JP2016071945A - Luminaire with air cleaning function - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a luminaire with an air cleaning function which is suspended and installed at a ceiling in which a body can suppress rotation in a reverse direction from a fan rotation direction which occurs at start-up time of a blower, and which can keep a stable operation state without moving in the horizontal direction.SOLUTION: In a luminaire with an air cleaning function in which a body 2 is installed at a ceiling 100 by being suspended by a suspension member 3 and in which a filter 60, a blower 70 and a lighting fixture 52 are provided in the body 2, buffer parts 80 are provided at the body 2 and by the air exhausted from a fan 73 of the blower 70 as a swirl flow of the same direction as the fan rotation direction hitting the buffer parts 80, a rotational force in the fan rotation direction is applied to the body 2, and the rotation in the reverse direction from the fan rotation direction which occurs at the start-up time of the blower is suppressed. The buffer parts 80 are provided at equal intervals in the circumferential direction on a virtual circle a on the surface orthogonal to a motor shaft 72 around a motor shaft center 72a, so that the rotational force applied to the body 2 is balanced, and a stable operation state can be maintained without moving in the horizontal direction.SELECTED DRAWING: Figure 5

Description

  The present invention relates to a lighting device with an air cleaning function having an air cleaning function for purifying air.

2. Description of the Related Art Various types of lighting devices with an air cleaning function are known in the past that collect and purify oily smoke generated by tabletop cooking and exhaust it into the room.
For example, as disclosed in Patent Document 1, a lighting device with an air cleaning function that is suspended from a ceiling is known.
This lighting device with an air cleaning function includes an umbrella suspended from a ceiling, an illumination lamp, a blower, a filter provided inside the umbrella, and a suspension member that suspends the umbrella from the ceiling.
Then, with the umbrella suspended from the ceiling, energize the motor of the blower and rotate the fan to drive the blower, so that oil smoke generated by tabletop cooking is sucked from the lower part of the umbrella and captured in the umbrella. The collected oil smoke is purified through a filter, and the purified air is exhausted from the top of the umbrella into the room.

JP-A-10-241455

In the illumination device with an air cleaning function of Patent Document 1, the umbrella rotates in the direction opposite to the rotation direction of the fan by the inertia force of the fan when the blower fan starts up from the stop state to the steady rotation state. To happen.
The umbrella rotates in the direction opposite to the rotation direction of the fan when the blower starts up, so that a load is applied to the suspension member and the wiring between the ceiling and the umbrella, and the life of each component such as the suspension member and the wiring is short and durable. It becomes inferior.

  The present invention has been made in view of the above-described problems, and its purpose is to suppress the rotation of the main body in the direction opposite to the fan rotation direction, which occurs when the blower is started, and to reduce the load on the suspension member, wiring, and the like. An illumination device with an air cleaning function capable of extending the life of each component.

The first lighting device with an air cleaning function of the present invention includes a main body 2 and a suspension member 3 that suspends and installs the main body 2 on the ceiling 100.
The main body 2 is provided with a filter 60 for purifying air and a blower 70 for rotating a fan 73 with a motor 71. The rotation of the fan 73 sucks air into the main body 2 and purifies the sucked air through the filter 60. , The purified air is exhausted from the main body 2,
It is an illuminating device with an air purifying function in which an illumination tool 52 is provided in the main body 2,
The fan 73 discharges air as a swirling flow in the same direction as the rotation direction of the fan 73, and a plurality of buffer portions 80 having a wind receiving surface 81 that receives the air discharged from the fan 73 are provided in the main body 2. Provided,
The buffer portions 80 are provided at equal intervals in the circumferential direction along a virtual circle a on a plane orthogonal to the motor shaft 72 centering on the motor shaft center 72a of the motor 71. This is a lighting device with an air cleaning function.

The second lighting device with an air cleaning function of the present invention includes a main body 2 and a suspension member 3 that suspends and installs the main body 2 on the ceiling 100.
The main body 2 is provided with a filter 60 for purifying air and a blower 70 for rotating a fan 73 with a motor 71. The rotation of the fan 73 sucks air into the main body 2 and purifies the sucked air through the filter 60. , The purified air is exhausted from the main body 2,
It is an illuminating device with an air purifying function in which an illumination tool 52 is provided in the main body 2,
The fan 73 discharges air as a swirling flow in the same direction as the rotation direction of the fan 73, and a plurality of buffer portions 80 having a wind receiving surface 81 that receives the air discharged from the fan 73 are provided in the main body 2. Provided,
Each of the buffer parts 80 is an illuminating device with an air cleaning function, which is provided point-symmetrically with respect to a motor shaft center 72 a of the motor 71.

