TW201537117A - Dehumidifying device - Google Patents

Abstract

A dehumidifying device includes a dehumidifying part provided in a body housing which has an approximately rectangular air outlet; a blower part; and an air direction changing unit for changing a blowing direction of air blown from the blower part. The air direction changing unit includes a plurality of air direction changing plates provided at the air outlet for changing the blowing direction of the blower part; and a rotating shaft which rotatably fixes and supports the air direction changing plates. The rotating shaft extends toward the longitudinal direction of the air outlet. The air direction changing plates are obliquely installed in a manner of expanding the blowing direction toward the longitudinal direction of the air outlet, in relative to the air outlet direction of the air outlet. Each air direction changing plate, located near a center of the longitudinal direction of the air outlet, is provided with a cutoff section at the upstream side of the blowing direction.

Description

Dehumidifier Field of invention

The present invention relates to a dehumidifying device that blows air in a room and blows the dehumidified air.

Background of the invention

The conventional dehumidifying apparatus is provided with a wind direction changing unit at the air outlet. The wind direction changing unit rotates a plurality of wind direction changing plates attached to the shaft that is rotatably provided, whereby the air blowing range of the dry air can be changed in accordance with various drying conditions of the clothes. Thereby, the unevenness of drying or the drying time of the clothes can be reduced (see, for example, Patent Document 1).

The problem of the conventional dehumidifier is to make the air supply range more expandable and to make the wind speed distribution uniform within the air supply range.

That is, there has been an increasing demand for so-called room clothes which are recently washed indoors and dried with a dehumidifying device or the like. A method of using a desiccant device that widely washes laundry and blows air toward the laundry has become mainstream. Therefore, it is desired to provide a dehumidifying apparatus that expands the air supply range more than the conventional dehumidifying apparatus.

[Previous Technical Literature] [Patent Literature]

Patent Document 1 Japanese Patent No. 4752489

Summary of invention

In the conventional dehumidifier, there is a method of increasing the inclination of the wind direction changing plate in order to further expand the air blowing range. However, on the other hand, the wind is blown only in a wide direction, and the wind speed in the center portion is small, which may cause uneven distribution of wind speed. Further, since it is necessary to increase the wind direction changing plate, there is a problem that the air blowing resistance is increased and the product size is enlarged.

In the dehumidifying apparatus of the present invention, the wind speed distribution can be made uniform in the air blowing range while widening the air blowing range.

The dehumidifying apparatus of the present invention includes a main body casing having a substantially rectangular air outlet, a dehumidifying portion provided in the main body casing, and a blowing portion that supplies air to the dehumidified air. . Further, a wind direction changing unit that changes the air blowing direction of the air blown by the air blowing unit is provided. The wind direction changing unit includes a plurality of wind direction changing plates that are provided in the air outlet to change the air blowing direction of the air blowing unit, and a rotating shaft that rotatably fixes the wind direction changing plate. The rotating shaft extends toward the longitudinal direction of the air outlet. The wind direction changing plate is attached obliquely so as to extend the blowing direction toward the longitudinal direction of the air outlet with respect to the blowing direction from the air outlet. The movable range in which the wind direction changing plate rotates is substantially circular when viewed from the direction of the rotating shaft. Wind direction changing plate near the center in the longitudinal direction of the air outlet, in the air supply A slit portion is provided on the upstream side of the direction.

In other words, when the installation angle of the wind direction changing plate is further increased in order to widen the air supply range, only the side end portion of the air outlet in the longitudinal direction is blown, and the wind speed at the center portion is reduced. However, in the present invention, the wind direction changing plate located in the vicinity of the center in the longitudinal direction of the air outlet is provided with a notch portion on the upstream side of the air blowing. Thereby, the passage of the wind in the center portion can be improved, the wind speed at the center portion can be suppressed from being reduced, and the wind speed can be secured.

Therefore, the wind speed distribution can be made uniform in the air blowing range while widening the air blowing range.

1‧‧‧ body shell

2‧‧‧Blowing out

3‧‧‧Inhalation

4‧‧‧Operation Department

5‧‧‧

6‧‧‧Wind change unit

7‧‧‧Air Supply Department

8‧‧‧ Shell

9‧‧‧ Impeller

10‧‧‧ motor

11‧‧‧Inlet

12‧‧‧ spitting

13‧‧ ‧Tongue

14‧‧‧Rotating Department

15‧‧‧Rotary axis

16‧‧‧Wind change board

17‧‧‧Link ribs

18‧‧‧Control Department

19‧‧‧Dehumidification Department

20‧‧‧cutting section

Fig. 1 is a perspective view showing the appearance of a dehumidifying apparatus in an embodiment of the present invention.

