WO2022001978A1 - 风扇灯 - Google Patents
风扇灯 Download PDFInfo
- Publication number
- WO2022001978A1 WO2022001978A1 PCT/CN2021/102823 CN2021102823W WO2022001978A1 WO 2022001978 A1 WO2022001978 A1 WO 2022001978A1 CN 2021102823 W CN2021102823 W CN 2021102823W WO 2022001978 A1 WO2022001978 A1 WO 2022001978A1
- Authority
- WO
- WIPO (PCT)
- Prior art keywords
- light
- light source
- assembly
- module
- fan
- Prior art date
Links
- 239000000725 suspension Substances 0.000 claims abstract description 7
- 238000009434 installation Methods 0.000 claims description 20
- 230000003287 optical effect Effects 0.000 claims description 17
- 239000000758 substrate Substances 0.000 claims 1
- 230000000694 effects Effects 0.000 abstract description 28
- 238000010586 diagram Methods 0.000 description 7
- 238000000034 method Methods 0.000 description 6
- 238000007664 blowing Methods 0.000 description 5
- 230000009471 action Effects 0.000 description 4
- 230000009286 beneficial effect Effects 0.000 description 4
- 238000005516 engineering process Methods 0.000 description 3
- 238000012423 maintenance Methods 0.000 description 3
- 238000012545 processing Methods 0.000 description 3
- 230000008901 benefit Effects 0.000 description 2
- 230000005540 biological transmission Effects 0.000 description 2
- 230000008859 change Effects 0.000 description 2
- 238000005034 decoration Methods 0.000 description 2
- 238000013461 design Methods 0.000 description 2
- 230000004313 glare Effects 0.000 description 2
- 230000017525 heat dissipation Effects 0.000 description 2
- 230000004048 modification Effects 0.000 description 2
- 238000012986 modification Methods 0.000 description 2
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- 238000013459 approach Methods 0.000 description 1
- 230000003139 buffering effect Effects 0.000 description 1
- 230000008094 contradictory effect Effects 0.000 description 1
- 238000001816 cooling Methods 0.000 description 1
- 239000000428 dust Substances 0.000 description 1
- 230000002708 enhancing effect Effects 0.000 description 1
- 230000002349 favourable effect Effects 0.000 description 1
- 230000005484 gravity Effects 0.000 description 1
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- 230000008569 process Effects 0.000 description 1
- 238000007789 sealing Methods 0.000 description 1
- 230000000007 visual effect Effects 0.000 description 1
- 239000002699 waste material Substances 0.000 description 1
Images
Classifications
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F04—POSITIVE - DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS FOR LIQUIDS OR ELASTIC FLUIDS
- F04D—NON-POSITIVE-DISPLACEMENT PUMPS
- F04D25/00—Pumping installations or systems
- F04D25/02—Units comprising pumps and their driving means
- F04D25/08—Units comprising pumps and their driving means the working fluid being air, e.g. for ventilation
- F04D25/088—Ceiling fans
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F21—LIGHTING
- F21V—FUNCTIONAL FEATURES OR DETAILS OF LIGHTING DEVICES OR SYSTEMS THEREOF; STRUCTURAL COMBINATIONS OF LIGHTING DEVICES WITH OTHER ARTICLES, NOT OTHERWISE PROVIDED FOR
- F21V33/00—Structural combinations of lighting devices with other articles, not otherwise provided for
- F21V33/0088—Ventilating systems
- F21V33/0096—Fans, e.g. ceiling fans
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F04—POSITIVE - DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS FOR LIQUIDS OR ELASTIC FLUIDS
- F04D—NON-POSITIVE-DISPLACEMENT PUMPS
- F04D19/00—Axial-flow pumps
- F04D19/002—Axial flow fans
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F04—POSITIVE - DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS FOR LIQUIDS OR ELASTIC FLUIDS
- F04D—NON-POSITIVE-DISPLACEMENT PUMPS
- F04D25/00—Pumping installations or systems
- F04D25/02—Units comprising pumps and their driving means
- F04D25/06—Units comprising pumps and their driving means the pump being electrically driven
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F04—POSITIVE - DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS FOR LIQUIDS OR ELASTIC FLUIDS
- F04D—NON-POSITIVE-DISPLACEMENT PUMPS
- F04D29/00—Details, component parts, or accessories
- F04D29/002—Details, component parts, or accessories especially adapted for elastic fluid pumps
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F04—POSITIVE - DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS FOR LIQUIDS OR ELASTIC FLUIDS
- F04D—NON-POSITIVE-DISPLACEMENT PUMPS
- F04D29/00—Details, component parts, or accessories
- F04D29/005—Decorative aspects, i.e. features which have no effect on the functioning of the pump
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F04—POSITIVE - DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS FOR LIQUIDS OR ELASTIC FLUIDS
- F04D—NON-POSITIVE-DISPLACEMENT PUMPS
- F04D29/00—Details, component parts, or accessories
- F04D29/26—Rotors specially for elastic fluids
- F04D29/32—Rotors specially for elastic fluids for axial flow pumps
- F04D29/34—Blade mountings
- F04D29/36—Blade mountings adjustable
- F04D29/362—Blade mountings adjustable during rotation
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F21—LIGHTING
- F21S—NON-PORTABLE LIGHTING DEVICES; SYSTEMS THEREOF; VEHICLE LIGHTING DEVICES SPECIALLY ADAPTED FOR VEHICLE EXTERIORS
- F21S8/00—Lighting devices intended for fixed installation
- F21S8/04—Lighting devices intended for fixed installation intended only for mounting on a ceiling or the like overhead structures
- F21S8/06—Lighting devices intended for fixed installation intended only for mounting on a ceiling or the like overhead structures by suspension
- F21S8/063—Lighting devices intended for fixed installation intended only for mounting on a ceiling or the like overhead structures by suspension with a rigid pendant, i.e. a pipe or rod
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F21—LIGHTING
- F21V—FUNCTIONAL FEATURES OR DETAILS OF LIGHTING DEVICES OR SYSTEMS THEREOF; STRUCTURAL COMBINATIONS OF LIGHTING DEVICES WITH OTHER ARTICLES, NOT OTHERWISE PROVIDED FOR
- F21V5/00—Refractors for light sources
- F21V5/04—Refractors for light sources of lens shape
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F21—LIGHTING
- F21Y—INDEXING SCHEME ASSOCIATED WITH SUBCLASSES F21K, F21L, F21S and F21V, RELATING TO THE FORM OR THE KIND OF THE LIGHT SOURCES OR OF THE COLOUR OF THE LIGHT EMITTED
- F21Y2113/00—Combination of light sources
Definitions
- the present application relates to the technical field of lighting lamps, and in particular, to a fan lamp.
- the fan lamp is a common household appliance, which is a combination of a fan and a lamp.
- the fan and the lamp can be controlled by a switch, so that the fan lamp has both the effect of lighting and the effect of blowing the fan.
- the commercially available fan lights are improved from traditional fans.
- lighting fixtures are stacked.
- the light emitted by the lighting fixtures has a large light-emitting angle, so the final effect is a large-scale lighting effect.
- This lighting effect The lighting effect of the fan lamp is not good because the user's demand for lighting key areas cannot be met.
- the present application discloses a fan lamp, which can solve the problem of poor lighting effect of the fan lamp.
- a fan lamp includes a ceiling assembly, a suspension rod, a blade assembly, a light source assembly and a driver, the ceiling assembly is connected with the blade assembly through the suspension rod, the light source assembly is connected with the blade assembly, and The light source assembly is located on the side of the blade assembly away from the ceiling assembly, the driver is mounted on the ceiling assembly or the light source assembly, and the driver is connected to the blade assembly and the light source assembly. at least one of the electrical connections,
- the light source assembly includes a chassis and a directional lighting module, and the directional lighting module is mounted on the chassis.
- the light source assembly includes a directional lighting module, which can perform directional lighting on key areas, and the user can control the working state of the directional lighting module according to actual needs to meet their own lighting needs. It can be seen that the fan light can perform directional lighting on key areas, so that the lighting effect of the fan light is better.
- FIG. 1 is a schematic structural diagram of a fan lamp disclosed in an embodiment of the application.
- FIG. 2 is a schematic diagram of a partial structure of a fan lamp disclosed in an embodiment of the application.
- FIG. 3 is an exploded view of a fan lamp disclosed in an embodiment of the application.
- FIG. 4 is a cross-sectional view of a fan lamp disclosed in an embodiment of the application.
- FIG. 5 is a schematic structural diagram of the fan lamp disclosed in the embodiment of the application when the telescopic blades are unfolded;
- Fig. 6 is the top view of Fig. 5;
- FIG. 7 is a schematic structural diagram of a drive motor disclosed in an embodiment of the application.
- FIG. 8 is an exploded view of a drive motor disclosed in an embodiment of the application.
- FIG. 9 is a schematic structural diagram of a fan lamp disclosed in another embodiment of the present application.
- Figure 10 is an exploded view of the fan lamp shown in Figure 9;
- Figure 11 is a cross-sectional view of the fan lamp shown in Figure 9;
- FIG. 12 is a schematic structural diagram of a fan lamp disclosed in still another embodiment of the present application.
- FIG. 13 is a schematic structural diagram of the fan light shown in FIG. 12 from another viewing angle
- Figure 14 is an exploded view of the fan light shown in Figure 12;
- FIG. 15 is another exploded view of the fan light shown in FIG. 12 .
- 300-blade assembly 310-base plate, 320-expandable blade, 330-drive motor, 331-chassis, 331a-upper cover, 331b-lower cover, 332-stator module, 333-rotor module, 334-first Bearing, 335-second bearing, 340-synchronizing piece, 341-chute, 350-mounting seat, 360-torsion spring, 370-motor cover, 371-third perforation, 380-connecting piece, 381-positioning plate, 382 - cylindrical body;
- 400-light source assembly 410-chassis, 420-light source board, 430-translucent mask, 440-light-emitting module, 450-installation plate, 460-decorative ring, 470-directional lighting module, 471-first light source board, 472 -First light-emitting module, 472a-first light-emitting unit, 472b-first light distribution element, 473-anti-glare mask, 480-flood lighting module, 481-second light source board, 482-second light-emitting module, 483-even light mask, 490-face frame, 491-first accommodating hole, 492-second accommodating hole;
- an embodiment of the present application discloses a fan lamp, which includes a ceiling assembly 100 , a suspension rod 200 , a blade assembly 300 , a light source assembly 400 and a driver 500 .
