusting mechanism 40 according to the present embodiment has a pressing pin 41 that is abutted against the motor cover 29 to regulate the rotation of the motor cover 29, and a pressing pin 41 is inserted into the pressing pin 41 to the motor cover 29. It is provided with a coil spring 42 that urges the driver to face the motor.

As described above, the pressing pin 41 and the coil spring 42 are housed in the housing portion 333 of the support leg 33.

Further, on both sides of the motor cover 29 in the width direction, arc-shaped locking portions 294 centered on the rotation axis C are formed so as to project outward in the width direction, and the rotation of the locking portions 294. On the axis C side, a plurality of locking recesses 294a are formed at predetermined intervals along the rotation direction. The plurality of locking recesses 294a correspond to a range of rotatable range (-25 ° to + 90 °) of vertical swing of the blower portion 2.

Then, while the support leg 33 holds the motor cover 29, the tip of the pressing pin 41 housed in the housing portion 333 is brought into contact with the locking recess 294a. At this time, the coil spring 42 is housed in the accommodating portion 333 in a state of being contracted from the free state, and the pressing pin 41 is urged toward the locking recess 294a by the coil spring 42.

By doing so, when the user holds the blower portion 2 and moves it in the vertical direction, the pressing pin 41 clicks over the locking recess 294a and moves. When the rotation of the blower portion 2 is stopped while the pressing pin 41 is in contact with one of the plurality of locking recesses 294a, the locking recess 294a is pressed by the pressing pin 41, so that the strength is appropriate. The pressing pin 41 can be locked in the locking recess 294a.

As described above, the angle adjusting mechanism 40 according to the present embodiment is pressed by the pressing pin 41, the coil spring 42, the accommodating portion 333 accommodating the pressing pin 41 and the coil spring 42, and the pressing pin 41. It is composed of a locking recess 294a. Then, any one of the plurality of locking recesses 294a is locked by the pressing pin 41.

If such an angle adjusting mechanism 40 is provided, the angle of the blower portion 2 (the angle of the blower direction F with respect to the horizontal direction) can be manually and stepwise changed.

In addition, at the connecting portion between the inclined portion 337 and the pivot portion 338, it is possible to prevent the locking portion 294 from interfering with the support leg 33 when the motor cover 29 is rotated with respect to the support portion 3. A slit 334 for the purpose is formed. The slit 334 is also formed in an arc shape centered on the rotation axis C.

[Slit reinforcement structure]
Further, in the present embodiment, it is possible to suppress a decrease in strength due to the formation of the slit 210 from the lower surface to the upper surface of the rear cover 22. Hereinafter, the reinforcing structure of the slit 210 according to the present embodiment will be described with reference to FIGS. 19 to 21. 19 is a rear view showing the rear cover of the blower, FIG. 20 is a perspective view showing the support legs of the blower, and FIG. 21 is a cross-sectional view showing the insertion state of the support legs of the blower into the slits. ..

In the present embodiment, as shown in FIG. 19, a pair of slits 210 are formed so as to extend in the vertical direction on both sides in the width direction of the rear cover 22 formed by connecting the plurality of crosspieces 22a. There is. Further, in the present embodiment, each slit 210 is formed from the lower surface to the upper surface of the rear cover 22.

At this time, if the slit 210 is simply formed from the lower surface to the upper surface of the rear cover 22, the strength of the rear cover 22 is lowered, and the cover (housing) 20 may be deformed when the blower portion 2 is rotated. is there.

Therefore, in the present embodiment, as shown in FIGS. 19 and 21, of the inner surfaces 211 that define the slit 210, the ribs that protrude in the width direction of the slit 210 on the inner surface 211c that defines the width of the slit 210. 212 was formed. In the present embodiment, the rib 212 is formed in almost the entire range from the lower end to the upper end of the inner surface 211c that defines the width of the slit 210.

By providing such a rib 212, it is possible to improve the strength of the peripheral portion of the slit 210, which is a portion of the rear cover 22 where the strength is particularly low, and the cover (housing) is used when the blower portion 2 is rotated. ) 20 can be prevented from being deformed. The inner surface 211 that defines the slit 210 has a lower end surface 211a, an upper end surface 211b, and an inner surface 211c.

Further, in the present embodiment, the recess 331 is formed in the portion corresponding to the rib 212 of the support leg 33.

By forming the recess 331 in the portion corresponding to the rib 212 of the support leg 33 in this way, the support leg 33 having a relatively thick thickness can be moved in the slit 210 without interfering with the rib 212. Will be.

