AU2021103806A4 - Integrally Assembled Fan Lamp - Google Patents
Integrally Assembled Fan Lamp Download PDFInfo
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- AU2021103806A4 AU2021103806A4 AU2021103806A AU2021103806A AU2021103806A4 AU 2021103806 A4 AU2021103806 A4 AU 2021103806A4 AU 2021103806 A AU2021103806 A AU 2021103806A AU 2021103806 A AU2021103806 A AU 2021103806A AU 2021103806 A4 AU2021103806 A4 AU 2021103806A4
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- Australia
- Prior art keywords
- heat dissipation
- fan
- plate
- lampshade
- fixing
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- Arrangement Of Elements, Cooling, Sealing, Or The Like Of Lighting Devices (AREA)
Abstract
An integrally assembled fan lamp, comprising: a hanging rod (1); a fan assembly
(2) mounted on the hanging rod (1), the fan assembly (2) comprising a direct drive
5 motor (21) and fan blades (22) mounted on the direct drive motor (21), a motor shaft
(23) of the direct drive motor (21) being assembled to the hanging rod (1); an
illumination lamp module (3) carried on the motor shaft (23), the illumination lamp
module (3) comprising an LED module (31) and a locking assembly (32) for fixing
the LED module (31) to the motor shaft (23); and a lampshade (4) carried on the fan
10 blades (22), the lampshade (4) rotating synchronously with the fan blades (22). As the
illumination lamp module (3) is assembled to the motor shaft (23), and the lampshade
(4) is directly assembled on the fan blades (22), the lampshade (4) and the fan
assembly (2) are almost seamlessly connected, realizing a smooth streamlined
appearance thereof, and the spacing between the lampshade (4) and the fan assembly
15 (2) is reduced, so that the overall thickness of the product is small, and lamp light
irradiated to the fan blades (22) from the bottom up is reduced, reducing shadows on a
ceiling when the lamp is turned on.
12
Description
P/00/009 Regulation 3.2 AUSTRALIA Patents Act 1990
Invention title: Integrally Assembled Fan Lamp
Name of Applicant: Foshan Shunde Wei Yuan Electrical CO., LTD.
Address for Service A.P.T. Patent and Trade Mark Attorneys PO Box 833 Blackwood, S.A. 5051
The invention is described in the following statement:
This invention generally relates to the technical field of fan lamps, and more
particularly, to an integrally assembled fan lamp.
Lamps are indispensable lighting appliances for indoor decoration. With the
improvement of people's living standards, various lamps have emerged on the market.
Fan lamps are widely used because they are bifunctional. A fan lamp typically
comprises a fan and a lamp, wherein the fan and the lamp are mounted on a hanging
rod, and a lampshade is arranged to protect the lamp. However, the conventional
lampshade does not rotate, which requires the lampshade and the fan blades to be
separately arranged. Moreover, there is a certain distance existing between the
lampshade and the fan blades, making the overall thickness of the product larger
while failing to achieve a smooth streamlined appearance.
The purpose of the present invention is to provide an integrally assembled fan
lamp. Through adopting the present invention, the technical problems relating to the
large thickness of the product and the failure of achieving a smooth streamlined
appearance are solved.
To achieve the above purpose, the present invention adopts the following
technical solution: an integrally assembled fan lamp, comprising: a hanging rod; a fan
assembly mounted on the hanging rod, the fan assembly comprising a direct drive
motor and fan blades mounted on the direct drive motor, a motor shaft of the direct
drive motor being assembled to the hanging rod; an illumination lamp module carried
on the motor shaft, the illumination lamp module comprising an LED module and a
locking assembly for fixing the LED module to the motor shaft; and a lampshade
carried on the fan blades, the lampshade rotating synchronously with the fan blades.