- the ceiling assembly 100 is used to realize the connection between the fan light and the installation base (eg, the roof), so as to realize the installation of the fan light.
- the boom 200 can realize the connection between the blade assembly 300 and the ceiling assembly 100 , that is, the length of the boom 200 can be flexibly set.
- the boom 200 can adopt a multi-section structure, so that the user can adjust the boom according to their own needs. 200 in length, thereby changing the installation height of the fan light.
- the blade assembly 300 can implement a blowing function, and the light source assembly 400 can perform lighting, thereby making the fan lamp more functional.
- the driver 500 can supply power to the blade assembly 300 and the light source assembly 400, thereby ensuring reliable operation of the blade assembly 300 and the light source assembly 400.
- the blade assembly 300 includes a base plate 310, a telescopic blade 320 and a driving motor 330.
- the telescopic blade 320 is rotatably mounted on the base plate 310, and the driving motor 330 is connected with the base plate 310, so the driving motor 330 can drive the base plate 310 to rotate, and the telescopic blade 320 is driven by centrifugal force. It rotates relative to the base plate 310 under the action, so as to realize the expansion and retraction of the telescopic blade 320 .
- the diameter R1 of the fan light when the telescopic blade 320 is retracted, the diameter R1 of the fan light may be 420-480 mm; when the telescopic blade 320 is unfolded, the diameter R2 of the fan light may be 900-1200 mm.
- the number of the telescopic blades 320 may be at least two, each of the telescopic blades 320 may be arranged along the circumferential direction of the base plate 310 , and each of the telescopic blades 320 may be unfolded or retracted synchronously, as the number of the telescopic blades 320 continues to increase , the cooling effect of the fan lamp is better.
- the ceiling assembly 100 is connected to the blade assembly 300 through the boom 200 .
- one end of the boom 200 is connected to the ceiling assembly 100
- the other end of the boom 200 is connected to the first end of the drive motor 330 .
- the light source assembly 400 is connected to the blade assembly 300 , specifically, the light source assembly 400 is connected to the second end of the driving motor 330 , and the light source assembly 400 is located on the side of the blade assembly 300 away from the ceiling assembly 100 .
- the blade assembly 300 and the light source assembly 400 are connected by the driving motor 330, and no additional connecting structure is required to connect the blade assembly 300 and the light source assembly 400 together. Therefore, the fan lamp contains fewer parts and components. The entire fan light is more compact and takes up less space.
- the driver 500 is installed on the ceiling assembly 100, the blade assembly 300 or the light source assembly 400, that is, the driver 500 can be installed using the structure of the ceiling assembly 100, the blade assembly 300 or the light source assembly 400, so that the additional space occupied by the driver 500 is smaller, and even No additional space is occupied, thereby making the structure of the fan light more compact.
- the driver 500 is electrically connected to at least one of the blade assembly 300 and the light source assembly 400 , so as to realize the driving of at least one of the blade assembly 300 and the light source assembly 400 .
- the driver 500 is electrically connected to the light source assembly 400, the light source assembly 400 can be driven to emit light, thereby realizing the lighting function of the fan lamp.
- the telescopic blade 320 can be driven to expand, and at the same time, the entire blade assembly 300 can be driven to rotate, thereby realizing the blowing function of the fan lamp.
- the blade assembly 300 can be driven to rotate and the light source assembly 400 to emit light at the same time, thereby simultaneously realizing the blowing and lighting functions of the fan lamp.
- the driver 500 may be configured to be electrically connected to the driving motor 330 and the light source assembly 400 at the same time.
- the driver 500 is electrically connected to the driving motor 330 through the first electrical connector 810
- the driver 500 is electrically connected to the light source assembly 400 through the second electrical connector 820 .
- the driver 500 can be connected to the market through the mains connector 830 .
- the first electrical connector 810 , the second electrical connector 820 and the mains connector 830 here can all select wires.
- the driver 500 can be integrated, and the same driver 500 can supply power to the driving motor 330 and the light source assembly 400 at the same time, and the required number of drivers 500 is naturally reduced.
- the driver 500 can be set as one, and when the power consumption of the fan lamp is relatively large, two or more drivers 500 can also be set, and each driver 500 is configured to drive the motor 330 and the light source assembly at the same time. 400 electrical connections.
- the driving motor 330 of the blade assembly 300 and the light source assembly 400 may be electrically connected to the same driver 500, so that the blade assembly 300 and the light source assembly 400 may be driven by the same driver 500, compared to the same driver 500.
- the number of components of the fan lamp disclosed in the embodiments of the present application is reduced, so the fan lamp occupies a smaller space and facilitates the transportation of the fan lamp.
- the ceiling assembly 100 includes a ceiling box 110 , the ceiling box 110 has an installation cavity 111 , and the driver 500 is installed in the installation cavity 111 .
- the driver 500 is installed by using the installation cavity 111 in the ceiling box 110, and the driver 500 basically does not occupy additional space, thereby making the structure of the fan lamp more compact.
- the ceiling assembly 100 further includes a hanger 120 installed in the installation cavity 111 , the hanger 120 is installed in the installation cavity 111 , the ceiling box 110 is fixedly connected with the hanger 120 , and the ceiling box 110 can pass through the hanger 120 .
- 120 is installed to the installed base.
- the hanger 120 can adopt a U-shaped structure, the hanger 120 is provided with a connecting part 121, the connecting part 121 has a connecting hole and a first spherical surface, the hanger 200 has a second spherical surface, one end of the hanger 200 passes through the connecting hole, and the first The spherical surface is in contact with the second spherical surface, and through the cooperation of the first spherical surface and the second spherical surface, the position of the boom 200 relative to the hanger 120 can be changed, thereby facilitating the installation of the fan light.
- the driver 500 is installed between the side surface of the hanger 120 and the inner wall of the ceiling box 110 . That is to say, there is an interval between the side surface of the hanger 120 and the inner wall of the ceiling box 110 , and the driver 500 can be arranged by using the interval, so that the driver 500 can be installed by taking full advantage of the installation cavity in the ceiling box 110 , so that the structure of the fan lamp is more compact.
- the drive motor 330 may include a casing 331, a stator module 332, a rotor module 333, a first bearing 334 and a second bearing 335, and the casing 331 may include an upper cover 331a and a lower cover 331b, both of which are detachable After the connection, a space for accommodating the stator module 332 and the rotor module 333 is formed.
- the stator module 332 is matched with the upper cover 331 a through the first bearing 334 , and is matched with the lower cover 331 b through the second bearing 335 .
- the outer diameter R3 of the driving motor 330 may be 110-130 mm, preferably about 120 mm, and the height h may be 40-50 mm, preferably about 45 mm, the structure of the driving motor 330 is more compact , which takes up less space.
- Both ends of the stator module 332 are respectively connected to the hanger rod 200 and the light source assembly 400 , the rotor module 333 is connected to the casing 331 , and the casing 331 is connected to the base plate 310 .
- the driving motor 330 When the driving motor 330 is energized, a force is generated between the stator module 332 and the rotor module 333, the stator module 332 is fixed, and the rotor module 333 can rotate relative to the stator module 332, thereby driving the casing 331 to rotate, The casing 331 then drives the base plate 310 to rotate, thereby realizing the expansion of the telescopic blades 320 .
- the base plate 310 is driven to rotate by the casing 331 , the casing 331 is more stable when rotating, and has a stronger ability to bear the force. Therefore, the drive motor 330 has a higher transmission efficiency and a longer service life.
- the stator module 332 is provided with a first through hole
- the suspension rod 200 is provided with a second through hole
- the first electrical connector 810 passes through the second through hole, and is electrically connected to the stator module 332 and the rotor module 333
- the second electrical connector 820 passes through the second through hole and the first through hole in sequence, and is electrically connected to the light source assembly 400 .
- the stator module 332 and the hanger rod 200 can avoid the first electrical connector 810 and the second electrical connector 820, so as to facilitate the electrical connection of the driver 500 with the drive motor 330 and the light source assembly 400; , the first through holes and the second through holes can properly limit the positions of the first electrical connector 810 and the second electrical connector 820, so that the first electrical connector 810 and the second electrical connector 820 are not easy to interfere with other components, so that the fan Lights operate more reliably.
- the blade assembly 300 may further include a motor cover 370 , the motor cover 370 is covered outside the casing 331 , and the motor cover 370 may cover the driving motor 330 so as to protect the driving motor 330 .
- the blade assembly 300 may further include a connecting piece 380 , the connecting piece 380 is connected with the motor cover 370 , one end of the connecting piece 380 is inserted into the hanger rod 200 , and one end of the stator module 332 extends into the connecting piece 380 .
- the suspender 200 and the stator module 332 are connected together through the connector 380 . Since the connector 380 and the suspender 200 are plugged together, this method is more convenient to operate, and at the same time, the connector 380 and the suspender 200 are connected together. Removable for easy maintenance of the fan light.
- the above-mentioned connecting piece 380 and the motor cover 370 can adopt an integrated structure, but in order to facilitate the installation and maintenance of the fan lamp, a third through hole 371 can be provided on the motor cover 370, and the connecting piece 380 includes a positioning plate 381 and a cylindrical body 382, The positioning plate 381 can be positioned and matched with the motor cover 370 , one end of the cylindrical body 382 is connected to the positioning plate 381 , and the other end of the cylindrical body 382 passes through the third through hole 371 and is inserted into the boom 200 .
- Such a structure can not only ensure the reliable connection between the connecting piece 380 and the motor cover 370, but also make them detachable, thereby facilitating the installation and maintenance of the fan light.
- one end of the boom 200 is threadedly connected to the cylindrical body 382, and the cylindrical body 382 is provided with a first socket, the boom 200 is provided with a second socket, the first A plug is inserted at the jack and the second jack.