Therefore, the rear cover 22 can be reinforced while suppressing the strength of the support legs 33 from being lowered.

Further, when the blower portion 2 is rotated, the lower portion of the recess 331 is positioned below the rib 212. Specifically, as shown in FIG. 21, the lower inner surface of the recess 331 and the rib 212 are made substantially parallel to each other. In this way, when an excessive force is applied to the cover (housing) 20, the rib 212 comes into contact with the lower portion of the recess 331, so that the relative movement between the cover (housing) 20 and the support leg 33 is more reliably suppressed. become able to.

[Psychological mechanism]
Further, in the present embodiment, the blower 1 is provided with the pivot mechanism 50 so that the support legs 33 can be prevented from coming off from the blower portion 2 when the blower portion 2 is rotated. Hereinafter, the pivot mechanism 50 according to the present embodiment will be described with reference to FIGS. 22 to 24. FIG. 22 is a perspective view showing a state before the shaft portion of the motor cover provided in the blower is inserted into the insertion hole of the support leg, and FIG. 23 is a perspective view showing the state before the shaft portion of the motor cover provided in the blower is inserted into the insertion hole of the support leg. It is a perspective view which shows the inserted state. Further, FIG. 24 is a cross-sectional view showing a pivoting mechanism included in the blower.

In the present embodiment, a locking piece 293a projecting outward in the radial direction is formed at the axial tip of the shaft portion 293 of the motor cover 29. The locking piece 293a is formed in an arc shape at a part of the tip portion of the shaft portion 293 in the axial direction.

Further, in the insertion hole 332 of the support leg 33, an arcuate protrusion 332a projecting to the inner peripheral side is formed in a state where a part thereof is cut out. Of the inner peripheral side of the insertion hole 332, the portion where the arcuate protrusion 332a is not formed is the notch portion 332b. The notch portion 332b is large enough to allow the locking piece 293a to pass when the support leg 33 is moved axially with respect to the motor cover 29.

Therefore, in the present embodiment, when the support leg 33 is attached to the motor cover 29, first, as shown in FIG. 22, the locking piece 293a faces the notch portion 332b, and the insertion hole is inserted. The 332 is inserted through the shaft portion 293 to bring the state shown in FIG. 23.

Then, after the state shown in FIG. 23, the motor cover 29 is rotated in the direction indicated by the arrow in FIG. 23 so that the arcuate protrusion 332a and the locking piece 293a face each other in the axial direction.

By doing so, at least in a state where the blower portion 2 is rotated within a rotatable range, when the support leg 33 moves in the direction of coming out of the motor cover 29, the arcuate protrusion 332a becomes the locking piece 293a. In contact with each other, the support legs 33 are prevented from coming off from the motor cover 29 (see FIG. 23).

Further, in the present embodiment, a flange portion 294b protruding outward in the radial direction is formed at the axial tip portion of the locking portion 294 formed on the motor cover 29. The flange portion 294b is formed on the entire arc-shaped locking portion 294.

Then, when the blower portion 2 is rotated, the flange portion 294b is also moved within the slit 334 of the support leg 33. Further, a protrusion 334a is provided in the slit 334 of the support leg 33, and the protrusion 334a and the flange portion 294b face each other in the axial direction at least in a state where the blower portion 2 is rotated within a rotatable range. I try to do it.

By doing so, at least in a state where the blower portion 2 is rotated within a rotatable range, when the support leg 33 moves in the direction of coming out of the motor cover 29, the protrusion 334a comes into contact with the flange portion 294b. The support legs 33 are prevented from coming off from the motor cover 29 (see FIG. 23).

As described above, in the present embodiment, the pivoting mechanism 50 is composed of an arcuate protrusion 332a, a locking piece 293a, a protrusion 334a, and a flange portion 294b.

[Left and right swing structure]
Further, in the present embodiment, as described above, the blower 1 is provided with the left-right swing mechanism 60, and the configuration of the blower 1 can be swung in the left-right direction. In the following, the left-right swing structure will be described with reference to FIGS. 25 and 26. 25 is a cross-sectional view showing the left-right swing mechanism included in the blower, and FIG. 26 is an exploded perspective view of the blower as viewed from the back surface side.

