JP2021131059A - Electric fan - Google Patents

Abstract

To provide an electric fan that has a dehumidification function and an air blowing function and is convenient in carrying and storing.SOLUTION: An electric fan 1 comprises: an air blowing part 30 including an intake part 32c; an air blowing part support body 6 including a base part 2 which is installed at an installation surface and supporting the air blowing part 30; and a dehumidifier 100 of which an air outlet 101 is detachably installed to the intake part 32c.SELECTED DRAWING: Figure 1

Description

The present invention relates to an electric fan.

Conventionally, an apparatus for blowing dehumidified air in a desired direction has been disclosed. For example, the dehumidifier disclosed in Patent Document 1 includes a dehumidifying unit that stands upright from the installation surface in a rectangular parallelepiped shape, and a blower unit is arranged above the dehumidifying unit. The blower unit is provided with a blower portion provided with a blower fan in a holding portion formed in a U-shape when viewed from above. The blower portion is rotatable in the vertical direction with respect to the holding portion, and the holding portion is rotatable in the horizontal direction with respect to the dehumidifying unit in a desired direction (for example,). Dehumidified air can be blown (in the direction in which the laundry is being dried).

Japanese Patent No. 64199007

The blower unit that blows dehumidified air in a desired direction includes a fan of a predetermined size. Therefore, if the blower unit is arranged above the dehumidification unit, it is often large. When the device becomes large, restrictions may occur when it is carried or stored.

The present invention provides a fan having a dehumidifying function and a blowing function, which is convenient for carrying and storing.

The fan of the present invention includes a blower portion having an intake portion and a base portion installed on the installation surface, and the blower portion support supporting the blower portion and the exhaust port can be attached to and detached from the intake portion. It is characterized by being provided with a dehumidifier provided.

According to the present invention, it is possible to provide a fan which has a dehumidifying function and a blowing function and is convenient for carrying and storing.

It is a figure which represented the electric fan which concerns on embodiment of this invention schematically, (a) is a front view, (b) is a right side view. It is a figure which represented the electric fan which concerns on embodiment of this invention schematically, (a) is a rear view, and (b) is a plan view. It is a figure which showed the coupling surface of the blower part and the dehumidifier provided in the electric fan which concerns on embodiment of this invention, and is the schematic diagram which shows the back side of the blower part, and the front side of a dehumidifier. It is a control block diagram of the electric fan which concerns on embodiment of this invention. It is a figure which shows the state which uses the electric fan which concerns on embodiment of this invention.

An embodiment of the present invention will be described with reference to the drawings. The fan 1 shown in FIGS. 1 and 2 includes a blower support 6 having a base portion 2, a blower 30 and a dehumidifier 100. Hereinafter, in the description of the fan 1, the blower portion 30 side is the front, the opposite side (dehumidifier 100 side) is the back, the left side when viewed from the front to the rear is the left, and the opposite side is the right. Further, the base portion 2 side is on the bottom, and the opposite side (blower portion 30 side) is on the top.

The base portion 2 is formed in a substantially disk shape, and the lower surface is installed on the installation surface. The upper surface of the base portion 2 is formed in a substantially convex conical shape that is gently inclined toward the center of the base portion 2. An operation panel 2a having functions such as activation, air volume switching, and a timer is provided on the upper surface. Here, the operation panel 2a may be a remote-controlled operation function unit using a remote controller. From the base portion 2, a power cord (not shown) that is connected to a household outlet and is energized to the power supply 2b of the base portion 2 is provided. The power supply 2b may be one that energizes the battery provided in the fan 1, and the power cord may be one that is connected to the USB port to energize the power supply 2b. Further, a control circuit board 2c is provided inside the base portion 2.