- at least one of the boom 200 and the connector 380 can be rotated so that the two are screwed together, and then gradually inserted into the connection. In this connection method, the boom is more reliably connected to the boom through insertion and screw fit. 200 and connector 380 are connected together.
- the boom 200 and the connecting member 380 are rotated to a predetermined position, the first socket and the second socket are aligned, and the plug is inserted into the first socket and the second socket, and the plug can assist in limiting the contact between the boom 200 and the second socket.
- the relative rotation of the connecting piece 380 makes it difficult for the hanger 200 and the connecting piece 380 to loosen due to relative rotation even if the blade assembly 300 of the fan light rotates, thereby making the fan light stronger in structure.
- the fan light further includes a cover 600, the cover 600 is disposed on the outside of the plug, the cover 600 can isolate the plug and the connector 380 from the external environment, thereby improving the aesthetics of the fan light, and at the same time , when the user needs to disassemble the boom 200 and the connecting piece 380, the cover 600 must be removed first, thereby reducing the risk of the bolt being disassembled by mistake.
- the cover 600 can be sleeved on the outside of the boom 200, which can move flexibly relative to the cover 600, and can cover structures such as latches under the action of its own gravity.
- the cover cover 600 is provided with a fourth through hole 610
- an elastic ring 620 is provided at the fourth through hole 610
- the elastic ring 620 surrounds the hanger bar 200 .
- the elastic ring 620 here can fill the gap between the boom 200 and the fourth through hole 610 , and the elastic ring 620 can be deformed after being stressed, and the elastic ring 620 can reduce the gap between the boom 200 and the fourth through hole 610 .
- the elastic ring 620 is in contact with the boom 200, the elastic ring 620 is deformed, so as to fit more closely with the boom 200 and further improve the sealing effect.
- the elastic ring 620 can be deformed after being stressed, so as to achieve buffering, and prevent the components of the fan lamp from colliding rigidly, resulting in high noise and short lifespan of the components.
- the fan light further includes a positioning member 700
- the light source assembly 400 includes a chassis 410, a light source board 420 and a light-transmitting cover 430, the chassis 410 and the light-transmitting cover 430 are connected, and the two form a first optical cavity
- the light source board 420 is installed in the first optical cavity
- a plurality of light emitting modules 440 are arranged on the light source board 420 at intervals.
- the light emitting modules 440 include a light emitting unit and a light distribution element, and the light distribution element is covered outside the light emitting unit.
- the second end of the driving motor 330 extends into the first optical cavity.
- the positioning member 700 is mounted on the second end of the driving motor 330 and located in the first optical cavity.
- the positioning member 700 is positioned and matched with the chassis 410 .
- the connection between the driving motor 330 and the light source assembly 400 can be realized through the positioning member 700 .
- This connection method has a simpler structure and can simplify the connection operation of the driving motor 330 and the light source assembly 400 .
- the positioning member 700 can be a nut, and the positioning member 700 can be screwed with the second end of the driving motor 330 , so as to further simplify the operation of connecting the driving motor 330 and the light source assembly 400 .
- the driver 500 when the driver 500 is installed in the light source assembly 400, the driver 500 may be further installed in the above-mentioned first optical cavity.
- the space of the first optical cavity here is larger, so it is more convenient to set the driver 500 .
- the driver 500 if the driver 500 needs to be disassembled, the driver 500 can be seen directly by opening the light-transmitting cover 430 , so this structure is more convenient to maintain the driver 500 .
- the above-mentioned driver 500 and light source board 420 are both located in the first optical cavity, and both are disposed in close proximity to the chassis 410, so they are prone to interference in structure.
- the driver 500 can be stacked on the light source board 420, but this structure will cause the part of the light source board 420 blocked by the driver 500 to fail to work, thereby causing structural waste, and at the same time causing the light source board 420 and the light source board 420.
- the drives 500 collectively take up more space.
- the light source board 420 is an annular board with an inner hole, and at least a part of the driver 500 is located in the inner hole.
- the light source board 420 can avoid the driver 500, so that all the structures of the light source board 420 can be used, and the driver 500 can be installed in the space occupied by the light source board 420, thereby making the structure of the fan lamp more compact.
- the telescopic blade 320 of the blade assembly 300 can be expanded or retracted.
- the telescopic blade 320 When the telescopic blade 320 is in a retracted state, the telescopic blade 320 does not work, and the space occupied by the blade assembly 300 will affect the aesthetics of the entire fan light. Based on this, the direction parallel to the boom 200 is defined as the first direction.
- the orthographic projection of the telescopic blade 320 along the first direction is located within the orthographic projection of the chassis 410 along the first direction. .
- the edge of the telescopic blade 320 does not exceed the edge of the chassis 410, so that the space occupied by the telescopic blade 320 in this state is as small as possible, thereby optimizing the structural compactness of the fan light.
- the light source assembly 400 further includes an installation plate 450 , the installation plate 450 is disposed between the blade assembly 300 and the chassis 410 , the second end of the driving motor 330 passes through the installation plate 450 , and the installation plate 450 abuts against the chassis 410 .
- the blade assembly 300 will rotate during operation, while the light source assembly 400 is fixed, the blade assembly 300 and the light source assembly 400 can be better separated by the mounting plate 450, and at the same time, the blade assembly 300 can be prevented from driving the light source assembly 400 to rotate , to achieve the purpose of improving the reliability of the fan light when it is working.
- the mounting plate 450 abuts against the chassis 410, which can better limit the shaking of the chassis 410, prevent the chassis 410 from shaking slightly due to the movement of the blade assembly 300, thereby improving the user experience when using the fan light.
- the light source assembly 400 further includes a decoration ring 460 , and the decoration ring 460 is disposed on the outer peripheral surface of the light-transmitting face cover 430 .
- the material, shape and other structural parameters of the decorative ring 460 can be designed according to the user's preference, thereby improving the appearance quality of the entire fan light.
- the number of the telescopic blades 320 may be at least two, and when the base plate 310 rotates, each telescopic blade 320 is expanded under the action of centrifugal force.
- the expansion range and speed of each telescopic blade 320 may be different, which leads to a great chance of the heat dissipation effect of the blade assembly 300 .
- the blade assembly 300 further includes a synchronization member 340 and a mounting seat 350.
- the synchronization member 340 is rotatably mounted on the base plate 310, and the rotation center of the synchronization member 340 is coincident with the rotation center of the base plate 310.
- Each telescopic blade 320 is rotatably mounted on the base plate 310 through a plurality of mounting seats 350 , the synchronizing member 340 is provided with a plurality of sliding grooves 341 , the mounting seat 350 is provided with a protruding part, and the protruding parts of each mounting seat 350 correspond to each other one by one It is slidably fitted with each sliding slot 341 .
- the base plate 310 rotates, the synchronizing member 340 rotates along with it.
- each telescopic blade 320 can be unfolded synchronously, thereby overcoming the influence of factors such as processing errors and assembly errors, so that the The heat dissipation effect of the blade assembly 300 can more reliably approach the design value, thereby improving its blowing effect.
- the structure can also promote the force of the fan lamp to be distributed more evenly, and prevent the fan lamp from shaking due to uneven distribution of the force.
- the blade assembly 300 may further include a torsion spring 360 .
- the torsion spring 360 may be mounted on the mounting seat 350 .
- the torsion spring 360 is deformed by the force from the telescopic blade 320.
- the centrifugal force it receives disappears, and the force of the telescopic blade 320 acting on the torsion spring 360 also follows.
- the torsion spring 360 can restore the deformation, thereby exerting a reaction force on the telescopic blade 320, so that the telescopic blade 320 retracts relative to the base plate 310 until the telescopic blade 320 retracts in place.
- the space occupied by the torsion spring 360 is small, so it is more favorable to realize the compact design of the fan lamp.
- the driver 500 includes a circuit board, the circuit board is provided with an input end, a first output end and a second output end, the first output end is electrically connected to the driving motor 330 , and the second output end is electrically connected to the light source assembly 400 .
- the circuit board here can realize the control of the fan light, that is to say, the driving part and the control part of the fan light can be designed in an integrated manner, so that the structure of the fan light is more compact.
- the light source assembly 400 may include a chassis 410 and a directional lighting module 470, and the chassis 410 may provide a mounting basis for the directional lighting module 470, the blade assembly 300 or other components of the fan light,
- the directional lighting module 470 is mounted on the chassis 410 .
- the directional lighting module 470 When the directional lighting module 470 is driven, it can emit light, so that the fan light has the function of lighting.
- the lighting areas of the directional lighting module 470 here are relatively concentrated, so the areas that need to be highlighted can be illuminated.
- the light source assembly 400 includes a directional lighting module 470, which can perform directional lighting on key areas, and the user can control the working state of the directional lighting module 470 according to actual needs, so as to satisfy their own lighting requirements need. It can be seen that the fan light can perform directional lighting on key areas, so that the lighting effect of the fan light is better.
- the directional lighting module 470 includes a first light source board 471 and at least one first light emitting module 472.
- the first light source board 471 is installed on the chassis 410, and the first light emitting module 472 is installed on the first light source.
- the board 471 and the first light-emitting module 472 include a first light-emitting unit 472a and a first light-distribution element 472b, and the first light-distribution element 472b is disposed outside the first light-emitting unit 472a.
- the first light emitting unit 472a can emit light, the light emitted by the first light emitting unit 472a enters the first light distribution element 472b, and the first light distribution element 472b can change the propagation direction of the light to realize light distribution, thereby adjusting the directional lighting module 470. Lighting angle to get the lighting effect the user wants.
- the number of the first light-emitting modules 472 may be one or at least two.
- the first light-emitting modules 472 may be arranged at intervals.
- the emitted light is more uniform, thereby improving the lighting effect of the fan lamp.
- the first light distribution element 472b may be a lens, such as a convex lens or a concave lens, or may be a combination of a convex lens and a concave lens.
- the first light distribution element 472b can condense the light, so that the light is concentrated in a relatively small area, thereby improving the efficiency of the light distribution. Lighting effects of the directional lighting module 470.