The lighting device with a third air cleaning function of the present invention includes a main body 2 and a suspension member 3 that suspends and installs the main body 2 on the ceiling 100.
The main body 2 is provided with a filter 60 for purifying air and a blower 70 for rotating a fan 73 with a motor 71. The rotation of the fan 73 sucks air into the main body 2 and purifies the sucked air through the filter 60. , The purified air is exhausted from the main body 2,
It is an illuminating device with an air purifying function in which an illumination tool 52 is provided in the main body 2,
The fan 73 discharges air as a swirling flow in the same direction as the rotation direction of the fan 73, and a plurality of buffer portions 80 having a wind receiving surface 81 that receives the air discharged from the fan 73 are provided in the main body 2. Provided,
The buffer portion 80 is circumferentially arranged as a buffer portion aggregate composed of two or more buffer portions 80 on a virtual circle a on a plane orthogonal to the motor shaft 72 centered on the motor shaft center 72a of the motor 71. Are provided at intervals,
The interval between the buffer portions 80 in each buffer portion assembly is equal, and the interval between the buffer portion assemblies is equal,
It is an illuminating device with an air purifying function characterized in that the interval between the buffer unit assemblies is larger than the interval between the buffer units 80.

  In the first, second, and third illumination devices with an air cleaning function of the present invention, each buffer 80 is located on a virtual straight line b that passes through the motor shaft center 72a and is orthogonal to the motor shaft 72, and each buffer. The wind receiving surface 81 of the part 80 can be parallel to the virtual straight line b.

In this way, the air discharged as a swirling flow from the fan 73 is less likely to stay in the vicinity of the buffer portion 80, so the pressure is low, and the main body 2 that occurs at the start of the blower without imposing a burden on the rotation of the fan 73. Can be suppressed.
Further, since air discharged as a swirling flow from the fan 73 can be efficiently applied to the wind receiving surface 81 of the buffer 80, rotation of the main body 2 that occurs when the blower is started can be further suppressed.

  In the first, second, and third illumination devices with an air cleaning function of the present invention, each buffer 80 is located on the virtual straight line b, and the wind receiving surface 81 of each buffer 80 is the virtual straight line. The end of the wind receiving surface 81 farther from the motor shaft 72 is at the front side in the rotational direction of the fan 73 than the end of the wind receiving surface 81 closer to the motor shaft 72. Can do.

  In this way, the air discharged as a swirling flow from the fan 73 hits the wind receiving surface 81 of the buffer 80 and then escapes from the buffer 80, so that the air hit the wind receiving surface 81 of the buffer 80. , And the rotation of the main body 2 that occurs at the start of the blowing can be suppressed without imposing a burden on the rotation of the fan 73.

  In the first, second, and third illumination devices with an air cleaning function of the present invention, each buffer 80 is located on the virtual straight line b, and the wind receiving surface 81 of each buffer 80 is the virtual straight line. The end of the wind receiving surface 81 farther from the motor shaft 72 is at the rear side in the rotational direction of the fan 73 than the end of the wind receiving surface 81 closer to the motor shaft 72. be able to.

In this way, air discharged as a swirling flow from the fan 73 can be efficiently applied to the wind receiving surface 81 of the buffer unit 80, and thus the rotation of the main body 2 that occurs when the blower is started can be further suppressed. it can.
In addition, since a large amount of upstream air having a fast flow velocity of air discharged as a swirling flow from the fan 73 can be applied to the wind receiving surface 81 of the buffer unit 80, the buffer unit 80 exerts a stronger force in the fan rotation direction on the main body 2. Can be added.

  In the first, second, and third lighting devices with an air cleaning function of the present invention, each of the buffer portions 80 has a part or all of the wind receiving surface 81 protruding toward the rotation direction of the fan 73. It can be made into a curved shape.

  In this way, the air discharged as the swirling flow from the fan 73 can be more efficiently applied to the air receiving surface 81 of the buffer 80, and thus the rotation of the main body 2 that occurs when the blower is started is further suppressed. Can do.

According to the lighting device with an air cleaning function of the present invention, the air discharged as the swirling flow from the fan 73 is applied to the wind receiving surface 81 of the buffer unit 80, so that the rotational force in the same direction as the rotation direction of the fan 73 is the main body. Therefore, the rotation in the direction opposite to the rotation direction of the fan 73 that occurs when the blower is started can be suppressed.
Therefore, since the load applied to the suspension member 3 and the wiring can be reduced, the life of each component can be extended.
Further, since the rotational force applied to each part of the main body 2 can be balanced, the main body 2 does not move in the horizontal direction, and a stable operation state can be maintained.

It is a whole front view of the illuminating device with an air purifying function. It is a top view of a main body. It is a longitudinal cross-sectional perspective view of a main body. It is AA sectional drawing of FIG. It is a longitudinal cross-sectional perspective view of the main-body part of an illuminating device. It is BB sectional drawing of FIG. It is explanatory drawing of a fin. It is explanatory drawing which shows 2nd Embodiment of a fin. It is explanatory drawing which shows 3rd Embodiment of a fin. It is explanatory drawing which shows 4th Embodiment of a fin. It is explanatory drawing which shows 5th Embodiment of a fin. It is explanatory drawing which shows 6th Embodiment of a fin. It is a perspective view which shows 2nd Embodiment of the illuminating device with an air purifying function. It is a perspective view which shows 3rd Embodiment of the illuminating device with an air purifying function.