As the illumination lamp module is assembled to the motor shaft, and the
lampshade is directly assembled on the fan blades, the lampshade and the fan assembly are almost seamlessly connected, realizing a smooth streamlined appearance thereof, and the spacing between the lampshade and the fan assembly is reduced, so that the overall thickness of the product is small, and lamp light irradiated to the fan blades from the bottom up is reduced, reducing shadows on a ceiling when the lamp is turned on. Meanwhile, during production, when a fan without a light source is needed, the illumination lamp module is not assembled, and a bottom shell with the same shape as the lampshade is used for closing the bottom of the fan assembly. Contrarily, when a fan with an illumination lamp module is needed, the bottom shell is replaced with a transparent lampshade. Therefore, the bottom shell and the lampshade can be machined and formed by using a same mold such that the processing becomes more convenient and the cost of the mold is reduced.
In another preferred embodiment, the LED module comprises a heat dissipation
plate, an aluminum base board carried on the heat dissipation plate and a plurality of
LED lights arranged on the aluminum base board. A plurality of fixing holes are
formed in the heat dissipation plate and the aluminum base board, and a positioning
hole for allowing the motor shaft to pass through is formed in the central positions of
the heat dissipation plate and the aluminum base board.
The LED lights are provided with a conductive base through the aluminum base
board, and heat generated when the LED lights are on can be dissipated through the
heat dissipation plate. The wires of the LED lights can pass through the positioning
hole and are connected with a circuit module of the fan assembly after passing
through the motor shaft.
In another preferred embodiment, a threaded section is provided at the end of the
motor shaft, and a limiting step is formed between the threaded section and the
hanging rod. The locking assembly comprises a fixing plate sleeved on the threaded
section and located on one side of the heat dissipation plate away from the lampshade,
a first fixing member penetrating through the fixing hole for fixing the heat
dissipation plate to the fixing plate, and a secondfixing member threadedly connected
to the threaded section for pressing the fixing plate against the limiting step.
During installation, the illumination lamp module is integrally locked on the
fixing plate through the first fixing member, and then the fixing plate is pressed and
fixed on the motor shaft through the second fixing member, thereby achieving the
mounting and fixing of the illumination lamp module.
In another preferred embodiment, a stabilizing plate is arranged between the
fixing plate and the limiting step, and the fixing plate tightly presses the stabilizing
plate against the limiting step.
Through adopting the stabilizing plate, a balanced and stable fixing of the
illumination lamp module is achieved.
In another preferred embodiment, a transition ring plate is fixed on the fan
assembly, and the lampshade is clamped and fixed to the transition ring plate.
Through adopting the transition ring plate, the fan lamp of the present invention
becomes aesthetically appealing and can be conveniently installed.
In another preferred embodiment, a transparent light collecting block is arranged
in the middle of the aluminum base board.
The light emitted by the LED lights can be collected through the light collecting
block such that the illumination effect is improved.
In another preferred embodiment, a plurality of heat dissipation ribs are arranged
on one side of the heat dissipation plate opposite to the aluminum base board.
In another preferred embodiment, the heat dissipation ribs comprise a plurality of
ring ribs distributed along the radial direction of the heat dissipation plate and a
plurality of straight ribs distributed around the axis direction of the heat dissipation
plate.
Through arranging the heat dissipation ribs, the heat dissipation effect of the heat
dissipation plate is significantly improved.
Compared with the prior art, the present invention has the following advantages:
An integrally assembled fan lamp, comprising: a hanging rod; a fan assembly
mounted on the hanging rod, the fan assembly comprising a direct drive motor and fan
blades mounted on the direct drive motor, a motor shaft of the direct drive motor
being assembled to the hanging rod; an illumination lamp module carried on the motor shaft, the illumination lamp module comprising an LED module and a locking assembly for fixing the LED module to the motor shaft; and a lampshade carried on the fan blades, the lampshade rotating synchronously with the fan blades. As the illumination lamp module is assembled to the motor shaft, and the lampshade is directly assembled on the fan blades, the lampshade and the fan assembly are almost seamlessly connected, realizing a smooth streamlined appearance thereof, and the spacing between the lampshade and the fan assembly is reduced, so that the overall thickness of the product is small, and lamp light irradiated to the fan blades from the bottom up is reduced, reducing shadows on a ceiling when the lamp is turned on.