- the directional lighting module 470 further includes an anti-glare mask 473, and the anti-glare mask 473 is connected to the first light distribution element 472b.
- the anti-glare mask 473 here can further adjust the propagation direction of the light, so as to achieve the purpose of anti-glare, thereby improving the comfort of the user when using the fan lamp.
- the light emitted by the first light emitting unit 472a enters the first light distribution element 472b.
- the first light distribution element 472b redistributes the light, a part of the light in the light output range is irradiated into the lighting area of the directional lighting module 470, and the other part
- the light that is not within the light output range can be absorbed by the anti-glare mask 473, so when the user is in an area outside the light output range, the brightness difference between the lighting area of the directional lighting module 470 and the area outside the lighting area is small, and the human eye will not be affected.
- the intense light of the first light emitting unit 472a is directly irradiated, thereby preventing the user from feeling dazzled and uncomfortable. Meanwhile, the connection of the anti-glare mask 473 to the first light distribution element 472b can also improve the aesthetics of the directional lighting module 470 .
- the anti-glare mask 473 may be a conical mask, and both ends of the anti-glare mask 473 are open ends.
- the taper of such a conical mask can be controlled more accurately, so it is convenient to adjust the structural parameters of the anti-glare mask 473 , thereby helping to improve the anti-glare effect of the anti-glare mask 473 .
- the tapered mask is easier to process, making the anti-glare mask 473 easier to shape and cost less.
- the optical parameters of the above-mentioned anti-glare mask 473 can be set flexibly.
- the cone angle of the anti-glare mask 473 can be made smaller than 37°. Illumination range, thereby reducing the impact of glare on the user, to achieve the purpose of improving the anti-glare effect.
- the color rendering index of the first light-emitting unit 472a is greater than or equal to 90.
- the color rendering index of the first light-emitting unit 472a is greater than or equal to 90, the light emitted by the first light-emitting unit 472a has a higher degree of color reproduction of the irradiated object, and the color of the object is irradiated by the light emitted by the first light-emitting unit 472a. closer to its true color, thereby enhancing the lighting effect of the directional lighting module 470.
- Fan lights can be used in various scenarios, such as lighting for dining table area, coffee table area, sofa area, bar area, etc.
- the light source assembly 400 further includes a floodlighting module 480 , the flood lighting module 480 is installed on the chassis 410 , and the directional lighting module 470 and the flood lighting module 480 are both located on the same side of the chassis 410 .
- the floodlighting module 480 here can illuminate a larger area, so as to achieve the effect of floodlighting.
- the directional lighting module 470 and the flood lighting module 480 can be used separately or together.
- the directional lighting module 470 When the user needs to perform directional lighting on key areas, the directional lighting module 470 can be used; when the user needs to perform ambient lighting on a large area, the flood lighting module 480 can be used. It can be seen that in this embodiment, the directional lighting module 470 and the flood lighting module 480 are set at the same time, so that the fan light has at least two lighting modes, and the user can change the work of the directional lighting module 470 and the flood lighting module 480 according to different usage requirements state, so as to improve the lighting effect of the fan lamp.
- the light-emitting angle of the directional lighting module 470 is smaller than that of the floodlighting module 480, so that the light-emitting range of the directional lighting module 470 is smaller than the light-emitting range of the floodlighting module 480. Therefore, the directional lighting module 470 can form a relatively small light-emitting range.
- the lighting area can be used to achieve directional lighting, while the flood lighting module 480 can form a relatively large lighting area to achieve flood lighting. It should be noted that the difference between the light exit angle of the directional lighting module 470 and the light exit angle of the floodlighting module 480 can be flexibly designed according to the usage requirements of the fan lamp, which is not limited in this embodiment of the present application.
- the flood lighting module 480 includes a second light source plate 481, a uniform light mask 483 and at least one second light emitting module 482.
- the uniform light mask 483 is connected to the chassis 410, and the two form a second optical
- the second light source board 481 is installed in the second optical cavity, and the second light emitting module 482 is arranged on the second light source board 481.
- the second light emitting module 482 includes a second light emitting unit and a second light distribution element.
- the light element cover is arranged outside the second light emitting unit.
- the second light emitting unit can emit light, the light emitted by the second light emitting unit enters the second light distribution element, and the second light distribution element scatters the light, thereby improving the uniformity of the flood lighting module 480 when lighting.
- the light after the light emitted by the second light emitting unit enters the second light distribution element and is redistributed, the light enters the uniform light mask 483, and the uniform light mask 483 can further improve the divergence of the light, thereby improving the lighting efficiency of the flood lighting module 480. uniformity, so as to improve the lighting effect of the flood lighting module 480 .
- first light source board 471 and the second light source board 481 are both straight strip-shaped boards, and the extension direction of the first light source board 471 is parallel to the extension direction of the second light source board 481; Both the plate 471 and the second light source plate 481 are arc-shaped plates, and the center of the circle where the first light source plate 471 is located coincides with the center of the circle where the second light source plate 481 is located.
- the directional lighting module 470 and the floodlighting module 480 work alone, or the directional lighting module 470 and the floodlighting module 480 work simultaneously, a more regular lighting area can be generated; at the same time, the directional lighting module
- the shape of the lighting area of 470 is basically the same as the shape of the lighting area of the flood lighting module 480, so that the brightness of the overall lighting area of the fan light changes regularly, which can bring better visual experience to the user.
- the first light source board 471 and the second light source board 481 are both straight strip-shaped boards or arc-shaped boards, the structure of the fan lamp is more compact, the processing technology is simpler, and the cost is lower.
- the number of flood lighting modules 480 is at least two, and at least one directional lighting module 470 is disposed between adjacent flood lighting modules 480 .
- the lighting area of the directional lighting module 470 is surrounded by the lighting area of the floodlighting module 480, and the lighting area of the directional lighting module 470 is located in the floodlight.
- the middle of the lighting area of the lighting module 480 makes the lighting area of the fan lamp have symmetry, thereby improving the lighting effect of the fan lamp.
- the light source assembly 400 further includes a face frame 490, the face frame 490 is connected to the chassis 410, the face frame 490 is provided with a first accommodating hole 491 and a second accommodating hole 492, and the floodlighting module 480 is at least partially located in the first accommodating hole 490.
- the directional lighting module 470 is at least partially located in the second accommodating hole 492 .
- the surface frame 490 can appropriately separate and block the directional lighting module 470 and the flood lighting module 480, so that the lighting area of the flood lighting module 480 and the lighting area of the directional lighting module 470 do not interfere with each other.
- the fan lamp It is beneficial for the fan lamp to realize the division of the key lighting area and the atmosphere lighting area, thereby improving the lighting effect of the fan lamp.
- the floodlighting module 480 is at least partially located in the first accommodating hole 491
- the directional lighting module 470 is at least partially located in the second accommodating hole 492, which can prevent dust from entering the floodlighting module 480 and the directional lighting module 470, which is beneficial to floodlighting
- the lighting module 480 and the directional lighting module 470 work more stably.
- At least two second accommodating holes 492 are provided between adjacent first accommodating holes 491 , and at least two directional lighting modules 470 are installed at the at least two second accommodating holes 492 in a one-to-one correspondence.
- each directional lighting module 470 is installed at different second accommodating holes 492, so that the lighting areas of the directional lighting modules 470 are less likely to interfere with each other, which is beneficial for the directional lighting module 470 to perform directional lighting on key areas .
- installing at least two directional lighting modules 470 through at least two second accommodating holes 492 can appropriately reduce the size of a single second accommodating hole 492, thereby ensuring the Structural strength.
- the fan light further includes a controller, which is electrically connected to the directional lighting module 470 and the flood lighting module 480 respectively, and the controller is used to control the working states of the directional lighting module 470 and the flood lighting module 480.
- the controller controls one of the directional lighting module 470 and the floodlighting module 480 to work, the fan light alone can achieve accent lighting or ambient lighting for the space; when the controller controls the directional lighting module 470 and the floodlighting module 480 together When working, the fan light can realize accent lighting and ambient lighting for the space at the same time.
- the working states of the directional lighting module 470 and the flood lighting module 480 are controlled by the controller, so as to improve the lighting effect of the fan lamp.
- the fan light can be equipped with a remote controller, which can perform wireless data transmission with the controller, and the user can connect the controller through the remote controller to control the working status of the directional lighting module 470 and the flood lighting module 480 .
- the above-mentioned controller may only be used to control the working status of the directional lighting module 470 and the flood lighting module 480 , and may also be used to control the status of the blade assembly 300 .
- the controller can be integrated on the circuit board, thereby further improving the structural compactness of the fan light.