From the central portion of the base portion 2, the support column 3 is erected upward. The upper end of the support column 3 is connected to a support frame body 4 that supports a blower portion 30 described later via a left-right swing mechanism 21 including a motor 21a (see FIG. 4). As shown in FIG. 1A, the support frame body 4 is formed in a substantially arch shape, and the blower portion 30 is arranged inside the arch shape, and the central outer portion (lower end 4c) of the support frame body 4 is arranged. Is connected to the left and right swing mechanism 21. The support frame 4 is rotatably supported around the axis of the support column 3 by the left-right swing mechanism 21 driven by the motor 21a. In this way, the blower portion support 6 that supports the blower portion 30 is formed by the base portion 2, the support column 3, the support frame body 4, and the left and right swing mechanism 21.

Further, of the left and right upper ends 4a and the upper ends 4b of the support frame body 4, one upper end 4a is formed with a vertical swing mechanism 22 provided with a motor 22a (see FIG. 4). The other upper end 4b includes a rotating shaft portion 23 that is rotatably connected to the blower portion 30.

The blower portion 30 is rotatably supported by the vertical swing mechanism 22 and the rotating shaft portion 23 at substantially the center positions on both side surfaces (see FIG. 1). Therefore, the blower portion 30 can rotate about the line passing through the vertical swing mechanism 22 and the rotation shaft portion 23 orthogonal to the axis of the support column 3.

As shown in FIG. 1A, the blower portion 30 is formed in a circular shape in front view. As shown in FIG. 1B, the blower portion 30 has a grill portion 31, a side surface portion 32, and an intake portion 33. The grill portion 31 is formed in a substantially bowl shape with a shallow bottom. As shown in FIG. 1A, the grill portion 31 has a disk shape near the center, and a rectifying plate is formed on the outer periphery thereof in a radial ring shape.

The side surface portion 32 is formed in a substantially cylindrical shape. A grill portion 31 is attached to the front side (front side) opening of the side surface portion 32. The side surface portion 32 has a cylindrical portion 32a to which the grill portion 31 is attached and a reduced diameter portion 32b on the rear side of the cylindrical portion 32a. The cylindrical portion 32a and the reduced diameter portion 32b are directly connected. The diameter-reduced portion 32b is reduced in diameter toward the rear so that the inner and outer surfaces are curved. Then, the rear end of the reduced diameter portion 32b is opened to form the intake portion 33.

As shown in FIG. 3, the intake portion 33 is formed by arranging a plurality of wire rods in the vertical direction in the circular rear side (rear side) opening of the reduced diameter portion 32b of the side surface portion 32. The intake unit 33 is connected to the diameter reduction unit 32b and the exhaust port 101 of the dehumidifier 100 described later. Since the intake unit 33 is directly connected to the exhaust port 101, all the air discharged from the exhaust port 101 can be guided to the inside of the side surface portion 32.

Further, the exhaust port 101 of the dehumidifier 100 is detachably connected to the intake unit 33. The attachment / detachment of the intake portion 33 and the exhaust port 101 of the dehumidifier 100 is not shown, but for example, an engaging protrusion is provided on one side and an engaging groove portion is provided on the other side, and the engaging protrusion and the engaging groove portion are engaged with each other. The dehumidifier 100 may be removed by connecting the dehumidifier 100 at The exhaust port 101 of the machine 100 may be attached to and detached from the intake unit 33.

As shown in FIG. 1 (b), the blower portion 30 has two fans 5a and fans 5b arranged on the same axis, and rotates by reversing each other. In other words, the fan 1 includes a counter-rotating fan configuration. The blower portion 30 includes a motor 41 and a motor 42 (see FIG. 4) that rotationally drive the fan 5a and the fan 5b, respectively. Since the fan 1 includes a fan 5a and a fan 5b which are counter-rotating fans, the blown wind has a longer reach than a normal fan having one fan. Further, the fan 1 can change the blown wind from a straight wind having high directivity and can reach a long distance to a diffused wind having a wide blowing range by controlling the rotation speed ratio of the fan 5a and the fan 5b. As a result, by controlling the rotation speeds of the fans 5a and 5b according to the size of the laundry 90 and the distance from the fan 1, which will be described later, the swing range by the left / right swing mechanism 21 and the vertical swing mechanism 22 Can be suppressed.