Fig. 2 is a perspective view showing the appearance of a dehumidifying apparatus in an embodiment of the present invention.

Fig. 3 is a perspective view showing a wind direction changing unit of the dehumidifying apparatus in the embodiment of the present invention.

Fig. 4 is an exploded perspective view showing a blower unit and a wind direction changing unit of the dehumidifier according to the embodiment of the present invention.

Fig. 5 is a control block diagram of the dehumidifying apparatus in the embodiment of the present invention.

Fig. 6 is a perspective view showing a wide air supply of the dehumidifying apparatus in the embodiment of the present invention.

Fig. 7 is a perspective view showing a spot blow of the dehumidifying apparatus in the embodiment of the present invention.

Form for implementing the invention

Hereinafter, embodiments of the present invention will be described with reference to the drawings.

Fig. 1 is a perspective view showing the appearance of an embodiment of the present invention. Fig. 2 is a perspective view showing the appearance of the dehumidifying apparatus. The body casing 1 of the dehumidifying device has a box shape. The main body casing 1 has a substantially rectangular air outlet 2 at the upper portion and a suction port 3 at the side. Further, the body casing 1 has a tank body 5 at the lower portion. Further, the body casing 1 has an operation portion 4 at an upper portion thereof. The user can operate the dehumidifying device by operating the operating portion 4. Thereby, the indoor humid air is sucked by the suction port 3, dehumidified by the dehumidifying section (not shown in FIG. 1) in the main body casing 1, and the dry air is sent back to the room by the air outlet 2. The dehumidified water becomes water droplets and is stored in the tank body 5.

Fig. 3 is a perspective view of the wind direction changing unit 6 of the dehumidifying apparatus in the embodiment of the present invention. The wind direction changing unit 6 is disposed in the air outlet 2 . The air blowing unit 7 is provided so that the airflow direction changing unit 6 blows air to the air outlet 2 .

Fig. 4 is an exploded perspective view showing the wind direction changing unit 6 and the air blowing unit 7 of the dehumidifying apparatus according to the embodiment of the present invention.

The blower unit 7 is configured by a scroll-shaped outer casing 8 constituting an air passage, an impeller 9 that blows air in the outer casing 8 to blow air, and a motor 10 that rotationally drives the impeller 9. The blower unit 7 is referred to as a so-called Sirocco fan.

The outer casing 8 has an inflow port 11 through which air flows in; an air supply The discharged discharge port 12; and the pressurized air are directed toward the tongue portion 13 of the discharge port 12. The discharge port 12 is configured to communicate with the air outlet 2 of the main body casing 1 .

The wind direction changing unit 6 is attached to the air outlet 2 of the main body casing 1 and is located on the downstream side of the discharge port 12 of the casing 8. The wind direction changing unit 6 is provided to be rotatable by the rotating unit 14. Further, in the rotating portion 14, a small motor or the like is used.

The wind direction changing unit 6 includes a rotating shaft 15 coupled to the rotating unit 14 and a plurality of wind direction changing plates 16 that are fixed to the rotating shaft 15 in a penetrating manner. The rotating shaft 15 is provided to extend in the longitudinal direction of the air outlet 2 . The wind direction changing plate 16 is fixed to the rotating shaft 15 in such a manner that the oblique direction is formed in the opposite direction to the left and right. The wind direction changing plate 16 is closer to the side end of the rotating shaft 15, and the inclination angle is larger with respect to the vertical surface. The ends of the wind direction changing plate 16 are connected by connecting ribs 17. The strength of the wind direction changing unit 6 is ensured by connecting the wind direction changing plates 16 to each other.

The projection shape of the wind direction changing plate 16 in the direction of the rotation axis 15 is circular. Therefore, the movable range in which the wind direction changing plate 16 rotates is formed in a substantially circular shape when viewed in the direction of the rotating shaft 15. Therefore, the wind direction changing plate 16 can be rotated.

Fig. 5 is a control block diagram of the dehumidifying apparatus in the embodiment of the present invention. A control unit 18 is provided in the body casing 1. The control unit 18 is connected to the dehumidifying unit 19, the air blowing unit 7, and the rotating unit 14, respectively. These units are controlled by the control unit 18. By the operation of the operation unit 4, the user can perform the operation of the dehumidifying apparatus while switching various operations.

By the operation of the operation unit 4, the rotating unit 14 can select a rotation state and a stop state. Thereby, the rotating portion 14 is continuously rotated or the blowing direction is stopped at a desired angle to be formed.