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- Engineering & Computer Science (AREA)
- General Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Arrangement Of Elements, Cooling, Sealing, Or The Like Of Lighting Devices (AREA)
- Non-Portable Lighting Devices Or Systems Thereof (AREA)
Abstract
一种风扇灯,属于照明灯具技术领域。风扇灯包括吸顶组件(100)、吊杆(200)、叶片组件(300)、光源组件(400)和驱动器(500),吸顶组件(100)通过吊杆(200)与叶片组件(300)相连,光源组件(400)与叶片组件(300)相连,且光源组件(400)位于叶片组件(300)背离吸顶组件(100)的一侧,驱动器(500)安装于吸顶组件(100)、叶片组件(300)或光源组件(400),且驱动器(500)与叶片组件(300)和光源组件(400)中的至少一者电连接,光源组件(400)包括底盘(410)和定向照明模块(470),定向照明模块(470)安装于所述底盘(410)。该方案能够解决目前风扇灯的照明效果不佳的问题。
Description
本申请要求2020年06月30日提交在中国专利局、申请号为202010625120.6、发明名称为“风扇灯”的中国专利申请的优先权,该申请的全部内容通过引用结合在本申请中。
本申请要求2020年06月30日提交在中国专利局、申请号为202021263661.0、实用新型名称为“风扇灯”的中国专利申请的优先权,该申请的全部内容通过引用结合在本申请中。
本申请涉及照明灯具技术领域,尤其涉及一种风扇灯。
风扇灯是一种常用的家用电器,是风扇和灯具的组合装置,通过开关可以分别控制风扇和灯具,使得风扇灯既具有照明的效果,也具有风扇吹风的效果。
目前市售的风扇灯由传统风扇进行改进,在传统风扇的基础上堆叠照明灯具,照明灯具发出的光线具有较大的出光角度,因此最终所产生的效果为大范围照明效果,此种照明效果无法满足用户对重点区域进行照明的需求,因此该风扇灯的照明效果不佳。
发明内容
本申请公开一种风扇灯,能够解决风扇灯的照明效果不佳的问题。
为了解决上述问题,本申请采用下述技术方案:
一种风扇灯,包括吸顶组件、吊杆、叶片组件、光源组件和驱动器,所述吸顶组件通过所述吊杆与所述叶片组件相连,所述光源组件与所述叶片组件相连,且所述光源组件位于所述叶片组件背离所述吸顶组件的一侧,所述驱动器安装于所述吸顶组件或所述光源组件,且所述驱动器与所述叶片组件和所述光源组件中的至少一者电连接,
所述光源组件包括底盘和定向照明模块,所述定向照明模块安装于所述底盘。
本申请采用的技术方案能够达到以下有益效果:
本申请实施例公开的风扇灯中,光源组件包括定向照明模块,该定向照明模块可以对重点区域进行定向照明,用户可以根据实际需求控制定向照明模块的工作状态,从而满足自身的照明需求。可见,该风扇灯可以对重点区域进行定向照明,从而使得风扇灯的照明效果更好。
为了更清楚地说明本申请实施例或背景技术中的技术方案,下面将对实施例或背景技术中所需要使用的附图作简单的介绍,显而易见地,对于本领域普通技术人员而言,在不 付出创造性劳动性的前提下,还可以根据这些附图获得其他的附图。
图1为本申请实施例公开的风扇灯的结构示意图;
图2为本申请实施例公开的风扇灯的部分结构的示意图;
图3为本申请实施例公开的风扇灯的爆炸图;
图4为本申请实施例公开的风扇灯的剖视图;
图5为本申请实施例公开的风扇灯在伸缩叶片展开时的结构示意图;
图6为图5的俯视图;
图7为本申请实施例公开的驱动电机的结构示意图;
图8为本申请实施例公开的驱动电机的爆炸图;
图9为本申请另一实施例公开的风扇灯的结构示意图;
图10为图9所示风扇灯的爆炸图;
图11为图9所示风扇灯的剖视图;
图12为本申请再一实施例公开的风扇灯的结构示意图;
图13为图12所示风扇灯在另一视角下的结构示意图;
图14为图12所示风扇灯的爆炸图;
图15为图12所示风扇灯的又一爆炸图。
附图标记说明:
100-吸顶组件、110-吸顶盒、111-安装腔、120-吊架、121-连接部;
200-吊杆;
300-叶片组件、310-基板、320-伸缩叶片、330-驱动电机、331-机壳、331a-上盖、331b-下盖、332-定子模组、333-转子模组、334-第一轴承、335-第二轴承、340-同步件、341-滑槽、350-安装座、360-扭簧、370-电机罩、371-第三穿孔、380-连接件、381-定位板、382-筒状体;
400-光源组件、410-底盘、420-光源板、430-透光面罩、440-发光模组、450-安装盘、460-装饰环、470-定向照明模块、471-第一光源板、472-第一发光模组、472a-第一发光单元、472b-第一配光元件、473-防眩光面罩、480-泛光照明模块、481-第二光源板、482-第二发光模组、483-匀光面罩、490-面框、491-第一容纳孔、492-第二容纳孔;
500-驱动器;
600-遮盖罩、610-第四穿孔、620-弹性环;
700-定位件;
810-第一电连接件、820-第二电连接件、830-市电连接件。
为使本申请的目的、技术方案和优点更加清楚,下面将结合本申请具体实施例及相应的附图对本申请技术方案进行清楚、完整地描述。显然,所描述的实施例仅是本申请一部分实施例,而不是全部的实施例。基于本申请中的实施例,本领域普通技术人员在没有做出创造性劳动前提下所获得的所有其他实施例,都属于本申请保护的范围。
以下结合附图,详细说明本申请各个实施例公开的技术方案。
请参考图1至图11,本申请实施例公开一种风扇灯,其包括吸顶组件100、吊杆200、叶片组件300、光源组件400和驱动器500。吸顶组件100用于实现风扇灯与安装基础(例如房顶)之间的连接,从而实现风扇灯的安装。吊杆200可以实现叶片组件300与吸顶组件100之间的连接,即吊杆200的长度可以灵活设置,可选地,吊杆200可以采用多段式结构,使得用户可以根据自身需求调整吊杆200的长度,从而改变风扇灯的安装高度。叶片组件300可以实现吹风功能,光源组件400可以进行照明,从而使得风扇灯的功能性更强。驱动器500可以给叶片组件300和光源组件400供电,从而保证叶片组件300和光源组件400可靠工作。
叶片组件300包括基板310、伸缩叶片320和驱动电机330,伸缩叶片320可转动地安装于基板310,驱动电机330与基板310相连,因此驱动电机330可以驱动基板310转动,伸缩叶片320在离心力的作用下相对于基板310转动,从而实现伸缩叶片320的展开和缩回。一种可选的实施例中,当伸缩叶片320回缩时,风扇灯的直径R1可以为420~480mm;当伸缩叶片320展开时,风扇灯的直径R2可以为900~1200mm。可选地,伸缩叶片320的数量可以为至少两个,各伸缩叶片320可以沿着基板310的周向设置,各伸缩叶片320可以同步展开或者同步缩回,随着伸缩叶片320的数量不断增加,风扇灯的散热效果更好。
吸顶组件100通过吊杆200与叶片组件300相连,具体地,吊杆200的一端与吸顶组件100相连,吊杆200的另一端与驱动电机330的第一端相连。光源组件400与叶片组件300相连,具体地,光源组件400与驱动电机330的第二端相连,且光源组件400位于叶片组件300背离吸顶组件100的一侧。此种方案通过驱动电机330连接叶片组件300和光源组件400,而不需要额外设置连接结构将叶片组件300和光源组件400连接在一起,因此此种风扇灯所包含的零部件的数量更少,整个风扇灯的紧凑度更高,其所占用的空间更小。
驱动器500安装于吸顶组件100、叶片组件300或光源组件400,即,可以利用吸顶组件100、叶片组件300或光源组件400的结构安装驱动器500,使得驱动器500额外占用的 空间更小,甚至不再额外占用空间,从而使得风扇灯的结构更加紧凑。一种可选的实施例中,驱动器500与叶片组件300和光源组件400中的至少一者电连接,从而实现叶片组件300和光源组件400中的至少一者的驱动。当驱动器500与光源组件400电连接时,可以驱动光源组件400发光,进而实现风扇灯的照明功能。当驱动器500与叶片组件300电连接时,可以驱动伸缩叶片320展开,同时可以驱动整个叶片组件300转动,进而实现风扇灯的吹风功能。当驱动器500同时与叶片组件300和光源组件400电连接时,可以同时驱动叶片组件300转动和光源组件400发光,进而同时实现风扇灯的吹风功能和照明功能。
进一步地,驱动器500可配置为同时与驱动电机330及光源组件400电连接。可选地,驱动器500通过第一电连接件810与驱动电机330电连接,且驱动器500通过第二电连接件820与光源组件400电连接,此外,驱动器500可以通过市电连接件830接市电,这里的第一电连接件810、第二电连接件820和市电连接件830均可以选择导线。此时,驱动器500可以进行集成化设置,同一个驱动器500可以同时给驱动电机330及光源组件400供电,所需的驱动器500的数量自然有所降低。可选地,该驱动器500可以设置为一个,当风扇灯的用电量较大时,也可以设置两个甚至更多的驱动器500,每个驱动器500均配置为同时与驱动电机330及光源组件400电连接。
本申请实施例公开的风扇灯中,叶片组件300的驱动电机330和光源组件400可以与同一个驱动器500电连接,使得叶片组件300和光源组件400可以通过同一个驱动器500进行驱动,相比于叶片组件300和光源组件400通过各自的驱动器进行驱动的方式,本申请实施例公开的风扇灯的零部件数量有所减少,因此该风扇灯所占用的空间更小,同时便于风扇灯的运输。
一种可选的实施例中,吸顶组件100包括吸顶盒110,吸顶盒110具有安装腔111,驱动器500安装于安装腔111内。此时,驱动器500利用吸顶盒110内的安装腔111进行安装,驱动器500基本不会额外占用空间,从而使得风扇灯的结构更加紧凑。
进一步地,吸顶组件100还包括安装于安装腔111内的吊架120,该吊架120安装于安装腔111内,吸顶盒110与吊架120固定连接,吸顶盒110可通过吊架120安装到安装基础上。吊架120可以采用U形结构,吊架120设有连接部121,连接部121具有连接孔和第一球面,吊杆200具有第二球面,吊杆200的一端穿过连接孔,且第一球面与第二球面相贴合,通过第一球面与第二球面的配合,使吊杆200相对于吊架120的位置能够发生变化,从而便于安装风扇灯。
驱动器500安装于吊架120的侧面与吸顶盒110的内壁之间。也就是说,吊架120的 侧面与吸顶盒110的内壁之间具有间隔,驱动器500可以利用该间隔设置,从而充分利用吸顶盒110内的安装腔安装驱动器500,使得风扇灯的结构更加紧凑。