Meanwhile, during production, when a fan without a light source is needed, the
illumination lamp module is not assembled, and a bottom shell with the same shape as
the lampshade is used for closing the bottom of the fan assembly. Contrarily, when a
fan with an illumination lamp module is needed, the bottom shell is replaced with a
transparent lampshade. Therefore, the bottom shell and the lampshade can be
machined and formed by using a same mold such that the processing becomes more
convenient and the cost of the mold is reduced.
To clearly explain the technical solution in the embodiment of the present
invention, the drawings used in the embodiment or the prior art are briefly introduced.
It is obvious that the drawings in the description are merely some embodiments of the
present invention. For those skilled in the art, other drawings may also be obtained
from these drawings without paying creative labor.
Figure 1 is a conceptual diagram illustrating an exemplary structure of the present
invention.
Figure 2 is a conceptual diagram illustrating an explosive view of the present
invention.
Figure 3 is a conceptual diagram illustrating a sectional view of the present invention.
Figure 4 is a conceptual diagram illustrating an enlarged structure of portion A in
Figure 3.
Figure 5 is a conceptual diagram illustrating an exemplary structure of the heat
dissipation plate of the present invention.
In the Figures:
1-Hanging Rod, 2-Fan Assembly, 21-Direct Drive Motor, 22-Fan Blade, 23-Motor
Shaft, 231-Threaded Section, 232-Limiting Step, 3-Illumination Lamp module,
31-LED module, 311-Heat Dissipation Plate, 312-Aluminum Base Board, 313-LED
Light, 314-Fixing Hole, 315-Positioning Hole, 316-Ring Rib, 317-Straight Rib,
32-Locking Assembly, 321-Fixing Plate, 322-The First Fixing Member, 323-The
Second Fixing Member, 4-Lampshade, 5-Stabilizing Plate, 6-Transition Ring Plate,
7-Light Collecting Block.
In the description of the present invention, many details are presented to facilitate
a comprehensive understanding of the present invention. However, it is obvious for
those skilled in the art that the present invention can be implemented without some of
these details. The following description of embodiments is merely intended to allow
the present invention to be better understood.
Figures are combined hereinafter to describe the technical solution of the present
invention.
As shown in Figures 1-5, an integrally assembled fan lamp, comprising: a
hanging rod 1; a fan assembly 2 mounted on the hanging rod 1, the fan assembly 2
comprising a direct drive motor 21 and fan blades 22 mounted on the direct drive
motor 21, a motor shaft 23 of the direct drive motor 21 being assembled to the
hanging rod 1; an illumination lamp module 3 carried on the motor shaft 23, the
illumination lamp module 3 comprising an LED module 31 and a locking assembly 32
for fixing the LED module 31 to the motor shaft 23; and a lampshade 4 carried on the
fan blades 22, the lampshade 4 rotating synchronously with the fan blades 22.
More specifically, the hanging rod 1 is used for being assembled with the ceiling,
and the lampshade 4 covers the LED module 31 for protecting the LED module 31.
The LED module 31 comprises a heat dissipation plate 311, an aluminum base board
312 carried on the heat dissipation plate 311 and a plurality of LED lights 313 arranged on the aluminum base board 312. A plurality of fixing holes 314 are formed in the heat dissipation plate 311 and the aluminum base board 312, and a positioning hole 315 for allowing the motor shaft 23 to pass through is formed in the central positions of the heat dissipation plate 311 and the aluminum base board 312. The aluminum base board 312 can be fixed to the heat dissipation plate 311 by means of bonding or screw locking. The LED lights 313 are provided with a conductive base through the aluminum base board 312, and heat generated when the LED lights 313 are on can be dissipated through the heat dissipation plate 311. The wires of the LED lights 313 can pass through the positioning hole 315 and are connected with a circuit module of the fan assembly 2 after passing through the motor shaft 23.
