JP2019219149A - Filter cleaning unit and air conditioner - Google Patents

Abstract

To smoothly move a nut along an axial direction of a shaft.SOLUTION: A filter cleaning unit comprises: a brush installed along one direction of a filter 13; a motor 24; a shaft 25 which is installed in such a manner that the axial direction thereof is vertical to one direction of the filter 13, and which is connected to the motor 24 and is axially rotated by the motor 24; a nut 26 which is connected to the shaft 25 and moves along the axial direction of the shaft 25 by rotation around the axis of the shaft 25; and a brush fixing part 21 which is installed along one direction of the filter 13 and to which the nut 26 and the brush are fixed. At a connection portion between the nut 26 and the brush fixing part 21, the nut 26 is not restricted in movement in the axial direction of the shaft 25 with respect to the brush fixing part 21, and movement toward an in-plane direction vertical to the axial direction of the shaft 25.SELECTED DRAWING: Figure 10

Description

  The present invention relates to a filter cleaning unit and an air conditioner.

  Some indoor units of the ceiling-embedded air conditioner include a dust removal unit that cleans dust adhered to a filter installed at a suction port with a brush. The brush has a length equal to the width of the filter, and is moved along one direction of the filter by a driving mechanism having a motor.

JP-A-11-276835 JP-A-11-337105

  As a drive mechanism for moving the brush, one set is provided on each side of the brush, and each set includes a nut fixed to the brush side, a shaft that meshes with the nut, and a motor that rotates the shaft around the axis. . When the shaft is rotated by the motor, the nut fixed to the brush moves along the axial direction of the shaft. In order to move the brush stably, it is necessary to install two sets of such drive mechanisms, one set on each side of the brush.

  Conventionally, in the above-described drive mechanism, the shaft is rotated by the deformation at the time of installation of the synthetic resin filter cleaning unit frame provided with the shaft meshed with the nut, the molding accuracy of various parts such as the shaft, the assembly accuracy or the installation accuracy, and the like. It may not rotate around or the nut may not move along the axial direction of the shaft.

  Patent Documents 1 and 2 describe that a nut is meshed with a shaft and the nut moves along the axial direction of the shaft. However, as described above, the shaft does not rotate around the axis, or the nut moves. There is a problem that the shaft does not move along the axial direction.

  The present invention has been made in view of such circumstances, and has as its object to provide a filter cleaning unit and an air conditioner that can smoothly move a nut along an axial direction of a shaft. .

In order to solve the above problems, a filter cleaning unit and an air conditioner of the present invention employ the following means.
That is, the filter cleaning unit according to the present invention, the brush installed along one direction of the filter, the motor, and installed so that the axial direction is perpendicular to the one direction of the filter, the motor A shaft that is connected around the axis by the motor, a nut that is coupled to the shaft and moves along the axial direction of the shaft by rotation about the axis of the shaft, A brush fixing portion that is installed along the nut and the brush is connected to the brush, and at a connection portion between the nut and the brush fixing portion, the nut extends in the axial direction of the shaft with respect to the brush fixing portion. And the movement in the in-plane direction perpendicular to the axial direction of the shaft are not limited.

  According to this configuration, the brush and the brush fixing portion to which the brush is fixed are installed along one direction of the filter. The shaft is installed such that the axial direction of the shaft is perpendicular to one direction of the filter.

  The rotation of the motor causes the shaft to rotate about the axis, and the nut coupled to the shaft moves along the axial direction of the shaft by rotation about the axis of the shaft. Thereby, the brush fixing part to which the nut is connected moves in the in-plane direction perpendicular to one direction of the filter along the axial direction of the shaft.

  In the connection portion between the nut and the brush fixing portion, the nut is disposed, for example, in a cutout portion of the brush fixing portion, and can freely move in the axial direction and the vertical direction of the shaft in the cutout portion. In the connection portion between the nut and the brush fixing portion, the movement of the nut in the axial direction of the shaft with respect to the brush fixing portion and in the in-plane direction perpendicular to the axial direction is not limited. Therefore, the nut is allowed to move in the axial direction of the shaft and in the in-plane direction perpendicular to the axial direction with respect to the brush fixing portion. Therefore, rotation around the axis of the shaft and movement of the nut along the axial direction of the shaft are performed smoothly.

  In the above invention, a flange having a plate surface parallel to an axial direction of the shaft is installed on an outer peripheral surface of the nut, and a cutout groove into which the flange is inserted is provided in the brush fixing portion. May be formed. Alternatively, in the above invention, a cutout groove into which the nut is inserted may be formed in the brush fixing portion.