可选地,驱动电机330可以包括机壳331、定子模组332、转子模组333、第一轴承334和第二轴承335,机壳331可以包括上盖331a和下盖331b,两者可拆卸连接后形成容纳定子模组332和转子模组333的空间,定子模组332通过第一轴承334与上盖331a配合,并通过第二轴承335与下盖331b配合。可选地,如图7所示,该驱动电机330的外径R3可以为110~130mm,优选120mm左右,其高度h可以为40~50mm,优选45mm左右,此种驱动电机330的结构更紧凑,其占用的空间更小。
上述定子模组332的两端分别与吊杆200以及光源组件400相连,转子模组333与机壳331相连,机壳331与基板310相连。当驱动电机330通电时,定子模组332和转子模组333之间产生作用力,定子模组332固定不动,转子模组333可相对于定子模组332转动,从而带动机壳331转动,机壳331再带动基板310转动,从而实现伸缩叶片320的展开。此种方案通过机壳331带动基板310转动,机壳331转动时更加稳定,其承受作用力的能力更强,因此此种驱动电机330的传动效率更高,且其使用寿命更长。
定子模组332设有第一穿孔,吊杆200设有第二穿孔,第一电连接件810穿过第二穿孔,并与定子模组332和转子模组333电连接,第二电连接件820依次穿过第二穿孔和第一穿孔,并与光源组件400电连接。设置第一穿孔和第二穿孔后,定子模组332和吊杆200可以避让第一电连接件810和第二电连接件820,从而便于驱动器500与驱动电机330和光源组件400电连接;同时,第一穿孔和第二穿孔可以适当限制第一电连接件810和第二电连接件820的位置,使得第一电连接件810和第二电连接件820不容易与其他部件干涉,使得风扇灯更可靠地运行。
为了保护驱动电机330,叶片组件300还可以包括电机罩370,电机罩370罩设于机壳331的外部,该电机罩370可以遮盖驱动电机330,从而保护驱动电机330。进一步地,叶片组件300还可以包括连接件380,连接件380与电机罩370相连接,连接件380的一端与吊杆200插接,定子模组332的一端伸入连接件380内。该实施例通过连接件380将吊杆200与定子模组332连接在一起,由于连接件380与吊杆200采用插接的方式,此种方式更便于操作,同时使得连接件380与吊杆200可拆卸,进而便于风扇灯的维护。
上述连接件380和电机罩370可以采用一体式结构,但是为了便于风扇灯的安装和维护,可在电机罩370上设有第三穿孔371,连接件380包括定位板381和筒状体382,定位板381可与电机罩370定位配合,筒状体382的一端与定位板381相连接,筒状体382的 另一端穿过第三穿孔371,并与吊杆200插接。此种结构既能保证连接件380和电机罩370之间的可靠连接,同时使得两者可拆分,从而便于风扇灯的安装和维护。
为了提升吊杆200与连接件380的连接强度,吊杆200的一端与筒状体382螺纹连接,且筒状体382设有第一插孔,吊杆200设有第二插孔,第一插孔和第二插孔处插设有插销。采用此种连接方式后,可以转动吊杆200与连接件380中的至少一者,使得两者螺纹配合,并逐渐插装连接,此种连接方式通过插装和螺纹配合更可靠地将吊杆200和连接件380连接在一起。与此同时,当吊杆200和连接件380转动到预定位置时,第一插孔和第二插孔对齐,插销插入第一插孔和第二插孔,该插销可以辅助限制吊杆200与连接件380的相对转动,即使风扇灯的叶片组件300转动也不容易出现吊杆200和连接件380相对转动而松动的情况,从而使得风扇灯的结构强度更高。
上述连接件380可以处于裸露状态,此时插销同样处于裸露状态,这样设置不仅不美观,还存在插销容易被误拆卸的风险。因此,为了解决该问题,风扇灯还包括遮盖罩600,遮盖罩600罩设于插销的外部,遮盖罩600可以将插销和连接件380与外部环境隔开,从而提升风扇灯的美观度,同时,当用户需要拆卸吊杆200和连接件380时,必须先移开遮盖罩600,从而降低插销被误拆卸的风险。可选地,为了简化遮盖罩600的拆装操作,遮盖罩600可以套装在吊杆200的外部,其可以相对于遮盖罩600灵活移动,其在自身重力的作用下可以遮盖插销等结构。
进一步的实施例中,遮盖罩600设有第四穿孔610,第四穿孔610处设有弹性环620,弹性环620环绕吊杆200。这里的弹性环620可以填充吊杆200与第四穿孔610之间的间隙,并且该弹性环620受力后可以发生变形,该弹性环620可以减小吊杆200与第四穿孔610之间的间隙,同时当弹性环620与吊杆200接触时,弹性环620发生变形,从而与吊杆200更紧密地配合,进一步改善密封效果。并且,弹性环620受力后可以发生变形,从而实现缓冲,防止风扇灯的部件刚性碰撞而出现的噪音大、部件寿命短等情况。
一种可选的实施例中,风扇灯还包括定位件700,光源组件400包括底盘410、光源板420和透光面罩430,底盘410和透光面罩430相连,两者形成第一光学腔,光源板420安装于第一光学腔内,光源板420上间隔设置有多个发光模组440,该发光模组440包括发光单元和配光元件,配光元件罩设于发光单元的外部。驱动电机330的第二端伸入第一光学腔,定位件700安装于驱动电机330的第二端,且位于第一光学腔内,定位件700与底盘410定位配合。该实施例通过定位件700即可实现驱动电机330与光源组件400之间的连接,此种连接方式的结构更加简单,同时可简化驱动电机330与光源组件400的连接操作。
可选地,上述定位件700可以是螺母,该定位件700可与驱动电机330的第二端螺纹配合,从而进一步简化驱动电机330与光源组件400连接操作。
可选地,当驱动器500安装于光源组件400时,驱动器500可以进一步安装于上述第一光学腔内。这里的第一光学腔空间较大,因此更便于设置驱动器500。同时,如果需要拆卸驱动器500,只需要打开透光面罩430,就可以直接看到驱动器500,因此该结构更便于维护驱动器500。
上述驱动器500和光源板420均位于第一光学腔内,并且两者都紧邻底盘410设置,因此两者在结构上容易出现干涉。一种实施例中,驱动器500可以叠置在光源板420上,但是这种结构会导致光源板420被驱动器500遮挡的部分无法工作,进而造成结构上的浪费,同时还会导致光源板420和驱动器500共同占用的空间更大。基于此,在另一种实施例中,光源板420为具有内孔的环形板,驱动器500的至少一部分位于该内孔中。此实施例中,光源板420可以避让驱动器500,使得光源板420的全部结构都可以使用,同时使得驱动器500可以利用光源板420占用的空间来安装,从而使得风扇灯的结构更加紧凑。
叶片组件300的伸缩叶片320可以展开,也可以回缩,当伸缩叶片320处于回缩状态时,该伸缩叶片320不工作,此时叶片组件300占用的空间将会影响整个风扇灯的美观性。基于此,将平行于吊杆200的方向定义为第一方向,在伸缩叶片320处于回缩状态的情况下,伸缩叶片320沿第一方向的正投影位于底盘410沿第一方向的正投影内。也就是说,在该回缩状态下,伸缩叶片320的边缘不超出底盘410的边缘,从而使得伸缩叶片320在该状态下占用的空间尽量小,以此优化风扇灯的结构紧凑性。
可选的实施例中,光源组件400还包括安装盘450,安装盘450设置于叶片组件300和底盘410之间,驱动电机330的第二端穿过安装盘450,安装盘450与底盘410相抵靠。由于叶片组件300工作时会转动,而光源组件400则是固定不动的,因此通过安装盘450可以更好地隔开叶片组件300和光源组件400,同时可以防止叶片组件300带动光源组件400转动,达到提升风扇灯工作时的可靠性这一目的。此外,安装盘450与底盘410抵靠,可以更好地限制底盘410的晃动,防止底盘410由于叶片组件300运动而出现轻微的摆动,以此改善用户使用风扇灯时的体验。
为了提升风扇灯的外观质量,光源组件400还包括装饰环460,装饰环460设置于透光面罩430的外周面。该装饰环460的材料、形状等结构参数可以根据用户的喜好来设计,从而提升整个风扇灯的外观质量。
如前文所述,伸缩叶片320的数量可以为至少两个,当基板310转动时,各伸缩叶片 320均受到离心力的作用而展开。但是,由于加工误差、装配误差等因素的影响,每个伸缩叶片320的展开幅度、速度可能会出现差异,这就导致叶片组件300的散热效果存在较大的偶然性。基于此,可选的实施例中,叶片组件300还包括同步件340和安装座350,同步件340可转动地安装于基板310,且同步件340的转动中心与基板310的转动中心重合,多个伸缩叶片320通过多个安装座350可转动地安装于基板310,同步件340设有多个滑槽341,安装座350设有凸出部,各安装座350的凸出部一一对应地与各滑槽341滑动配合。当基板310转动时,同步件340随之转动,在多个滑槽341与多个凸出部的作用下,各伸缩叶片320可以同步展开,从而克服加工误差、装配误差等因素的影响,使得叶片组件300的散热效果可以更可靠地趋近设计值,从而改善其吹风效果。同时,该结构还可以促使风扇灯的作用力更均匀地分布,防止风扇灯因作用力分布不均而出现晃动。
为了使得伸缩叶片320更可靠地回缩,叶片组件300还可以包括扭簧360,扭簧360的一端与基板310相连,扭簧360的另一端与伸缩叶片320相连。具体地,扭簧360可以安装于安装座350。当伸缩叶片320展开时,该扭簧360受到来自于伸缩叶片320的作用力而发生变形,当叶片组件300结束工作时,其受到的离心力消失,伸缩叶片320作用于扭簧360的作用力也随之消失,扭簧360即可恢复变形,从而向伸缩叶片320施加反作用力,使得伸缩叶片320相对于基板310回缩,直至伸缩叶片320回缩到位。该扭簧360占用的空间较小,因此更有利于实现风扇灯的紧凑化设计。
可选地,驱动器500包括电路板,电路板设有输入端、第一输出端和第二输出端,第一输出端与驱动电机330电连接,第二输出端与光源组件400电连接。这里的电路板可以实现风扇灯的控制,也就是说,该风扇灯的驱动部分和控制部分可以进行一体化设计,使得风扇灯的结构更加紧凑。
其他实施例中,如图12至图15所示,光源组件400可以包括底盘410和定向照明模块470,底盘410可以为定向照明模块470、叶片组件300或风扇灯的其他零部件提供安装基础,定向照明模块470安装于底盘410。定向照明模块470被驱动时可以发光照明,使得风扇灯具有照明的功能。这里的定向照明模块470的照明区域比较集中,因此可以对需要进行重点照明的区域进行照明。
本申请实施例公开的风扇灯中,光源组件400包括定向照明模块470,定向照明模块470可以对重点区域进行定向照明,用户可以根据实际需求控制定向照明模块470的工作状态,从而满足自身的照明需求。可见,该风扇灯可以对重点区域进行定向照明,使得风扇灯的照明效果更好。