As shown in FIG. 25, the support portion 3 has a hollow inside, and the left-right swing mechanism 60 is housed inside the hollow. The left-right swing mechanism 60 includes a resin fixing plate 61 fixed to the upper portion 32 of the pedestal, a central shaft 62 integrated with the fixing plate 61 by insert molding, and a neck fixed to the upper surface of the fixing plate 61. It is equipped with a swinging motor 63. Further, the left-right swing mechanism 60 includes a resin bearing member (bush) 64 into which the lower end of the central shaft 62 is inserted, and a locking claw 64a is integrated with the inner peripheral portion of the lower end of the bearing member 64. It is molded. A notch groove 62a is formed in the outer peripheral portion of the lower end of the central shaft 62, and the locking claw 64a is press-fitted into the notch groove 62a.

Further, as described above, the support portion 3 has a hollow inside, and the left-right swing mechanism 60 is housed inside the hollow (see FIG. 26). The left and right swing mechanism 60 includes a fixing plate 61, a swing motor 63 fixed to the upper surface of the fixing plate 61 (see FIG. 25), and an eccentric cam 65 fixed to the output shaft 63a of the swing motor 63. A fixed shaft 66 fixed to the lower portion 31 of the pedestal, and an arch-shaped connecting link 67 having one end pivotally attached to the eccentric cam 65 and the other end pivotally attached to the fixed shaft 66 are provided.

Further, the fixing plate 61 is fixed to the upper portion 32 of the pedestal, and the central shaft 62 is rotatably inserted into the bearing member 64. The swinging motor 63 (including the eccentric cam 65 fixed to the output shaft 63a) and the fixed shaft 66 are provided at positions separated from the central shaft 62, respectively.

Further, a cylindrical bearing member 64 having a locking claw 64a formed on the inner peripheral portion of the lower end is inserted into the shaft insertion hole 69 opened in the lower portion 31 of the pedestal. A central shaft 62 is inserted into the bearing member 64. A notch groove 62a is formed on the outer peripheral portion of the lower end of the central shaft 62, and a locking claw 64a serving as a locking piece is press-fitted into the notch groove 62a. The opening 31b on the lower surface of the lower portion 31 of the pedestal is covered with the bottom cap 68.

Further, the fixing plate 61 and the upper end portion of the central shaft 62 are insert-molded, the upper portion 32 of the pedestal and the lower portion 31 of the pedestal are connected by the central shaft 62, and the bearing member 64 of the central shaft 62 is fixed to the lower portion 31 of the pedestal. There is. At this time, since the central shaft 62 is inserted into the shaft insertion hole 69 via the bearing member 64, the clearance between the central shaft 62 and the shaft insertion hole 69 is eliminated, and the shaft insertion hole 69 is worn due to the rotation of the central shaft 62. It is possible to prevent the generation of abnormal noise caused by the above, and the rotation of the upper portion 32 (blower part 2) of the pedestal about the central shaft 62 becomes smooth.

Then, when the user presses the swing button on the operation panel 323 to turn on the left / right swing, the eccentric cam 65 fixed to the output shaft 63a of the swing motor 63 rotates eccentrically and is pivoted to the eccentric cam 65. One end of the attached connecting link 67 makes a circular motion. At this time, since the other end of the connecting link 67 is pivotally attached to the fixed shaft 66 fixed to the lower portion 31 of the pedestal, the upper portion 32 of the pedestal and the blower portion 2 mounted on the upper portion 32 are pivotally attached to the central shaft 62 by this circular motion. It will turn (swing) in the left-right direction according to the radial distance of the circular motion around.

As described above, in the blower 1 according to the present embodiment, the lower portion 31 of the pedestal and the upper portion 32 of the pedestal provided so as to swing on the lower portion 31 of the pedestal are connected through the central shaft 62 and blown onto the upper portion 32 of the pedestal. In the blower 1 provided with the portion 2, the bearing member 64 is inserted into the lower portion 31 of the pedestal, the central shaft 62 is rotatably inserted into the bearing member 64, and the fixing plate 61 provided on the upper portion 32 of the pedestal is formed. The upper end of the central shaft 62 is insert-molded. By doing so, it is possible to reduce the number of parts and the cost while ensuring the strength of the connecting portion.

Further, the fixing plate 61 provided on the upper portion 32 of the pedestal is made of resin. By doing so, when the wiring rubs against the edge (corner) of the fixing plate 61, it is possible to prevent the wiring from being damaged.

Further, a locking claw 64a is integrally molded with resin on the inner peripheral portion of the lower end of the bearing member 64 of the central shaft 62. In this way, since the locking claw 64a functions as a substitute for the E-ring, it is not necessary to use the E-ring, the number of parts can be reduced, and the cost can be reduced.

The pedestal upper portion 32 (blower portion 2) is swiveled (swinged) in the left-right direction by the ball (roller) B attached to the pedestal upper portion 32 sliding on the rail (running path) R. (See FIG. 9).