  According to this configuration, by the combination of the flange and the notch groove, in the connection portion between the nut and the brush fixing portion, the nut moves in the axial direction of the shaft with respect to the brush fixing portion, and is perpendicular to the axial direction. The movement in the in-plane direction is not limited.

  An air conditioner according to the present invention includes the above-described filter cleaning unit.

  According to the present invention, the nut can be smoothly moved along the axial direction of the shaft.

It is a longitudinal section showing an indoor unit of an embedded ceiling type air conditioner concerning one embodiment of the present invention. It is a perspective view showing the indoor unit of the ceiling embedded type air conditioner concerning one embodiment of the present invention. It is a perspective view showing a filter and a filter cleaning unit concerning one embodiment of the present invention. It is a top view showing a filter and a filter cleaning unit concerning one embodiment of the present invention. It is a perspective view showing the filter cleaning unit concerning one embodiment of the present invention. It is a top view showing the filter cleaning unit concerning one embodiment of the present invention. It is a longitudinal section showing a filter cleaning unit concerning one embodiment of the present invention. It is a side view showing the filter cleaning unit concerning one embodiment of the present invention. It is a perspective view showing the filter cleaning unit concerning one embodiment of the present invention. It is a perspective view showing the filter cleaning unit concerning one embodiment of the present invention.

Hereinafter, an in-ceiling type air conditioner according to an embodiment of the present invention will be described with reference to the drawings.
The ceiling-embedded air conditioner (hereinafter, referred to as “air conditioner”) includes an indoor unit 1, an outdoor unit (not shown), and a refrigerant pipe (not shown) connecting the indoor unit 1 and the outdoor unit. And so on.
The indoor unit 1 is installed with the case body 2 embedded in the ceiling. As shown in FIG. 1, a heat exchanger 7, a drain pan 10, a motor 5, a blower 6, a bell mouth 12, and the like are built in the case body 2. The ceiling panel 8 is mounted.

  As shown in FIGS. 1 and 2, a suction port 3 is formed at the center of the lower surface of the indoor unit 1, and is long in one direction along the outer peripheral portion of the lower surface of the indoor unit 1 at a position adjacent to the suction port 3. An outlet 4 is formed. A suction grille 11 and a filter 13 are installed above the suction grille 11 at the suction opening 3. The drain pan 10 is provided below the heat exchanger 7 and receives drain water dropped from the heat exchanger 7. The bellmouth 12 is provided below the drain pan 10.

  When the air conditioner operates, refrigerant from an outdoor unit (not shown) circulates through the heat exchanger 7, and the blower 6 is driven by the motor 5. By driving the blower 6, room air is guided from the suction port 3 through the suction grill 11 and the filter 13, is guided by the bell mouth 12, and is sucked into the blower 6. The air blown out from the blower 6 is cooled or heated by passing through the heat exchanger 7 and then blown out from the blowout port 4 into the room.

  The louver 14 is long in one direction according to the shape of the outlet 4, and the louver 14 rotates around an axis parallel to the longitudinal direction. As a result, when the direction of the louver 14 is changed, the airflow blown out from the blowout port 4 becomes upward or downward.

  The filter 13 removes dust and the like contained in the sucked air. The filter 13 has a square shape like the suction port 3, and is arranged near the center of the suction port 3. Further, wires 15 for raising and lowering the suction grill 11 are arranged at four corners of the frame of the suction grill 11.

  The indoor unit 1 according to the present embodiment includes a filter cleaning unit 16 as shown in FIGS. The filter cleaning unit 16 is installed on the case main body 2 on the lower surface of the filter 13 and has a brush 17 that is equal to or longer than the length of one side of the filter 13 in one direction. The brush 17 of the filter cleaning unit 16 moves from one side of the filter 13 to the other side thereof while contacting the surface of the filter 13, thereby removing dust adhering to the filter 13. The filter cleaning unit 16 starts operation based on a control signal related to operation control.

  The filter cleaning unit 16 includes a filter cleaning unit frame 9 detachably mounted on the ceiling panel 8, a brush 17, a brush fixing unit 21, and a motor 24 mounted on the filter cleaning unit frame 9.

  The filter cleaning unit frame 9 has a square shape like the suction port 3, and is disposed near the center of the suction port 3. The filter 13 is installed in the filter cleaning unit frame 9, and the filter cleaning unit frame 9 can be attached to the ceiling panel 8 or removed from the ceiling panel 8.