An embodiment of a lighting device with an air cleaning function of the present invention will be described.
As shown in FIG. 1, the lighting device 1 with an air cleaning function includes a main body 2 and a suspension member 3 that suspends and installs the main body 2 on a ceiling 100.
The main body 2 is suspended and installed on the ceiling 100 by a suspension member 3 so as to be directly above a tabletop cooking device (not shown).
The suspension member 3 according to the embodiment includes a plurality of suspension wires 3 a coupled to the upper portion of the main body 2, for example, three suspension wires 3 a, and an upper portion of each suspension wire 3 a and a ceiling mounting member 3 b that is attached to the ceiling 100. doing.

As shown in FIGS. 2 and 3, the main body 2 has a substantially cylindrical shape with a circular outer peripheral surface.
The main body 2 has an air circulation part 4 inside. The air circulation section 4 is a filter provided in the air circulation direction between the intake port 4a opened at the lower portion of the main body 2, the exhaust port 4b opened at the upper portion of the main body 2, and the intake port 4a and the exhaust port 4b. The housing portion 4c and the blower housing portion 4d are provided.
The filter accommodating portion 4 c is provided near the air inlet 4 a of the air circulation portion 4. The lower part of the filter housing part 4c is continuous with the air inlet 4a.
The blower housing part 4 d is provided near the exhaust port 4 b of the air circulation part 4. The lower portion of the blower housing portion 4d is continuous with the upper portion of the filter housing portion 4c, and the upper portion of the blower housing portion 4d is continuous with the exhaust port 4b.

Details of the main body 2 will be described with reference to FIGS.
The main body 2 is provided continuously with a substantially cylindrical shade (umbrella) 10, a substantially cylindrical lower casing 20 provided near the lower part in the shade 10, and an upper part of the lower casing 20 near the upper part in the shade 10. In addition, a substantially cylindrical upper casing 30 and an upper cover portion 40 provided on the upper portion of the shade 10 so as to face the upper casing 30 in the vertical direction are provided.

The shade 10 includes a circular cylinder 11 having a lower diameter larger than the upper diameter, a ring-shaped illumination cover 12 having an outer periphery and a circular inner periphery provided near the lower portion of the inner peripheral surface of the cylinder 11, a cylinder An inner peripheral surface provided inwardly at the upper end periphery of the body 11 has a circular annular upper flange 13. That is, the shade 10 has a substantially cylindrical shape with an upper surface and a lower surface opened.
A lower portion than the illumination cover 12 on the inner peripheral surface of the cylindrical body 11 is an air inlet 4 a of the air circulation portion 4.

The lower casing 20 has a rectangular shape, a cylindrical body 21 having an outward mounting flange 21a having a circular outer peripheral surface at the lower peripheral edge thereof, an upper surface plate 22 provided inwardly on an upper peripheral edge of the cylindrical body 21, and a cylindrical body. The filter mounting plate 23 is provided with a circular outer peripheral surface that is detachably attached to the mounting flange 21a.
The diameter and height (vertical dimension) of the cylindrical body 21 of the lower casing 20 are smaller than the diameter and height (vertical dimension) of the cylindrical body 11 of the shade 10. As a result, an annular illumination mounting space 2 a is formed between the outer peripheral surface of the cylinder 21 of the lower casing 20 and the inner peripheral surface of the cylinder 11 of the shade 10.
The inside of the lower casing 20 is a filter housing part 4 c of the air circulation part 4. The filter housing portion 4c (inside the lower casing 20) communicates with a lower portion of the inner peripheral surface of the cylindrical body 11 of the shade 10 (the intake port 4a of the air circulation portion 4) through a circular mounting opening 23a of the filter mounting plate 23. ing.

The upper plate 22 of the lower casing 20 has an opening 22a for air circulation.
A porous plate 24 is attached to the lower surface of the upper surface plate 22, and the porous plate 24 covers the opening 22 a of the upper surface plate 22. That is, the hole 24a of the perforated plate 24 is an air outlet.
A filter stopper 25 is provided downward on the lower surface of the upper surface plate 22 closer to the outer periphery than the perforated plate 24.

The illumination cover 12 of the shade 10 is attached across the lower portion of the inner peripheral surface of the cylinder 11 of the shade 10 and the attachment flange 21a of the cylinder 21 of the lower casing 20.
Thereby, the lower part of the annular illumination mounting space 2a is covered with the illumination cover 12. The illumination cover 12 is made of a material that transmits light.

A lighting mounting member 50 is provided in the lighting mounting space 2a.
The illumination mounting member 50 according to the embodiment has a ring shape with a circular outer periphery and a rectangular inner periphery, and has an illumination mounting portion, for example, an annular downward concave portion 51 near the outer periphery. The illumination attachment member 50 has an inner peripheral portion attached to the outer peripheral surface of the cylindrical body 21 of the lower casing 20.
A downward recess 51 that is an illumination attachment portion of the illumination attachment member 50 is located above the illumination cover 12.