FIG. 4 is a control block diagram of the electric fan 1. The electric fan 1 includes a control unit 10, a storage unit 11, a fan direction changing unit 20, a fan motor driving unit 40, a determination unit 50, a communication unit 60, and a humidity measuring unit 80. Each functional unit can be provided, for example, on the control circuit board 2c described above. The control unit 10 is formed by a computer (CPU) and controls the operation of each functional unit and the transfer of data between the functional units. The storage unit 11 is connected to the control unit 10. The storage unit 11 is composed of, for example, an SSD (Solid State Drive) or an SRAM (Static Random Access Memory), and in addition to a control program that operates the control unit 10, a threshold value or the like used for a determination performed by the determination unit 50 described later is used. Various setting values etc. are stored.

Further, the control unit 10 is connected to the fan direction changing unit 20 and the fan motor driving unit 40, and controls each of them. The fan direction changing unit 20 is connected to and controlled by the motor 21a of the left / right swing mechanism 21 and the motor 22a of the vertical swing mechanism 22. By controlling the left / right swing mechanism 21 and the vertical swing mechanism 22, the fan direction changing unit 20 changes the direction of the fan 5a and the fan 5b, that is, the direction of the wind ejected from the fan 5a and the fan 5b in the vertical direction. It is formed so as to be continuously changeable in each of the left and right directions. The left-right swing mechanism 21 and the up-and-down swing mechanism 22 are formed so that the directions of the fans 5a and the fan 5b can be changed continuously within a predetermined angle range. In the present embodiment, the predetermined angle range can be set within a range in which the left and right swing mechanism 21 is 360 degrees and the vertical swing mechanism 22 is such that the dehumidifier 100 does not interfere with the blower support 6.

Further, the fan motor drive unit 40 can adjust the rotation speed of each fan 5a and fan 5b by controlling the motor 41 and the motor 42, and can control the air volume from the fan 5a and the fan 5b.

The determination unit 50 is connected to the communication unit 60. The determination unit 50 communicates with the hygrometer 70 (see FIG. 5) installed near the laundry 90 (target point) by the communication unit 60 to obtain the humidity measured by the hygrometer 70 (target point humidity). Can be done. The determination unit 50 determines that the laundry 90 is not dry if the humidity at the target point is higher than the set threshold value (set value), and determines that the laundry 90 is dry if the humidity is lower than the set value. In other words, the determination unit 50 can determine whether or not the laundry 90 is dry from the humidity measured by the hygrometer 70.

Further, the determination unit 50 is connected to the humidity measurement unit 80. The humidity measuring unit 80 is provided in the electric fan 1 and measures the humidity (ambient humidity) around the electric fan 1. The determination unit 50 compares the ambient humidity and the target point humidity, and if the difference between the ambient humidity and the target point humidity (humidity difference) is equal to or more than a certain value, it determines that the laundry 90 is not dry, and the humidity difference is a constant value. If the following, it can be determined that the laundry 90 is dry.

The fan 1 includes a dehumidifier 100 (see FIGS. 1 and 2). The dehumidifier 100 is formed in a rectangular parallelepiped shape. Therefore, the dehumidifier 100 has six surfaces: an upper surface 100a, a left side surface 100b, a front surface 100c, a right side surface 100d, a back surface 100e, and a lower surface 100f. As will be described later, the lower surface 100f is a surface that comes into contact with the installation surface when the dehumidifier 100 is removed from the blower portion 30 and used alone.

The dehumidifier 100 has an exhaust port 101 (see FIGS. 1B and 3) and an intake port 102 (see FIG. 2B). The dehumidifier 100 sucks in moist air from the intake port 102, removes moisture from the moist air inside the dehumidifier 100, converts it into dry air, and discharges it from the exhaust port 101. As the dehumidifying method of the dehumidifier 100, any one of a compressor type, a desiccant type and a hybrid type (compressor type and desiccant type) can be adopted.