In the above configuration, the air taken in by the suction port 3 of the main body casing 1 is dehumidified by the dehumidifying portion 19. The dehumidified air flows into the air blowing portion 7 from the inflow port 11 of the casing 8, and is sent to the wind direction changing unit 6 by the discharge port 12. In the wind direction changing unit 6, the air flowing in a straight line flows along the wind direction changing plate 16, thereby changing the wind direction. In the vicinity of the air outlet 2, air is blown so as to extend widely in the longitudinal direction of the air outlet 2.

Fig. 6 is a perspective view showing a wide-area air supply of the dehumidifying apparatus in the embodiment of the present invention, and Fig. 7 is a perspective view showing a concentrated air supply of the dehumidifying apparatus. In Fig. 6, the positional relationship of the wind direction changing unit 6 when the air blowing range is formed in a wide area is shown, and in Fig. 7, the positional relationship of the wind direction changing unit 6 when the air blowing range is concentrated is shown.

The user can select the air blowing range by the operation of the operation unit 4, and the air blowing range in the middle, that is, the air blowing range in which the air blowing is a straight type can be arbitrarily selected.

In the present embodiment, as shown in FIG. 6, the wind direction changing plate 16 located in the vicinity of the center in the longitudinal direction of the air outlet 2 is provided with the notch portion 20 on the upstream side in the air blowing direction. A plurality of the plurality of wind direction changing plates 16 are shortened to form a notch portion 20 in a part of the plurality of wind direction changing plates 16 . In FIG. 6, since the air is blown from the downward direction, the notch portion 20 is provided on the upstream side of the air blowing, that is, in the downward direction of the wind direction changing unit 6. Knot As a result, a space is provided in the lower central portion of the wind direction changing unit 6.

In other words, when the installation angle of the wind direction changing plate 16 is made larger in order to widen the air blowing range, only the air is blown toward the side in the longitudinal direction of the air outlet 2, and the wind speed in the center portion is reduced. However, the wind direction changing plate 16 located in the vicinity of the center in the longitudinal direction of the air outlet 2 is provided with the notch portion 20 on the upstream side of the air blowing, whereby the wind passing through the center portion can be improved, and the wind speed at the center portion can be suppressed from becoming small. situation. Thereby, the wind speed in the central part can also be ensured.

As a result, the wind speed distribution can be made uniform within the air blowing range while widening the air blowing range.

Further, a notch portion 20 of the wind direction changing plate 16 is provided in the vicinity of the tongue portion 13 of the outer casing 8. Since the tongue portion 13 causes the wind direction of the air pressurized by the impeller 9 that rotates in the outer casing 8 to face the air outlet 2, the notch portion 20 is located substantially at the center with respect to the air outlet 2. Thereby, the wind speed in the vicinity of the tongue 13 becomes faster.

That is, the portion of the outer casing 8 near the tongue portion 13 is a portion where the wind speed is increased. In the wind direction changing plate 16 of this portion, the notch portion 20 is provided, whereby it is not necessary to place an obstacle which is a wind path resistance in a portion where the wind speed is fast, and the air path resistance can be reduced, and the air blowing noise can be lowered.

Further, by providing the wind direction changing unit 6 of the same size, by providing the notch portion 20, the wind direction changing plate 16 can be brought close to the air blowing portion 7 while maintaining a distance from the tongue portion 13 of the outer casing 8.

As a result, the air supply range can be widened, and the wind speed distribution is made uniform within the air supply range. Therefore, it can provide a streamlined reduction of air supply noise. Dehumidification device.

In addition, the notch portion 20 of the wind direction changing plate 16 is made larger toward the vicinity of the center in the longitudinal direction of the air outlet 2 . The wind speed distribution with respect to the air outlet 2 is not uniform, and the wind speed at the center portion is increased, but the size of the cutout portion 20 is adjusted in accordance with this situation.

In other words, in the central portion of the air outlet 2, the wind blown by the air can be directly blown out, so that the notch portion 20 can be enlarged. Further, increasing the notch portion 20 can reduce the wind path resistance. Further, toward the enlarged notch portion 20, the wind speed distribution plate can be made uniform by gradually increasing the notch portion 20 with respect to the adjacent wind direction changing plate.

As a result, the wind speed distribution can be made uniform within the air blowing range while widening the air blowing range.

Further, a connecting rib 17 that connects the ends of the wind direction changing plate 16 is provided.