The upper casing 30 includes a circular cylindrical body 31, an inner peripheral surface provided toward the inner periphery at the lower peripheral edge of the cylindrical body 31, and an outer periphery provided outward at the upper peripheral edge of the cylindrical body 31. The surface has an upper flange 33 having a circular shape.
The upper flange 33 has a circular ring-shaped upward piece 33a.
The diameter and height (vertical dimension) of the cylindrical body 31 of the upper casing 30 are smaller than the diameter and height (vertical dimension) of the cylindrical body 11 of the shade 10.
The size of the inner peripheral surface of the lower flange 32 of the upper casing 30 is larger than the opening 22 a of the upper surface plate 22 of the lower casing 20.
The lower flange 32 of the upper casing 30 is in contact with the upper surface plate 22 of the lower casing 20, and the outer periphery of the upper flange 33 of the upper casing 30 is in contact with the lower surface periphery of the upper flange 13 of the shade 10. The upper flange 13 of the shade 10 and the upper piece 33a of the upper flange 33 of the upper casing 30 are substantially the same height.
The portion of the lower casing 20 that forms the opening 22 a of the upper surface plate 22 rises upward, and the portion that rises upward protrudes from the inner peripheral surface of the lower flange 32 of the upper casing 30 into the cylindrical body 31. Air flows through the lower casing 20 and the upper casing 30 through 24a.

The upper cover portion 40 has a substantially disk shape facing the cylindrical body 31 and the upper flange 33 of the upper casing 30, and forms a blower accommodating portion 4 d between the lower surface of the upper cover portion 40 and the upper casing 30.
An upper flange 33 of the upper casing 30 and a portion near the outer periphery of the upper cover portion 40 are spaced apart from each other in the vertical direction, and an exhaust port 4b that is continuous in the circumferential direction and that extends substantially horizontally is formed therebetween.
The upper cover portion 40 of the embodiment includes a circular lower surface plate 41, a circular annular plate 42 attached to the upper surface near the outer periphery of the lower surface plate 41, an inner cover 43 and an outer cover 44 provided on the upper surface near the center of the lower surface plate 41. It has.
The lower surface plate 41 is located above the cylindrical body 31 of the upper casing 30, and the plate 42 is located above the upper flange 33 of the upper casing 30.
The inner cover 43 and the outer cover 44 have cylinders 43 a and 44 a and upper surface plates 43 b and 44 b, and the cylinders 43 a and 44 a are detachably attached to the upper surface of the lower surface plate 41.

On the upper surface of the lower flange 32 of the upper casing 30, the lower end surfaces of the plurality of support members 34 are arranged in the up-down direction at intervals in the circumferential direction. The upper end surface of each support member 34 is in contact with the lower surface of the upper cover portion 40, for example, the lower surface of the lower surface plate 41. In the embodiment, the support member 34 is a rod in which screw holes are formed in the upper and lower portions, and has four at regular intervals in the circumferential direction.
Bolts 35 are inserted into holes (not shown) formed in the perforated plate 24, the upper plate 22 of the lower casing 20, and the lower flange 32 of the upper casing 30, and the bolts 35 are not shown (not shown) formed in the lower part of the support member 34. The lower plate of the perforated plate 24, the upper surface plate 22 of the lower casing 20, the lower flange 32 of the upper casing 30, and the lower end of the support member 34 are connected.
The bolts 36 are screwed into bolt holes (not shown) formed in the upper part of the support member 34 through holes (not shown) formed in the plate 42 and the lower face plate 41 of the upper cover 40, so that the plate 42, the lower face plate 41, and the support member The upper end of 34 is connected.
As a result, the lower casing 20 and the upper casing 30 are connected, and the upper casing 30 and the upper cover portion 40 are connected above the upper casing 30 with the upper cover portion 40 spaced apart in the vertical direction.

As shown in FIG. 5, the filter 60 is accommodated in the filter accommodating portion 4 c of the air circulation portion 4 of the main body 2.
In the embodiment, a grease filter (prefilter) 61 detachably attached to the attachment opening 23 a of the filter attachment plate 23 of the lower casing 20, a deoiling filter 62 provided on the upper surface of the filter attachment plate 23, A smoke removing filter 63 provided on the oil filter 62 and a deodorizing filter 64 provided on the smoke removing filter 63 are provided.
The grease filter 61 and the deoiling filter 62 have a circular outer peripheral surface, and the smoke removal filter 63 and the deodorizing filter 64 have a rectangular outer peripheral surface.