As shown in FIG. 3, the exhaust port 101 is formed on the front 100c of the dehumidifier 100. The exhaust port 101 is formed by arranging a plurality of wire rods in a circular opening in the front view. Here, the two-dot chain line in FIG. 3 indicates the joint portion between the intake portion 33 and the exhaust port 101, and the shape of the intake portion 33 and the exhaust port 101 is a circle having the same diameter. Therefore, the exhaust port 101 is formed to have the same shape as the intake portion 33.

As shown in FIG. 2B, the intake port 102 is formed on the upper surface 100a of the dehumidifier 100. The intake port 102 is formed by arranging wire rods or branches in a grid pattern. The intake port 102 is formed in a rectangular shape extending in the elongated direction of the upper surface 100a of the dehumidifier 100.

The dehumidifier 100 has a water storage unit 103 (see FIGS. 1 and 2). The water storage unit 103 is housed inside and at the bottom of the dehumidifier 100. The water storage unit 103 stores the water removed from the moist air sucked from the intake port 102. The water storage unit 103 can be taken out from the dehumidifier 100 by pulling the take-out handle 103a provided on the back surface 100e.

As shown in FIG. 2B, the dehumidifier 100 has an operation unit 105 on the upper surface 100a. The operation unit 105 can perform operations such as starting the dehumidifier 100, switching the air volume, and setting the timer. Here, the amount of air discharged from the exhaust port 101 of the dehumidifier 100 is set to match the amount of air sucked from the intake unit 33 of the fan 1.

Further, the dehumidifier 100 has a power supply (not shown). The power supply of the dehumidifier 100 may be one having an electric cord that can be energized by connecting to a household outlet, one that energizes the battery built in the dehumidifier 100, or an electric fan by energizing the electric fan 1. It may receive power from one side.

An example of the operation when the electric fan 1 formed in this way is used will be described. First, the user of the fan 1 hangs the laundry 90 that has just been washed (undried). Next, the user activates the blower unit 30 of the fan 1 by the operation panel 2a to start blowing air. Then, the user operates the left / right swing mechanism 21 and the up / down swing mechanism 22 by operating and setting the operation panel 2a of the fan 1, and swings the blower portion 30 up / down and / or left / right to the fan 1. However, it is possible to blow air toward the laundry 90.

Further, the user activates the dehumidifier 100 by the operation unit 105, and causes the dehumidifier 100 to start dehumidification. When the dehumidifier 100 is activated, the dehumidifier 100 sucks in the surrounding air from the intake port 102, and the air dehumidified from the exhaust port 101 (air having a lower humidity than the surrounding air) is taken from the blower portion 30 side (intake portion 33 side) of the fan 1. Discharge to. Only the air from the dehumidifier 100 that flows into the intake unit 33 on the back side does not flow into the side surface portion 32. Since the fan 1 can swing the blower portion 30 up, down, left and right, the air dehumidified by the dehumidifier 100 is blown over a wide range of the laundry 90.

Next, as shown in FIG. 5, the user installs the hygrometer 70 in the vicinity of the laundry 90. The fan 1 communicates with the hygrometer 70 while blowing dehumidified air on the laundry 90 to obtain humidity in the vicinity of the laundry 90. At the same time, the fan 1 obtains the humidity around the fan 1 by the humidity measuring unit 80. Then, the electric fan 1 compares the humidity in the vicinity of the laundry 90 with the humidity in the vicinity of the electric fan 1 by the determination unit 50, and determines whether or not the laundry 90 is dry. When the determination unit 50 determines that the laundry 90 is dry, the electric fan 1 can display on the operation panel 2a that the laundry 90 is dry. The user who saw the indication that the laundry 90 on the operation panel 2a was dry stopped the dehumidifier 100 by the operation unit 105 of the dehumidifier 100, and stopped the dehumidifier 100 by the operation panel 2a of the fan 1 from the blower unit 30. In addition to blowing air, the operation of the left-right swing mechanism 21 and the up-down swing mechanism 22 is stopped.

Further, the user can also remove the dehumidifier 100 and use the electric fan 1 by separating the intake unit 33 and the exhaust port 101 after drying the laundry 90. By removing the dehumidifier 100, only the blowing function of the fan 1 can be used, and the device can be miniaturized. Further, by using the removed dehumidifier 100 alone, it is possible to use only the dehumidifying function. Therefore, the user can use the electric fan 1 of the present invention for various purposes.