In other words, the wind direction changing plate 16 is connected and integrated, and the strength is increased. Therefore, deformation of the wind direction changing plate 16 due to wind pressure or bending of the rotating shaft 15 can be prevented, and the ventilation resistance of the wind direction changing unit can be suppressed. Further, the strength of the wind direction changing plate 16 is increased, and the vibration is suppressed little, so that noise or vibration does not occur. Therefore, low noise can be achieved.

As a result, the air supply range is widened, and the wind speed distribution can be made uniform within the air supply range. Therefore, a dehumidifying device that reduces the blowing noise can be provided.

Further, the inclination angle of the wind direction changing plate 16 with respect to the blowing direction is changed from the upstream side to the downstream side of the air blowing.

In other words, the inclination angle of the wind direction changing plate 16 and the upstream side of the air blowing are provided so as to match the direction in which the air blowing portion 7 is blown, and the inclination angle is changed in the direction in which the air is blown toward the downstream of the air blowing. Thereby, it is possible to prevent the wind from suddenly colliding with the wind direction changing plate 16, and the air path resistance can be reduced. In addition, the air supply range can be expanded. The reduction in wind path resistance contributes to the reduction of air supply noise.

As a result, the air supply range can be widened, and the wind speed distribution is made uniform within the air supply range. Therefore, a dehumidifying device that reduces the blowing noise can be provided.

Further, the inclination angle of the wind direction changing plate 16 with respect to the blowing direction is increased from the upstream side of the air blowing toward the downstream side.

In other words, the inclination angle of the wind direction changing plate 16 and the upstream side of the air blowing are provided so as to match the direction in which the air blowing portion 7 is blown, and the inclination is increased toward the longitudinal direction of the air outlet 2 toward the downstream of the air blowing. angle. Thereby, it is possible to prevent the wind from suddenly colliding with the wind direction changing plate 16, and the air path resistance can be reduced. In addition, the air supply range can be expanded. The reduction in wind path resistance contributes to the reduction of air supply noise.

As a result, the air supply range can be widened, and the wind speed distribution is made uniform within the air supply range. Therefore, a dehumidifying device that reduces the blowing noise can be provided.

As described above, the dehumidifying apparatus of the present embodiment includes the main body casing 1 having the substantially rectangular air outlet 2, the dehumidifying portion 19 provided in the main body casing 1, and the dehumidifying portion 19 to be dehumidified. The air is supplied to the air blowing portion 7. In addition, there is an empty space for changing the air blown by the air blowing unit 7. The wind direction changing unit 6 in the air blowing direction of the air. The wind direction changing unit 6 includes a plurality of wind direction changing plates 16 that are provided in the air outlet 2 to change the air blowing direction of the air blowing unit 7, and a rotating shaft 15 that rotatably fixes the wind direction changing plate 16. The rotating shaft 15 extends in the longitudinal direction of the air outlet 2 . The wind direction changing plate 16 is attached obliquely so as to extend the air blowing direction in the longitudinal direction of the air outlet 2 with respect to the blowing direction from the air outlet 2 . The movable range in which the wind direction changing plate 16 rotates is substantially circular when viewed from the direction of the rotating shaft. The wind direction changing plate 16 located in the vicinity of the center in the longitudinal direction of the air outlet 2 is provided with the notch portion 20 on the upstream side in the air blowing direction. Thereby, the wind speed distribution can be made uniform in the air blowing range while widening the air blowing range.

In other words, when the installation angle of the wind direction changing plate 16 is further increased in order to widen the air supply range, only the side end portion in the longitudinal direction of the air outlet 2 is blown, and the wind speed at the center portion is reduced. However, in the present embodiment, the wind direction changing plate 16 located in the vicinity of the center in the longitudinal direction of the air outlet 2 is provided with the notch portion 20 on the upstream side of the air blowing. Thereby, the passage of the wind in the center portion is improved, and the wind speed at the center portion is suppressed from being small, and the wind speed can be secured.

As a result, the wind speed distribution can be made uniform within the air blowing range while widening the air blowing range. Therefore, even when the dried laundry is dried in a wide area, it can be uniformly dried quickly.

Further, in the dehumidifying apparatus according to the present embodiment, the air blowing unit 7 is configured to include a casing 8 and a sirocco fan which is an impeller that rotates and blows air in the casing 8, and a slit of the wind direction changing plate 16 is provided in the vicinity of the tongue of the casing 8. Department 20. As a result, it is not necessary to place an obstacle that becomes a wind path resistance in a portion where the wind speed is fast, and the air passage resistance can be reduced, and even the air blowing noise can be lowered.