As shown in FIG. 5, the blower 70 is accommodated in the blower accommodating portion 4 d of the air circulation portion 4 of the main body 2.
The blower 70 has a motor 71 and a fan 73 attached to a motor shaft 72 rotated by the motor 71.
The motor 71 and the fan 73 of the blower 70 are accommodated in the blower accommodating portion 4d. The motor 71 is fixed to the upper cover portion 40, for example, the lower surface plate 41. Wiring (not shown) from the ceiling 100 is connected to the motor 71 through the inner cover 43, the holes 43 c and 44 c of the outer cover 44, and the hole 41 a of the lower surface plate 41.
The fan 73 is an axial fan, for example, a sirocco fan. When the fan 73 rotates, the fan 73 sucks air in the axial direction of the motor shaft 72 from the rotation center side of the fan 73 and discharges the sucked air to the outer peripheral side of the fan 73. . The discharged air is a swirling flow in the same direction as the rotation direction of the fan 73.
The suspension member 3 is connected to the upper cover portion 40. For example, the suspension wire 3 a is connected to the upper surface plate 44 b of the outer cover 44.

The fan 73 faces the opening 22 a of the upper surface plate 22 of the lower casing 20 on the rotation center side. The outer peripheral surface of the fan 73 faces the inner peripheral surface of the cylindrical body 31 of the upper casing 30, and an annular space 37 is formed between the outer peripheral surface of the fan 73 and the inner peripheral surface of the cylindrical body 31.
The annular space 37 communicates with the exhaust port 4b.

The blower 70 may be attached so that only the fan 73 is accommodated in the blower accommodating portion 4d.
For example, the motor 71 is attached to the upper surface of the lower surface plate 41 of the upper cover portion 40. The motor shaft 72 of the motor 71 passes through the lower surface plate 41 and protrudes into the blower housing portion 4d, and the fan 73 is attached to the motor shaft 72, so that only the fan 73 is housed in the blower housing portion 4d.

Thus, when the fan 73 rotates, air is discharged from the fan 73 as a swirling flow in the same direction as the rotation direction of the fan 73.
The air discharged from the fan 73 is exhausted from the exhaust port 4b in a direction perpendicular to the axial direction of the motor shaft 72, that is, in a direction perpendicular to the rotation center line by hitting the plate 42 of the upper cover portion 40.

The illumination fixture 52 is attached downward to the downward recess 51 of the illumination attachment member 50.
In the embodiment, a plurality of light emitting diodes are provided as the lighting tool 52 at intervals in the circumferential direction.
The illumination tool 52 is not limited to a light emitting diode, and a fluorescent lamp, a light bulb, or the like can be used.

Since it is like this, the lower part of the main body 2 can be illuminated through the illumination cover 12 by turning on the illumination tool 52.
Further, when the blower 70 is driven, the air below the shade 10 is sucked from the intake port 4a. The sucked air is purified by passing through the filter 60.
The purified air passes through the annular space 37 and is exhausted to the outside of the main body 2 from the exhaust port 4b in a substantially horizontal direction.
Thereby, it becomes an illuminating device with an air purifying function.

In the embodiment, the main body 2 is provided with a controller (not shown) that controls the operation of the motor 71, the illumination tool 52, and the like. For example, a controller is provided in the illumination mounting space 2 a of the main body 2.
A control signal is sent to the controller from a remote controller (not shown). The controller performs rotation and stop of the motor 71 and lighting and extinguishing of the lighting tool 52 based on the sent control signal.
The operation switch and the controller may be connected by wire without using the remote controller.

By energizing the motor 71 of the blower 70, the main body 2 is in a direction opposite to the rotation direction of the fan 73 due to the inertial force of the fan 73 or the like when the blower is started until the fan 73 is in the steady rotation state from the stopped state. That is, since it rotates in the opposite direction, the main body 2 may rotate in the direction opposite to the rotation direction of the fan 73 when the blower is started.
As a result, a load is applied to the suspension member 3 for suspending and installing the main body 2 from the ceiling 100, and wiring (not shown) from the ceiling 100 to the main body 2, and the life of the suspension member 3 and the wiring is short and the durability is inferior. .

  The lighting device with an air purifying function of the present invention includes a buffer unit 80 that receives air discharged from the fan 73 of the blower 70 as a swirling flow in the same direction as the fan rotation direction. The air discharged as a swirling flow from the fan 73 when the blower 70 is started hits the wind receiving surface 81 of the buffer 80 so that a rotational force in the same direction as the fan rotation direction is applied to the main body 2 when the blower is started. ing.

  As a result, the rotation of the main body 2 in the direction opposite to the fan rotation direction caused by the inertial force of the fan 73 when the blower 70 is started can be suppressed. Can be achieved.

  In the embodiment, as shown in FIG. 5 and FIG. 6, the air is discharged from the fan 73 as a swirling flow with the fin 82 closer to the outer periphery than the outer peripheral surface of the fan 73 on the lower surface of the upper cover portion 40, for example, the lower surface of the plate 42. Is provided toward the upper flange 33 of the upper casing 30 such that the fin 82 serves as a buffer portion 80.

As shown in FIG. 7, the fin 82 has a fan 73 on an imaginary circle “a” centered on the axis of the motor shaft 72 on the surface orthogonal to the motor shaft 72 of the motor 71 (the lower surface of the plate 42), that is, the motor shaft center 72a. Are provided at equal intervals in the rotation direction (that is, in the circumferential direction).
As shown in FIG. 5, the fin 82 is provided at a position above the motor shaft 72. However, the fin 82 may be provided at the same height as the motor shaft 72. May be provided at a lower position.