Further, by removing the dehumidifier 100 from the fan 1, the user can carry the fan 1 and the dehumidifier 100, which are lighter in weight than the state in which the dehumidifier 100 is attached to the fan 1, to each of them. The fan 1 and the dehumidifier 100, each of which has a smaller volume, can be stored in different places. In other words, by removing the dehumidifier 100 from the fan 1, the user can carry it with a smaller force, and it becomes easier to secure a storage space.

Although the embodiment of the present invention has been described above, the present invention is not limited to the present embodiment and can be implemented with various modifications. For example, the fan 1 may have a side surface portion 32 having a sliding window structure. As a result, in the state where the dehumidifier 100 is fixed to the fan 1, by closing the slide window of the blower portion 32, it is possible to prevent the undehumidified air from being sucked from the side surface portion 32, while dehumidifying. When the machine 100 is removed from the fan 1, by opening the slide window of the side surface portion 32, air can be sucked from the side surface portion 32 as well, and the amount of air exhausted from the blower portion 30 can be increased.

Further, the fan 1 is not limited to having a counter-rotating fan structure for the blower portion 30, and may have a structure that does not use the fan 5a and the fan 5b. Further, the intake portion 33 of the blower portion 30 and the exhaust port 101 of the dehumidifier 100 are not limited to a circular shape, but may have an elliptical shape, a polygonal shape, or the like. The shapes of the intake unit 33 and the exhaust port 101 are not limited to being formed in the same shape, and the air discharged from the exhaust port 101 may be taken into the blower unit 30 from the intake unit 33. Further, the fan 1 may be a device having a blowing function such as a blower and a circulator.

1 Fan 2 Base 2a Operation panel 2b Power supply 2c Control circuit board 3 Support 4 Support frame 4a Upper end 4b Upper end 4c Lower end 5a Fan 5b Fan 6 Blower Support 10 Control 11 Storage 20 Fan direction change 21 Left and right swing Mechanism 21a Motor 22 Vertical swing mechanism 22a Motor 23 Rotating shaft part 30 Blower part 31 Grill part 32 Side part 32a Cylindrical part 32b Reduced diameter part 33 Intake part 40 Fan motor drive part 41 Motor 42 Motor 50 Judgment part 60 Communication part 70 Humidity Total 80 Humidity measurement unit 90 Laundry 100 Dehumidifier 100a Top surface 100b Left side 100c Front 100d Right side 100e Back side 100f Bottom surface 101 Exhaust port 102 Intake port 103 Water storage unit 103a Take-out handle 105 Operation unit

Claims (8)

A blower with an intake part and
A blower support body that has a base part to be installed on the installation surface and supports the blower part,
A dehumidifier whose exhaust port is detachably provided to the intake unit,
A fan characterized by being equipped with. The electric fan according to claim 1, wherein the exhaust port and the intake unit are directly connected to each other. The electric fan according to claim 2, wherein the exhaust port and the intake portion have the same shape. The fan according to any one of claims 1 to 3, wherein the blower portion is arranged on the same axis and has two fans that rotate in reverse with each other. The blower portion has a side surface portion and has a side surface portion.
The electric fan according to any one of claims 1 to 4, wherein the side surface portion has a sliding window structure. A communication unit that is installed at the target point and communicates with a hygrometer that measures the humidity of the target point, which is the humidity of the target point.
The electric fan according to any one of claims 1 to 5, further comprising a determination unit for determining whether or not the fan is dry based on the humidity at the target point. Equipped with a humidity measurement unit that measures the ambient humidity, which is the ambient humidity.
The electric fan according to claim 6, wherein the determination unit determines whether or not the product is dry by comparing the humidity at the target point with the humidity at the surrounding area. A control unit that controls the operation of the dehumidifier and the blower unit is provided.
The electric fan according to claim 6 or 7, wherein the control unit controls the operation of the dehumidifier and the blower unit by the determination of the determination unit.

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