一种可选的实施例中,定向照明模块470包括第一光源板471和至少一个第一发光模组472,第一光源板471安装于底盘410,第一发光模组472设置于第一光源板471,第一发光模组472包括第一发光单元472a和第一配光元件472b,第一配光元件472b罩设于第一发光单元472a的外部。第一发光单元472a可以发出光线,第一发光单元472a发出的光线进入第一配光元件472b,第一配光元件472b可以改变光线的传播方向,以实现配光,从而调整定向照明模块470的出光角,以得到用户想要的照明效果。
可选地,第一发光模组472的数量可以为一个,也可以为至少两个,当第一发光模组472的数量为至少两个时,各第一发光模组472可以间隔排布,从而使得所发出的光线更加均匀,以此改善风扇灯的照明效果。
进一步地,第一配光元件472b可以是透镜,例如凸透镜或者凹透镜,还可以是凸透镜和凹透镜的组合,第一配光元件472b可以聚拢光线,使得光线汇聚在相对较小的区域内,从而提升定向照明模块470的照明效果。
为避免定向照明模块470照明时出现眩光的问题,可选的实施例中,定向照明模块470还包括防眩光面罩473,防眩光面罩473与第一配光元件472b相连。这里的防眩光面罩473可以对光线的传播方向进行进一步的调整,从而实现防眩光的目的,进而改善用户使用风扇灯时的舒适度。例如,第一发光单元472a发出的光线进入第一配光元件472b,第一配光元件472b对光线重新分配后,一部分处于出光范围内的光线照射到定向照明模块470的照明区域内,另一部分未处于出光范围内的光线可以被防眩光面罩473吸收,因此当用户处于出光范围以外的区域时,定向照明模块470的照明区域与该照明区域以外区域的亮度差较小,人眼不会被第一发光单元472a的强烈光线直接照射,进而可以避免用户感到眩目和不适。同时,防眩光面罩473与第一配光元件472b相连还能够提高定向照明模块470的美观性。
进一步地,防眩光面罩473可以为锥形面罩,防眩光面罩473的两端均为开口端。此种锥形面罩的锥度可以更准确地控制,因此便于调整防眩光面罩473的结构参数,从而有利于改善防眩光面罩473的防眩光效果。此外,锥形面罩更容易加工,使得防眩光面罩473更便于成型,其成本更低。
上述防眩光面罩473的光学参数可以灵活设置,为了改善防眩光面罩473的防眩光效果,可以使防眩光面罩473的锥角小于37°,此设置方式可以进一步缩小未处于出光范围内的光线的照射范围,从而降低眩光给用户带来的影响,达到改善防眩光效果的目的。
一种可选的实施例中,第一发光单元472a的显色指数大于或等于90。当第一发光单元 472a的显色指数大于或等于90时,第一发光单元472a发出的光线对被照射物体的色彩还原度更高,物体在第一发光单元472a发出的光线的照射下,颜色更接近其真实颜色,从而提升定向照明模块470的照明效果。
风扇灯的使用场景多样,例如针对餐桌区域、茶几区域、沙发区域、吧台区域等进行照明,为了满足用户不同的使用需求,一种可选的实施例中,光源组件400还包括泛光照明模块480,泛光照明模块480安装于底盘410,且定向照明模块470和泛光照明模块480均位于底盘410的同一侧。这里的泛光照明模块480可以对较大的区域进行照明,从而达到泛光照明的效果。定向照明模块470和泛光照明模块480既可以分开使用,也可以一起使用。当用户需要对重点区域进行定向照明时,可以使用定向照明模块470;当用户需要对大范围区域进行氛围照明时,可以使用泛光照明模块480。可见,该实施例同时设置了定向照明模块470和泛光照明模块480,使得风扇灯具有至少两种照明模式,用户可以根据不同的使用需求,改变定向照明模块470和泛光照明模块480的工作状态,从而提升风扇灯的照明效果。
进一步地,上述定向照明模块470的出光角小于泛光照明模块480的出光角,使得定向照明模块470的出光范围小于泛光照明模块480的出光范围,因此定向照明模块470可以形成相对较小的照明区域,从而实现定向照明,而泛光照明模块480可以形成相对较大的照明区域,从而实现泛光照明。需要说明的是,定向照明模块470的出光角与泛光照明模块480的出光角之间的差值可以根据风扇灯的使用需求灵活设计,本申请实施例对此不作限制。
一种可选的实施例中,泛光照明模块480包括第二光源板481、匀光面罩483和至少一个第二发光模组482,匀光面罩483与底盘410相连,两者形成第二光学腔,第二光源板481安装于第二光学腔内,第二发光模组482设置于第二光源板481,第二发光模组482包括第二发光单元和第二配光元件,第二配光元件罩设于第二发光单元的外部。第二发光单元可以发出光线,第二发光单元发出的光线进入第二配光元件,第二配光元件对光线进行发散,从而提升泛光照明模块480照明时的均匀度。进一步地,第二发光单元发出的光线进入第二配光元件被重新分配后,光线进入匀光面罩483,匀光面罩483可以进一步提升光线的发散度,从而提升泛光照明模块480照明时的均匀度,以此提升泛光照明模块480的照明效果。
一种可选的实施例中,第一光源板471和第二光源板481均为直条形板,第一光源板471的延伸方向平行于第二光源板481的延伸方向;或者第一光源板471和第二光源板481 均为弧形板,第一光源板471所在圆周的圆心与第二光源板481所在圆周的圆心相重合。采用这两种结构后,无论是定向照明模块470和泛光照明模块480单独工作,还是定向照明模块470和泛光照明模块480同时工作,都可以产生更规则的照明区域;同时,定向照明模块470的照明区域的形状和泛光照明模块480的照明区域的形状基本相同,从而使得风扇灯的整体照明区域的亮度呈规则变化,可以给用户带来更好的视觉感受。此外,第一光源板471和第二光源板481均为直条形板或弧形板时,风扇灯的结构紧凑度更高,其加工工艺更简单,成本更低。
可选的实施例中,泛光照明模块480的数量为至少两个,相邻的泛光照明模块480之间设有至少一个定向照明模块470。当相邻的泛光照明模块480之间设有至少一个定向照明模块470时,定向照明模块470的照明区域被泛光照明模块480的照明区域所包围,定向照明模块470的照明区域位于泛光照明模块480的照明区域的中间,从而使得风扇灯的照明区域具有对称性,从而提升风扇灯的照明效果。
其他实施例中,光源组件400还包括面框490,面框490与底盘410相连,面框490设有第一容纳孔491和第二容纳孔492,泛光照明模块480至少部分位于第一容纳孔491内,定向照明模块470至少部分位于第二容纳孔492内。采用此种结构后,面框490可以对定向照明模块470和泛光照明模块480进行适度的分隔和遮挡,使得泛光照明模块480的照明区域和定向照明模块470的照明区域互不干扰,有利于风扇灯实现重点照明区域和氛围照明区域的划分,从而提升风扇灯的照明效果。另外,泛光照明模块480至少部分位于第一容纳孔491内,定向照明模块470至少部分位于第二容纳孔492内,可以避免灰尘进入泛光照明模块480和定向照明模块470,有利于泛光照明模块480和定向照明模块470更稳定地工作。
进一步地,相邻的第一容纳孔491之间设置至少两个第二容纳孔492,至少两个定向照明模块470一一对应地安装于至少两个第二容纳孔492处。此实施例中,各定向照明模块470安装于不同的第二容纳孔492处,从而使得各定向照明模块470的照明区域之间更不容易干涉,有利于定向照明模块470对重点区域进行定向照明。同时,在定向照明区域的大小一定的情况下,通过至少两个第二容纳孔492安装至少两个定向照明模块470,可以适当减小单个第二容纳孔492的尺寸,从而保证面框490的结构强度。
一种可选的实施例中,风扇灯还包括控制器,控制器分别与定向照明模块470和泛光照明模块480电连接,控制器用于控制定向照明模块470和泛光照明模块480的工作状态。当控制器控制定向照明模块470和泛光照明模块480中的一者工作时,风扇灯可以单独实 现对空间进行重点照明或氛围照明;当控制器控制定向照明模块470和泛光照明模块480一起工作时,风扇灯可以同时实现对空间进行重点照明和氛围照明。通过控制器控制定向照明模块470和泛光照明模块480的工作状态,从而提升风扇灯的照明效果。进一步地,风扇灯可以配置遥控器,该遥控器可以与控制器进行无线数据传输,用户可以通过遥控器连接控制器,从而控制定向照明模块470和泛光照明模块480的工作状态。
上述控制器可以仅用于控制定向照明模块470和泛光照明模块480的工作状态,也可以用于控制叶片组件300的状态。参考前文所述,该控制器可以集成设置于电路板,从而进一步提升风扇灯的结构紧凑度。
本申请上文实施例中重点描述的是各个实施例之间的不同,各个实施例之间不同的优化特征只要不矛盾,均可以组合形成更优的实施例,考虑到行文简洁,在此则不再赘述。
以上所述仅为本申请的实施例而已,并不用于限制本申请。对于本领域技术人员来说,本申请可以有各种更改和变化。凡在本申请的精神和原理之内所作的任何修改、等同替换、改进等,均应包含在本申请的权利要求范围之内。
Claims (15)
- 一种风扇灯,其中,包括吸顶组件(100)、吊杆(200)、叶片组件(300)、光源组件(400)和驱动器(500),所述吸顶组件(100)通过所述吊杆(200)与所述叶片组件(300)相连,所述光源组件(400)与所述叶片组件(300)相连,且所述光源组件(400)位于所述叶片组件(300)背离所述吸顶组件(100)的一侧,所述驱动器(500)安装于所述吸顶组件(100)、所述叶片组件(300)或所述光源组件(400),且所述驱动器(500)与所述叶片组件(300)和所述光源组件(400)中的至少一者电连接,所述光源组件(400)包括底盘(410)和定向照明模块(470),所述定向照明模块(470)安装于所述底盘(410)。
- 根据权利要求1所述的风扇灯,其中,所述定向照明模块(470)包括第一光源板(471)和至少一个第一发光模组(472),所述第一光源板(471)安装于所述底盘(410),所述第一发光模组(472)设置于所述第一光源板(471),所述第一发光模组(472)包括第一发光单元(472a)和第一配光元件(472b),所述第一配光元件(472b)罩设于所述第一发光单元(472a)的外部。
- 根据权利要求2所述的风扇灯,其中,所述定向照明模块(470)还包括防眩光面罩(473),所述防眩光面罩(473)与所述第一配光元件(472b)相连。
- 根据权利要求3所述的风扇灯,其中,所述防眩光面罩(473)为锥形面罩,所述防眩光面罩(473)的两端均为开口端。
- 根据权利要求4所述的风扇灯,其中,所述防眩光面罩(473)的锥角小于37°。
- 根据权利要求2所述的风扇灯,其中,所述光源组件(400)还包括泛光照明模块(480),所述泛光照明模块(480)安装于所述底盘(410),且所述定向照明模块(470)和所述泛光照明模块(480)均位于所述底盘(410)的同一侧。