By providing the fins 82 in this way, the air discharged as a swirling flow in the same direction as the rotation direction of the fan 73 from the fan 73 uniformly hits the fins 82, and a plurality of pieces in the circumferential direction of the plate 42 (main body 2). When the rotational force in the same direction as the fan rotational direction is evenly applied to the part (part provided with the fins 82), the rotational force is balanced.
Therefore, the main body 2 installed in a suspended manner does not move in the horizontal direction, and the lighting device 1 can be operated while maintaining a stable state.

The fins 82 (buffer portions 80) shown in FIGS. 5 and 6 are on an imaginary straight line b orthogonal to the motor shaft 72 passing through the motor shaft center 72a, as shown in FIG.
One side surface 82a to which the air of the fin 82 hits, that is, the wind receiving surface 81 of the buffer portion 80 is parallel to a virtual straight line b orthogonal to the motor shaft 72 passing through the motor shaft center 72a.

Thus, the air discharged from the fan 73 as a swirling flow hits one side 82a of the fin 82 and then flows smoothly along the one side 82a. The air stays in the vicinity of the fin 82. Since the pressure decreases, the pressure is small, and the rotation of the main body 2 that occurs when the blower is started can be suppressed without imposing a burden on the rotation of the fan 73.
In addition, since the air discharged as the swirl flow can efficiently hit the one side surface 82a of the fin 82, the rotation of the main body 2 that occurs when the blower is started can be further suppressed.

As shown in FIG. 8, the fin 82 (buffer portion 80) may be provided such that one side 82 a of the fin 82 is not parallel to the virtual straight line b and the one side 82 a has an angle θ with the virtual straight line b.
That is, the angle θ is set so that the end portion 82a-1 far from the motor shaft 72 of the one side surface 82a of the fin 82 is more forward in the rotational direction of the fan 73 than the end portion 82a-2 closer to the motor shaft 72. You may provide so that it may have.
In addition, it is preferable that angle (theta) which the virtual straight line b orthogonal to the motor shaft 72 passing through the motor shaft center 72a and the one side surface 82a of the fin 82 (wind receiving surface 81 of the buffer part 80) make is 45 degrees or less.

  In this way, the air discharged as a swirling flow that hits one side surface 82a of the fin 82 is less retained in the vicinity of the fin 82 and escapes along the one side surface 82a. The rotation of the main body 2 that occurs at the time of starting the blower can be suppressed without applying a load.

As shown in FIG. 9, one side 82 a of the fin 82 is not parallel to the imaginary straight line b, and the end 82 a-1 far from the motor shaft 72 of the one side 82 a of the fin 82 is the end closer to the motor shaft 72. The one side surface 82a of the fin 82 and the imaginary straight line b may have an angle θ so as to be rearward in the rotational direction of the fan 73 relative to the portion 82a-2.
In addition, it is preferable that angle (theta) which the virtual straight line b orthogonal to the motor shaft 72 which passes along the motor shaft center 72a and the one side surface 82a of the fin 82 make is 45 degrees or less.

In this way, the air discharged from the fan 73 and discharged as a swirling flow can be efficiently applied to the one side surface 82a of the fin 82, so that the rotation of the main body 2 occurring when the blower is started can be further suppressed. it can.
In addition, since a large amount of upstream air having a high flow velocity of air discharged as a swirling flow can be applied to the fins 82, a strong force in the same direction as the fan rotation direction can be applied to the main body 2 by the fins 82.

The fin 82 may have a curved shape such that one side surface 82a is not a straight surface in the direction along the virtual straight line b but is convex toward the rotational direction of the fan 73 as shown in FIG.
That is, as shown in FIG. 10, the intermediate portion 82a-3 between the end portion 82a-1 far from the fan 73 on the one side surface 82a of the fin 82 and the end portion 82a-2 closer to the fan 73 is the end. The curved shape is shifted in position toward the front in the rotational direction of the fan 73 relative to the portion 82a-1 and the end portion 82a-2.
The entire direction along the imaginary straight line b of the side surface 82a of the fin 82 may be curved, but a part of the direction along the imaginary straight line b of the one side surface 82a of the fin 82 is curved, and the rest is virtual. It is good also as a straight surface along the straight line b.

  In this way, since the air discharged as the swirling flow from the fan 73 can be more efficiently given to the one side surface 82a of the fin 82, the rotation of the main body 2 that occurs when the blower is started can be further suppressed. .