In addition, the notch portion 20 of the wind direction changing plate 16 is made larger toward the vicinity of the center in the longitudinal direction of the air outlet 2 . Thereby, the wind path resistance can be reduced, and the wind speed distribution can be made uniform. As a result, the wind speed distribution can be made uniform within the air blowing range while widening the air blowing range.

Further, a connecting rib 17 that connects the ends of the wind direction changing plate 16 is provided. Thereby, the wind direction changing plate 16 is connected and integrated, and the strength is increased. Therefore, deformation of the wind direction changing plate 16 due to wind pressure or bending of the rotating shaft 15 can be prevented, and the ventilation resistance of the wind direction changing unit 6 can be suppressed. Further, the strength of the wind direction changing plate 16 is increased, and the vibration is suppressed little, so that noise or vibration does not occur. Therefore, low noise can be achieved. As a result, the air supply range is widened, and the wind speed distribution can be made uniform within the air supply range. Therefore, it is possible to reduce the dehumidification device that reduces the blowing noise.

Further, the wind direction changing plate 16 is inclined at an angle to the blowing direction, and is changed from the upstream side of the air blowing toward the downstream side. Thereby, it is possible to prevent the wind from suddenly colliding with the wind direction changing plate 16, and the air path resistance can be reduced. In addition, the air supply range can be expanded. The reduction in wind path resistance contributes to the reduction of air supply noise. As a result, the air supply range is widened, and the wind speed distribution can be made uniform within the air supply range. Therefore, it is possible to reduce the dehumidification device that reduces the blowing noise.

Further, the wind direction changing plate 16 is inclined at an angle with respect to the blowing direction, and is increased from the upstream side of the air blowing toward the downstream side. Thereby, it is possible to prevent the wind from suddenly colliding with the wind direction changing plate 16, and the air path resistance can be reduced. In addition, the air supply range can be expanded. The reduction of wind path resistance helps to reduce the noise of the air supply. low. As a result, the air supply range is widened, and the wind speed distribution can be made uniform within the air supply range. Therefore, a dehumidifying device that reduces the blowing noise can be provided.

[Industrial Availability]

As described above, according to the present invention, it is extremely useful as a dehumidifying apparatus capable of drying clothes by households or offices.

6‧‧‧Wind change unit

8‧‧‧ Shell

9‧‧‧ Impeller

10‧‧‧ motor

11‧‧‧Inlet

12‧‧‧ spitting

13‧‧ ‧Tongue

14‧‧‧Rotating Department

15‧‧‧Rotary axis

16‧‧‧Wind change board

17‧‧‧Link ribs

20‧‧‧cutting section

Claims (6)

A dehumidifying apparatus includes: a main body casing having a substantially rectangular air outlet; a dehumidifying portion provided in the main body casing; and a blowing portion that blows air dehumidified in the dehumidifying portion; and a change in wind direction a unit that changes a blowing direction of the air that is blown from the air blowing unit, wherein the wind direction changing unit includes a plurality of wind direction changing plates that are provided in the air outlet, change a blowing direction of the air blowing unit, and a rotation axis. The wind direction changing plate is rotatably supported, and the rotating shaft extends in a longitudinal direction of the air outlet, and the air direction changing plate is directed toward the blowing direction, and the air blowing direction is directed toward the air outlet. The aspect in which the longitudinal direction is expanded is obliquely attached, and the movable range in which the wind direction changing plate rotates is substantially circular when viewed in the direction of the rotating shaft, and is located near the center in the longitudinal direction of the air outlet. The wind direction changing plate is provided with a notch portion on the upstream side in the air blowing direction. The dehumidifying device of claim 1, wherein the air blowing portion is configured as a package A sirocco fan including an outer casing and an impeller that rotates and blows air in the outer casing, and a slit portion of the wind direction changing plate is provided in the vicinity of a tongue portion of the outer casing. The dehumidifying apparatus according to claim 1 or 2, wherein the slit portion of the wind direction changing plate is increased toward the vicinity of the center in the longitudinal direction of the air outlet. The dehumidifying apparatus according to any one of claims 1 to 3, wherein a connecting rib that connects end portions of the wind direction changing plate is provided. The dehumidifying apparatus according to any one of claims 1 to 4, wherein the wind direction changing plate is inclined at an angle to the blowing direction, and is changed from an upstream side of the blowing air toward a downstream side. The dehumidifying apparatus according to claim 5, wherein the wind direction changing plate is inclined at an angle to the blowing direction, and is increased from an upstream side of the air blowing toward a downstream side.