  The brush 17 has a shaft member that is long in one direction, and a large number of hairs are arranged on the outer peripheral surface of the shaft member from one end to the other end in the axial direction. The brush 17 has a brush rotation gear 20 that meshes with the pinion gear 23 at each end. The brush 17 is supported at both ends by the brush fixing portions 21.

  As shown in FIGS. 2 and 5 to 8, the brush fixing portion 21 is a member that is long in a direction parallel to the axial direction of the brush 17 and accommodates the brush 17 inside. The brush fixing portion 21 has a shape surrounding the brush 17 and exposes the brush 17 on the filter 13 side. In the brush fixing portion 21, a total of two pinion gears 23 are rotatably installed, one at each end. The brush fixing part 21 is supported by a rack gear 22 via a pinion gear 23. As the brush fixing portion 21 moves along the rack gear 22, the brush fixing portion 21 and the brush 17 move along the surface of the filter 13 from one side of the filter 13 to the other side.

  The brush fixing portion 21 is supported by the pinion gear 23 and the rack gear 22 on both sides of the filter 13 in one direction, so that the brush fixing portion 21 and the brush 17 move reliably.

  The pinion gears 23 are provided at both ends of the brush fixing portion 21, respectively. The pinion gear 23 meshes with the rack gear 22. When the brush fixing portion 21 moves, the pinion gear 23 moves on the rack gear 22 and is driven to rotate by the force transmitted from the rack gear 22. The rack gear 22 is installed outside the filter 13 such that the axial direction is perpendicular to the axial direction of the brush 17. The length of the rack gear 22 is equal to or longer than the length of one side of the filter 13.

  The brush rotation gears 20 are provided one by one corresponding to the respective pinion gears 23 and mesh with the pinion gears 23. As the pinion gear 23 rotates, the brush rotation gear 20 is driven to rotate by the force transmitted from the pinion gear 23. As a result, the brush 17 installed on the brush rotation gear 20 rotates, and the brush 17 rotates with the movement of the brush 17. The rotation direction of the pinion gear 23 and the rotation direction of the brush rotation gear 20 are opposite. Since the brush 17 is not installed on the pinion gear 23 but is installed on the brush rotating gear 20, the bristles of the brush 17 move from the back to the front in the traveling direction of the brush 17 and the brush fixing portion 21. Moving. As a result, the bristle of the brush 17 moves from the front to the rear with respect to the traveling direction of the brush 17 and the brush fixing portion 21, and is opposed to the filter 13, unlike the case where the bristle moves in the same direction as the moving direction of the filter 13. The bristles of the brush 17 move. Therefore, dust adhering to the filter 13 can be more reliably removed.

  The pinion gear 23 is a member that is not connected to the motor 24 and that operates in a driven manner. In the present embodiment, since the pinion gear 23 is installed on the brush fixing portion 21, unlike the Patent Document 1, a propulsion shaft connecting the two pinion gears 23 is unnecessary.

  As shown in FIGS. 6, 8 to 10, only one drive mechanism including the motor 24, the shaft 25, the nut 26, and the like need be provided along one side of the filter 13.

  The motor 24 is fixedly installed on the filter cleaning unit frame 9 of the filter cleaning unit 16. The motor 24 is connected to a shaft 25, and the motor 25 drives the shaft 25 to rotate around the axis. The shaft 25 is a shaft member that is long in one direction, a male screw is formed on the outer peripheral surface of the shaft member, and a nut 26 is engaged with the shaft member. The shaft 25 is installed so that the axial direction is perpendicular to the axial direction of the brush 17, that is, in a direction parallel to the rack gear 22. The shaft 25 is equal to or longer than the length of one side of the filter 13 in one direction.

  The nut 26 has an internal thread formed on the inner peripheral surface thereof so as to mesh with the external thread of the shaft 25. The nut 26 is connected to the brush fixing part 21 so as not to rotate around the axis of the shaft 25. The nut 26 is not fixed to the brush fixing part 21, but the nut 26 is connected to the brush fixing part 21 so that the brush fixing part 21 can be pushed. Thus, the rotation of the shaft 25 causes the nut 26 to move, and the nut 26 pushes the brush fixing portion 21 to move along the axial direction of the shaft 25. By changing the rotation direction of the shaft 25, the traveling direction of the nut 26 and the brush fixing portion 21 can be changed.