In each of the embodiments described above, the fins 82 are provided on the virtual circle a at equal intervals in the rotational direction, but the present invention is not limited to this.
As shown in FIG. 11, a plurality of fins 82 are provided on one side a-1 and the other side a-2 with a motor shaft center 72a on a virtual circle a having a motor shaft center 72a as a fulcrum. You may provide symmetrically about the center 72a.
For example, the first, second, and third fins 82-1, 82-2, and 83-3 are provided on one side a-1 of the virtual circle a. The fourth, fifth and sixth fins 82-4, 82-5 and 82-6 are provided on the other side a-2 of the virtual circle a.
The first fin 82-1 and the fourth fin 82-4, the second fin 82-2 and the fifth fin 82-5, the third fin 82-3 and the sixth fin 82-6 with respect to the motor shaft center 72a, respectively. Point symmetry.

  In this way, the rotational force applied to the main body 2 is balanced, and the main body 2 installed in a suspended manner does not move in the horizontal direction, and the lighting device 1 can be operated while maintaining a stable state. .

The fin 82 shown in FIG. 11 is parallel to the imaginary straight line b whose one side 82a passes through the motor shaft center 72a and is orthogonal to the motor shaft 72, but is not limited thereto.
As for the fin 82, the one side surface 82a of the fin 82 and the virtual straight line b may have an angle similarly to the fin 82 shown in FIG.
Further, the fin 82 may be configured such that one side surface 82a of the fin 82 and the virtual straight line b have an angle similarly to the fin 82 shown in FIG.
Moreover, the fin 82 is good also as what the one side 82a of the fin 82 is curving similarly to the fin 82 shown in FIG.

As shown in FIG. 12, a fin assembly 82A composed of a plurality of fins 82 (that is, a buffer section assembly composed of a plurality of buffer sections 80) is provided at a plurality of positions on a virtual circle a centered on the motor shaft center 72a. Provide each. For example, three fin assemblies 82A are provided.
In each fin assembly 82A, the intervals (intervals in the rotation direction) c of the fins 82 are equal, and the intervals (intervals in the rotation direction) d of the fin assemblies 82A are equal.
The interval c between the fins 82 in the fin assembly 82A is smaller than the interval d between the fin assemblies 82A.

  In this way, the rotational force applied to the main body 12 is balanced, and the main body 2 installed in a suspended manner does not move in the horizontal direction, and the lighting device does not operate in a stable state.

The one side 82a of the fin 82 shown in FIG. 12 is parallel to the imaginary straight line b, but is not limited thereto.
In the fin 82, as in the fin 82 shown in FIG. 8, one side surface 82a of the fin 82 and the virtual straight line b may have an angle.
Moreover, as for the fin 82, the one side surface 82a of the fin 82 and the virtual straight line b may have an angle similarly to the fin 82 shown in FIG.
Moreover, the fin 82 is good also as what the one side 82a of the fin 82 is curving similarly to the fin 82 shown in FIG.

In each of the above-described embodiments, the fin 82 is provided downward on the lower surface of the plate 42, which is the lower surface of the upper cover portion 40 of the main body 2, and the fin 82 protrudes from the exhaust port 4b of the air circulation portion 4. There is nothing.
For example, as shown in FIG. 13 or FIG. 14, fins 82 (buffer portions 80) may be provided closer to the downstream side in the exhaust direction than the exhaust port 4 b of the main body 2.

As shown in FIG. 13, the upper cover portion 40 has a cylindrical shape with a lower surface opened by a circular cylindrical body 45 and an upper surface plate 46.
The upper cover portion 40 is attached to the shade 10 by attaching the lower end periphery of the cylindrical body 45 along the inner peripheral surface of the upper flange 13 of the shade 10.
By forming the exhaust port 4b in the cylindrical body 45, the air discharged as a swirling flow from the fan 73 is exhausted from the exhaust port 4 into the room as a swirling flow.

  A plurality of fins 82 are attached radially to the cylindrical body 45 of the upper cover portion 40 at intervals in the circumferential direction so that the air flowing as a swirling flow exhausted from the exhaust port 4b hits the fins 82. The rotational force in the same direction as the rotational direction of the fan 73 is applied to the fan.

The suspension member 3 in FIG. 13 is a single girder 3c.
Reference numeral 5 in FIG. 13 is a wiring.

As shown in FIG. 14, the upper cover portion 40 has a cylindrical shape with a lower surface opened by a circular cylindrical body 45 and an upper surface plate 46.
The upper cover portion 40 is attached to the shade 10 by attaching the lower end periphery of the cylindrical body 45 along the inner peripheral surface of the upper flange 13 of the shade 10.
By forming the exhaust port 4b in the upper flange 13 of the shade 10, air discharged as a swirling flow from the fan 73 is exhausted into the room from the exhaust port 4b as a swirling flow.

  A plurality of fins 82 are attached radially to the cylindrical body 45 of the upper cover portion 40 at intervals in the circumferential direction so that the air flowing as a swirling flow exhausted from the exhaust port 4b hits the fins 82. The rotational force in the same direction as the rotational direction of the fan 73 is applied to the fan.

  The fins 82 shown in FIGS. 13 and 14 can be similar to the fins 82 shown in FIGS.

  In the fins 82 of each embodiment, the one side surface 82a is a vertical surface in the vertical direction, but may be an inclined surface that is inclined in the rotational direction of the fan 73 instead of the vertical surface.