- 根据权利要求6所述的风扇灯,其中,所述定向照明模块(470)的出光角小于所述泛光照明模块(480)的出光角;和/或所述泛光照明模块(480)包括第二光源板(481)、匀光面罩(483)和至少一个第二 发光模组(482),所述匀光面罩(483)与所述底盘(410)相连,两者形成第二光学腔,所述第二光源板(481)安装于所述第二光学腔内,所述第二发光模组(482)设置于所述第二光源板(481),所述第二发光模组(482)包括第二发光单元和第二配光元件,所述第二配光元件罩设于所述第二发光单元的外部。
- 根据权利要求6所述的风扇灯,其中,所述泛光照明模块(480)的数量为至少两个,相邻的所述泛光照明模块(480)之间设有至少一个所述定向照明模块(470)。
- 根据权利要求6所述的风扇灯,其中,所述光源组件(400)还包括面框(490),所述面框(490)与所述底盘(410)相连,所述面框(490)设有第一容纳孔(491)和第二容纳孔(492),所述泛光照明模块(480)至少部分位于所述第一容纳孔(491)内,所述定向照明模块(470)至少部分位于所述第二容纳孔(492)内。
- 根据权利要求1所述的风扇灯,其中,所述叶片组件(300)包括基板(310)、伸缩叶片(320)和驱动电机(330),所述伸缩叶片(320)可转动地安装于所述基板(310),所述驱动电机(330)与所述基板(310)相连,所述吊杆(200)的一端与所述吸顶组件(100)相连,所述吊杆(200)的另一端与所述驱动电机(330)的第一端相连,所述光源组件(400)与所述驱动电机(330)的第二端相连,且所述光源组件(400)位于所述叶片组件(300)背离所述吸顶组件(100)的一侧,所述驱动器(500)配置为同时与所述驱动电机(330)及所述光源组件(400)电连接。
- 根据权利要求10所述的风扇灯,其中,所述驱动器(500)包括电路板,所述电路板设有输入端、第一输出端和第二输出端,所述第一输出端与所述驱动电机(330)电连接,所述第二输出端与所述光源组件(400)电连接;和/或所述吸顶组件(100)包括吸顶盒(110),所述吸顶盒(110)具有安装腔(111),所述驱动器(500)安装于所述安装腔(111)内。
- 根据权利要求10所述的风扇灯,其中,所述驱动电机(330)包括机壳(331)、定子模组(332)和转子模组(333),所述定子模组(332)的两端分别与所述吊杆(200)以及所述光源组件(400)相连,所述转子模组(333)与所述机壳(331)相连,所述机壳(331)与所述基板(310)相连。
- 根据权利要求10所述的风扇灯,其中,所述风扇灯还包括定位件(700),所述光源组件(400)包括底盘(410)、光源板(420)和透光面罩(430),所述底盘(410)和所述透光面罩(430)相连,两者形成第一光学腔,所述光源板(420)安装于所述第一光学腔内,所述驱动电机(330)的第二端伸入所述第一光学腔,所述定位件(700)安装于所述驱动电机(330)的第二端,且位于所述第一光学腔内,所述定位件(700)与所述底盘(410)定位配合。
- 根据权利要求13所述的风扇灯,其中,所述驱动器(500)安装于所述第一光学腔内;和/或平行于所述吊杆(200)的方向为第一方向,在所述伸缩叶片(320)处于回缩状态的情况下,所述伸缩叶片(320)沿所述第一方向的正投影位于所述底盘(410)沿所述第一方向的正投影内。
- 根据权利要求10所述的风扇灯,其中,所述叶片组件(300)还包括同步件(340)和安装座(350),所述同步件(340)可转动地安装于所述基板(310),且所述同步件(340)的转动中心与所述基板(310)的转动中心重合,多个所述伸缩叶片(320)通过多个所述安装座(350)可转动地安装于所述基板(310),所述同步件(340)设有多个滑槽(341),所述安装座(350)设有凸出部,各所述安装座(350)的所述凸出部一一对应地与各所述滑槽(341)滑动配合;和/或所述叶片组件(300)还包括扭簧(360),所述扭簧(360)的一端与所述基板(310)相连,所述扭簧(360)的另一端与所述伸缩叶片(320)相连。
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Citations (12)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN201302101Y (zh) * | 2008-11-12 | 2009-09-02 | 天津工大海宇半导体照明有限公司 | 一种led投光灯 |
CN202902094U (zh) * | 2012-11-09 | 2013-04-24 | 郭焕河 | 一种筒灯 |
US20150276207A1 (en) * | 2014-03-26 | 2015-10-01 | Ching-Wen Liu | Ceiling Fan Lighting System |
CN109026835A (zh) * | 2017-12-08 | 2018-12-18 | 中山市风润智能家居科技有限公司 | 一种结构精简的隐形扇及采用该隐形扇的风扇灯 |
CN109114038A (zh) * | 2018-09-27 | 2019-01-01 | 欧普照明股份有限公司 | 一种隐形扇及风扇灯 |
CN208457591U (zh) * | 2018-05-07 | 2019-02-01 | 刘军 | Led灯具 |
US20190301706A1 (en) * | 2018-04-03 | 2019-10-03 | Xiamen Eco Lighting Co. Ltd. | Lighting device |
CN210637862U (zh) * | 2019-07-23 | 2020-05-29 | 苏州优童智能科技有限公司 | 一种led防炫光护眼台灯 |
CN111623285A (zh) * | 2020-06-30 | 2020-09-04 | 欧普照明电器(中山)有限公司 | 风扇灯 |
CN111623286A (zh) * | 2020-06-30 | 2020-09-04 | 欧普照明电器(中山)有限公司 | 风扇灯 |
CN111997925A (zh) * | 2020-09-21 | 2020-11-27 | 欧普照明电器(中山)有限公司 | 风扇灯 |
CN111997926A (zh) * | 2020-09-21 | 2020-11-27 | 欧普照明电器(中山)有限公司 | 风扇灯 |
Family Cites Families (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US10125971B2 (en) * | 2013-02-19 | 2018-11-13 | Michael Graziano | LED lamp integrated to electric fan |
CN105805647B (zh) * | 2016-04-19 | 2018-06-19 | 广东善觉科技有限公司 | 无影灯光源模组 |
CN108266394A (zh) * | 2018-03-03 | 2018-07-10 | 尹传亮 | 一种隐形的吊扇灯 |
WO2020063551A1 (zh) * | 2018-09-27 | 2020-04-02 | 欧普照明股份有限公司 | 一种隐形扇及风扇灯 |
CN210196068U (zh) * | 2019-05-14 | 2020-03-27 | 李敏 | 一种风扇及风扇灯 |
-
2021
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-
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Patent Citations (12)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN201302101Y (zh) * | 2008-11-12 | 2009-09-02 | 天津工大海宇半导体照明有限公司 | 一种led投光灯 |
CN202902094U (zh) * | 2012-11-09 | 2013-04-24 | 郭焕河 | 一种筒灯 |
US20150276207A1 (en) * | 2014-03-26 | 2015-10-01 | Ching-Wen Liu | Ceiling Fan Lighting System |
CN109026835A (zh) * | 2017-12-08 | 2018-12-18 | 中山市风润智能家居科技有限公司 | 一种结构精简的隐形扇及采用该隐形扇的风扇灯 |
US20190301706A1 (en) * | 2018-04-03 | 2019-10-03 | Xiamen Eco Lighting Co. Ltd. | Lighting device |
CN208457591U (zh) * | 2018-05-07 | 2019-02-01 | 刘军 | Led灯具 |
CN109114038A (zh) * | 2018-09-27 | 2019-01-01 | 欧普照明股份有限公司 | 一种隐形扇及风扇灯 |
CN210637862U (zh) * | 2019-07-23 | 2020-05-29 | 苏州优童智能科技有限公司 | 一种led防炫光护眼台灯 |
CN111623285A (zh) * | 2020-06-30 | 2020-09-04 | 欧普照明电器(中山)有限公司 | 风扇灯 |
CN111623286A (zh) * | 2020-06-30 | 2020-09-04 | 欧普照明电器(中山)有限公司 | 风扇灯 |
CN111997925A (zh) * | 2020-09-21 | 2020-11-27 | 欧普照明电器(中山)有限公司 | 风扇灯 |
CN111997926A (zh) * | 2020-09-21 | 2020-11-27 | 欧普照明电器(中山)有限公司 | 风扇灯 |
Non-Patent Citations (1)
Title |
---|
See also references of EP4119837A4 |
Also Published As
Publication number | Publication date |
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EP4119837A1 (en) | 2023-01-18 |
US11873986B2 (en) | 2024-01-16 |
EP4119837A4 (en) | 2023-08-23 |
US20230117222A1 (en) | 2023-04-20 |
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