[Electrical cable wiring structure]
Further, in the present embodiment, the wiring of the electric cable 91 is pulled out from the shaft portion 293 of the vertical swing. In the following, the wiring structure of the electric cable will be described with reference to FIGS. 27 and 28. 27 is a perspective view showing the wiring state of the electric cable included in the blower, and FIG. 28 is a perspective view showing the wiring state of the electric cable included in the blower as viewed from the back surface side.

In the present embodiment, as shown in FIGS. 27 and 28, the motor cover 29 is sandwiched from both sides by a pair of support legs 33 rising from the support portion 3, and the sandwiched position is the rotation axis of vertical swing. As C, the blower portion 2 swings up and down with respect to the support portion 3.

Further, the cylindrical shaft portion 293 formed on the motor cover 29 is used as the rotation axis C for swinging up and down.

Therefore, in the present embodiment, the electric cable 91 connected to the motor 28 for driving the fan 27 housed in the motor cover 29 is pulled out from the vertical swing shaft (shaft portion 293).

Then, the electric cable 91 pulled out from the vertical swing shaft (shaft portion 293) is pulled out through the insertion hole 34a of the fall suppression cover 34 and housed in the recess 335 formed in the support leg 33. I am trying to do it.

Further, in the present embodiment, with the support legs 33 held in the main body portion of the support portion 3, the recess 335 is communicated with the cavity in the main body portion of the support portion 3, and the electric cable 91 is in the recess 335. It is designed so that it can be pulled out from this communication part into the cavity inside the main body part.

Further, in the present embodiment, as shown in FIG. 27, a hook-shaped rib 61a projecting upward is formed on the upper portion of the fixing plate 61, and electricity is drawn from the communicating portion into the cavity in the main body portion. The cable 91 is hooked on the hook-shaped rib 61a.

The electric cable 91 is pulled out to the lower part of the fixing plate 61 in a state of being hooked on the hook-shaped rib 61a, and the tip of the electric cable 91 pulled out to the lower part of the fixing plate 61 is attached to the circuit board 35. It is electrically connected to the mounted connector 92.

At this time, as shown in FIG. 28, a rib 61b protruding downward is formed in the lower portion of the fixing plate 61, and the bent portion of the electric cable 91 is caused by the rib 61b to cause the left-right swing mechanism 60. It is possible to prevent the wire from coming into contact with the link mechanism of.

If the wiring of the electric cable 91 has the above-described configuration, no twisting force is applied to the electric cable 91 when swinging up and down, so that the disconnection of the electric cable 91 can be prevented more reliably.

[Example of usage pattern]
Next, an example of using the blower 1 described above will be described. Note that FIG. 29 is a perspective view showing an example of the usage state of the blower 1.

As shown in FIG. 29, the blower 1 according to the present embodiment can be used by being placed on a shelf 101 formed in, for example, a household toilet 100. In this way, when the blower 1 is placed on the shelf 101, it is preferable to use it in a state where the blower portion 2 is rotated so that the blower direction F faces downward from the horizontal. In this way, the direction of the wind from the blower 1 can be directed to the toilet bowl 102 side located below the shelf 101.

It is also possible to arrange the blower 1 according to the present embodiment on the shelf of the dressing room, for example, so that the air is blown below the horizontal surface.

[Modification example]
Further, the blower is not limited to the configuration of the blower 1 described above, and may be, for example, the blower 1A shown in FIG. 30. Note that FIG. 30 is a perspective view showing a first modification of the blower.

In this blower 1A, as shown in FIG. 30, a switch 322A that is manually operated is formed. Specifically, in the blower 1A shown in FIG. 30, by manually turning the switch 322A, the power is turned off / on and the air volume of the blower unit 2 is adjusted.

Then, such a blower 1A has a configuration in which the blower portion 2 can be rotated so that the blower direction F of the blower portion 2 faces downward from the horizontal direction, similarly to the blower 1 shown in the above embodiment. can do.

Further, the blower may be, for example, the blower 1B shown in FIG. 31. Note that FIG. 31 is a perspective view showing a second modification of the blower.

As shown in FIG. 31, the blower 1B is a circulator having a flat grill structure. That is, a blower portion 2 having a substantially drum-shaped outer shape is provided, and a flat grill 23 is provided at a circular blower port 2a opened in the front. Such a flat grill 23 is also the same in that it has a plurality of spiral fins 24.