  DESCRIPTION OF SYMBOLS 2 ... Main body, 3 ... Suspension member, 4 ... Air distribution part, 4a ... Intake port, 4b ... Exhaust port, 4c ... Filter accommodation part, 4d ... Blower accommodation part, 10 ... Shade, 20 ... Lower casing, 30 ... Upper casing , 40 ... upper cover part, 50 ... lighting fixture mounting member, 52 ... lighting fixture, 60 ... filter, 70 ... blower, 71 ... motor, 72 ... motor shaft, 73 ... fan, 80 ... buffer part, 81 ... wind receiving surface , 82 ... fins, 82a ... one side surface, 82A ... fin assembly (buffer assembly).

Claims (7)

A main body 2 and a suspension member 3 for suspending the main body 2 from the ceiling 100;
The main body 2 is provided with a filter 60 for purifying air and a blower 70 for rotating a fan 73 with a motor 71. The rotation of the fan 73 sucks air into the main body 2 and purifies the sucked air through the filter 60. , The purified air is exhausted from the main body 2,
It is an illuminating device with an air purifying function in which an illumination tool 52 is provided in the main body 2,
The fan 73 discharges air as a swirling flow in the same direction as the rotation direction of the fan 73, and a plurality of buffer portions 80 having a wind receiving surface 81 that receives the air discharged from the fan 73 are provided in the main body 2. Provided,
The buffer portions 80 are provided at equal intervals in the circumferential direction along a virtual circle a on a plane orthogonal to the motor shaft 72 centering on the motor shaft center 72a of the motor 71. Lighting device with air cleaning function. A main body 2 and a suspension member 3 for suspending the main body 2 from the ceiling 100;
The main body 2 is provided with a filter 60 for purifying air and a blower 70 for rotating a fan 73 with a motor 71. The rotation of the fan 73 sucks air into the main body 2 and purifies the sucked air through the filter 60. , The purified air is exhausted from the main body 2,
It is an illuminating device with an air purifying function in which an illumination tool 52 is provided in the main body 2,
The fan 73 discharges air as a swirling flow in the same direction as the rotation direction of the fan 73, and a plurality of buffer portions 80 having a wind receiving surface 81 that receives the air discharged from the fan 73 are provided in the main body 2. Provided,
Each said buffer part 80 is provided with point symmetry with respect to the motor shaft center 72a of the said motor 71, The illuminating device with an air purifying function characterized by the above-mentioned. A main body 2 and a suspension member 3 for suspending the main body 2 from the ceiling 100;
The main body 2 is provided with a filter 60 for purifying air and a blower 70 for rotating a fan 73 with a motor 71. The rotation of the fan 73 sucks air into the main body 2 and purifies the sucked air through the filter 60. , The purified air is exhausted from the main body 2,
It is an illuminating device with an air purifying function in which an illumination tool 52 is provided in the main body 2,
A plurality of buffer portions 80 each having a wind receiving surface 81 that discharges air from the fan 73 and discharges air as a swirling flow in the same direction as the rotation direction of the fan 73 and receives the air discharged from the fan 73 are provided on the main body 2. Provided in
The buffer portion 80 is circumferentially arranged as a buffer portion aggregate composed of two or more buffer portions 80 on a virtual circle a on a plane orthogonal to the motor shaft 72 centered on the motor shaft center 72a of the motor 71. Are provided at intervals,
The interval between the buffer portions 80 in each buffer portion assembly is equal, and the interval between the buffer portion assemblies is equal,
The lighting device with an air cleaning function, wherein the interval between the buffer unit assemblies is larger than the interval between the buffer units 80.   Each said buffer part 80 is located on the virtual straight line b orthogonal to the motor shaft 72 which passes along the motor shaft center 72a, and the wind-receiving surface 81 of each buffer part 80 is parallel to the said virtual straight line b. Or the illuminating device with an air purifying function of 3.   Each buffer 80 is located on the virtual straight line b, and the wind receiving surface 81 of each buffer 80 has an angle with respect to the virtual straight line b, and is farther from the motor shaft 72 of the wind receiving surface 81. The lighting device with an air purifying function according to claim 1, 2 or 3, wherein the end portion is on the front side in the rotational direction of the fan 73 relative to the end portion of the wind receiving surface 81 closer to the motor shaft 72.   Each buffer 80 is located on the virtual straight line b, and the wind receiving surface 81 of each buffer 80 has an angle with respect to the virtual straight line b, and is farther from the motor shaft 72 of the wind receiving surface 81. The lighting device with an air cleaning function according to claim 1, 2 or 3, wherein the end portion is on the rear side in the rotational direction of the fan 73 relative to the end portion of the wind receiving surface 81 closer to the motor shaft 72.   The air according to any one of claims 1 to 3, 5 and 6, wherein each of the buffer portions 80 has a curved shape so that a part or all of the wind receiving surface 81 is convex toward the rotation direction of the fan 73. Lighting device with clean function.

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