  In the example described above, an example is described in which the male screw is formed on the shaft 25 and the female screw is formed on the nut 26, and the present invention is not limited to this example. For example, the shaft 25 and the nut 26 may be configured such that a combination of the shaft 25 and the nut 26 provides a ball screw mechanism.

  In the drive mechanism according to the present embodiment, only one motor 24 needs to be installed, and the brush 17 can be moved with a simple structure.

<Connection between brush fixing portion 21 and nut 26>
As shown in FIG. 9 and FIG. 10, in the connection portion between the nut 26 and the brush fixing portion 21, the nut 26 faces the brush fixing portion 21 in a direction perpendicular to the axial direction of the shaft 25 and the axial direction. Inward movement is not restricted.

An embodiment of the configuration of the connection portion between the nut 26 and the brush fixing portion 21 will be described.
A flange 27 having a plate surface parallel to the axial direction of the shaft 25 is provided on the outer peripheral surface of the nut 26. A cutout groove 28 corresponding to the flange 27 provided on the nut 26 is formed in the brush fixing portion 21. The flange 27 is inserted into the notch groove 28. The width of the notch groove 28 of the brush fixing portion 21 is slightly larger than the thickness of the flange 27 of the nut 26, and the flange 27 can move inside the notch groove 28. The axial end surface of the shaft 25 in the flange 27 can contact the inner surface of the notch groove 28. In the present embodiment, the flange 27 is inserted into the notch groove 28. However, the nut 26 itself may be inserted into the notch groove without providing the flange 27.

  The notch groove 28 has a flange 27 movably opened on the surface of the brush fixing portion 21 opposite to the brush 17 side. The notch groove 28 is formed such that the flange 27 is movable on the upper surface or the lower surface of the brush fixing portion 21 with respect to the axis of the brush 17. As described above, in the connection portion between the nut 26 and the brush fixing portion 21, the movement of the shaft 25 in the axial direction and in the in-plane direction perpendicular to the axial direction is not limited. Therefore, when the nut 26 pushes the brush fixing portion 21, the flange 27 abuts against the notch groove 28, but the nut 26 moves with respect to the brush fixing portion 21 in the axial direction of the shaft 25 and in the axial direction. Vertical in-plane movement is allowed.

  The shaft 25 may be bent due to deformation at the time of installation of the synthetic resin filter cleaning unit frame 9 provided with the shaft 25 in which the nut 26 is engaged, molding accuracy of various components such as the shaft 25, assembly accuracy or installation accuracy, and the like. There is a possibility of tilting. On the other hand, according to the present embodiment, even when the shaft 25 is bent or inclined, the nut 26 is perpendicular to the axial direction of the shaft 25 and the axial direction with respect to the brush fixing portion 21. The nut 26 can be moved in the in-plane direction, and the position of the nut 26 is changed. Therefore, rotation around the axis of the shaft 25 and movement of the nut 26 along the axial direction of the shaft 25 are performed smoothly.

1: indoor unit 2: case body 3: suction port 4: outlet 5: motor 6: blower 7: heat exchanger 8: ceiling panel 9: filter cleaning unit frame 10: drain pan 11: suction grill 12: bell mouth 13: Filter 14: Louver 15: Wire 16: Filter cleaning unit 17: Brush 20: Brush rotation gear 21: Brush fixing part 22: Rack gear 23: Pinion gear 24: Motor 25: Shaft 26: Nut 27: Flange 28: Notch groove

Claims (4)

A brush installed along one direction of the filter,
Motor and
A shaft that is installed so that the axial direction is perpendicular to the one direction of the filter, is connected to the motor, and is rotated around the axis by the motor,
A nut coupled to the shaft and moving along the axial direction of the shaft by rotation about the axis of the shaft;
A brush fixing unit installed along the one direction of the filter and connected to the nut and the brush,
With
At a connection portion between the nut and the brush fixing portion, the nut moves in the axial direction of the shaft with respect to the brush fixing portion, and moves in an in-plane direction perpendicular to the axial direction of the shaft. Filter cleaning unit that is not restricted. A flange having a plate surface parallel to a direction perpendicular to the axial direction of the shaft is installed on an outer peripheral surface of the nut,
The filter cleaning unit according to claim 1, wherein a cutout groove into which the flange is inserted is formed in the brush fixing portion.   The filter cleaning unit according to claim 1, wherein a cutout groove into which the nut is inserted is formed in the brush fixing portion. An air conditioner comprising the filter cleaning unit according to claim 1.

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