Then, such a blower 1B has a configuration in which the blower portion 2 can be rotated so that the blower direction F of the blower portion 2 faces downward from the horizontal direction, similarly to the blower 1 shown in the above embodiment. can do.

[Other embodiments]
As mentioned above, some embodiments have been described, but the statements and drawings that form part of the disclosure are exemplary and should not be understood to be limiting. This disclosure will reveal to those skilled in the art various alternative embodiments, examples and operational techniques.

As described above, the present embodiment includes various embodiments not described here.

C Rotation axis D1 Gap D2 Gap of predetermined dimensions F Blower direction 1 Blower 2 Blower 2a Blower 20 Cover (housing)
20a Arc-shaped surface 21 Front cover 22 Rear cover 210 Slit 210a Lower end 211c Inner surface 212 Rib 293 Shaft 293a Locking piece (coupling mechanism 50)
294a Locking recess (rotation adjustment mechanism 40)
294b Flange portion (coupling mechanism 50)
3 Support part 322a Concave curved surface 33 Support leg 331 Recessed part 332a Arc-shaped protrusion (coupling mechanism 50)
334a protrusion (coupling mechanism 50)

Claims (5)

A blower having a housing with slits extending in the vertical direction,
A support portion having a support leg that is inserted into the slit and pivotally attaches the blower portion so as to be rotatable in the vertical direction.
With
The support legs include a base portion that is erected near the rear end of the support portion and is inserted into the slit, and a pivoting portion that is provided in front of the base portion and has an insertion hole through which the shaft portion of the blower portion is inserted. With,
In a horizontal posture in which the blowing direction of the blowing portion is horizontal, the lower end of the slit is provided at a position facing the front and rear center portions of the supporting portion, and the lower end of the slit and the base portion of the supporting leg are provided. A blower having a structure in which a gap is formed between the two, and the blower portion can be rotated so that the blower direction of the blower portion faces downward from the horizontal direction. A blower having a housing with slits extending in the vertical direction,
A support portion having a support leg that is inserted into the slit and pivotally attaches the blower portion so as to be rotatable in the vertical direction.
With
The support leg includes a base portion that is erected on the support portion and inserted into the slit, and a pivot portion that is provided in front of the base portion and has an insertion hole through which the shaft portion of the blower portion is inserted.
The pivot portion is provided so as to support the shaft portion of the blower portion from the rear.
In a horizontal posture in which the blowing direction of the blowing portion is horizontal, the lower end of the slit is located below the shaft portion of the blowing portion, and is between the lower end of the slit and the base portion of the supporting leg. A blower having a structure in which a gap is formed and the blower portion can be rotated so that the blower direction of the blower portion faces downward from the horizontal direction. A blower having a housing with slits extending in the vertical direction,
A support portion having a support leg that is inserted into the slit and pivotally attaches the blower portion so as to be rotatable in the vertical direction.
With
The blower portion includes a locking portion that protrudes in the axial direction of rotation.
It is composed of a plurality of locking recesses formed in the locking portion, a pressing pin accommodated in the support leg, and a repulsive portion for urging the pressing pin to press the locking recess. Equipped with an angle adjustment mechanism
The support leg has a slit formed so that the locking portion can be moved, and the pressing pin is configured to be pressed by one of the plurality of locking recesses in the slit. Blower. A blower having a housing with slits extending in the vertical direction,
A support portion having a support leg that is inserted into the slit and pivotally attaches the blower portion so as to be rotatable in the vertical direction.
With
A pivoting mechanism for suppressing the release of the pivotal state of the blower and the support leg is provided.
The pivoting mechanism is provided on a locking portion that protrudes from the blowing portion in the axial direction of rotation, a flange portion formed at the tip of the locking portion, and a flange portion that moves on the support leg. It has a slit that can be charged and a protrusion provided in the slit.
A blower configured to prevent the support legs from coming off from the shaft portion of the blower portion by rotating the support legs so that the protrusions and the flange portions face each other in the axial direction. A blower having a housing with slits extending in the vertical direction,
A support portion having a support leg that is inserted into the slit and pivotally attaches the blower portion so as to be rotatable in the vertical direction.
With
The blower portion has a grill, and the grill is provided with a plurality of fins in a spiral shape, and the inner end portion near the center of the spiral of the plurality of fins is in the air blowing direction from the outer end portion continuous with the air outlet. Protruding to
In a horizontal posture in which the blowing direction of the blowing portion is horizontal, a gap is formed between the lower end of the slit and the supporting leg so that the blowing direction of the blowing portion faces downward from the horizontal direction. A blower having a structure capable of rotating the blower portion.

Images