To improve the heat dissipation effect of the heat dissipation plate 311, a
plurality of heat dissipation ribs are arranged on one side of the heat dissipation plate
311 opposite to the aluminum base board 312. The heat dissipation ribs comprise a
plurality of ring ribs 317 distributed along the radial direction of the heat dissipation
plate 311 and a plurality of straight ribs 317 distributed around the axis direction of
the heat dissipation plate 311. Through arranging the heat dissipation ribs, the heat
dissipation effect of the heat dissipation plate 311 is significantly improved and the
structural strength of the heat dissipation plate 311 is greatly enhanced.
A threaded section 231 is provided at the end of the motor shaft, and a limiting
step 232 is formed between the threaded section 231 and the hanging rod 1. The
locking assembly 32 comprises a fixing plate 321 sleeved on the threaded section 231
and located on one side of the heat dissipation plate 311 away from the lampshade 4, a
first fixing member 322 penetrating through the fixing hole 314 for fixing the heat
dissipation plate 311 to the fixing plate 321, and a second fixing member 323
threadedly connected to the threaded section 231 for pressing the fixing plate 321
against the limiting step 232. The first fixing member 322 is a screw and the second
fixing member 323 is a nut. During installation, the illumination lamp module 3 is
integrally locked on the fixing plate 321 through the first fixing member 322, and then
the fixing plate 321 is pressed and fixed on the motor shaft 23 through the second
fixing member 323, thereby achieving the mounting and fixing of the illumination lamp module 3. Meanwhile, to achieve a balanced and stable fixing of the illumination lamp module 3, a stabilizing plate 5 is arranged between the fixing plate 321 and the limiting step 232, and the fixing plate 321 tightly presses the stabilizing plate 5 against the limiting step 232. Further, a transition ring plate 6 is fixed on the fan assembly 2, and the lampshade 4 is clamped and fixed to the transition ring plate 6. Through adopting the aforesaid design, the fan lamp of the present invention becomes aesthetically appealing and can be conveniently installed. Further, a transparent light collecting block 7 is arranged in the middle of the aluminum base board 312. The light emitted by the LED lights 313 can be collected through the light collecting block 7 such that the illumination effect is improved. As the illumination lamp module 3 is assembled to the motor shaft 23, and the lampshade 4 is directly assembled on the fan blades 22, the lampshade 4 and the fan assembly 2 are almost seamlessly connected, realizing a smooth streamlined appearance thereof, and the spacing between the lampshade 4 and the fan assembly 2 is reduced, so that the overall thickness of the product is small, and lamp light irradiated to the fan blades 22 from the bottom up is reduced, reducing shadows on a ceiling when the lamp is turned on. Meanwhile, during production, when a fan without a light source is needed, the illumination lamp module 3 is not assembled, and a bottom shell with the same shape as the lampshade 4 is used for closing the bottom of the fan assembly 2. Contrarily, when a fan with an illumination lamp module 3 is needed, the bottom shell is replaced with a transparent lampshade 4. Therefore, the bottom shell and the lampshade 4 can be machined and formed by using a same mold such that the processing becomes more convenient and the cost of the mold is reduced.
The aforesaid embodiments are merely used to explain the technical solution of the present invention but not to limit the scope of the present invention. Obviously, the described embodiments are merely a representative part but not all of the embodiments of the present invention. Based on these embodiments, all other embodiments obtained by those skilled in the art without paying creative labor shall fall into the scope of the present invention. Although the present invention has been described in detail with reference to the aforesaid embodiments, those skilled in the art can still combine, add, delete or make other adjustments to the technical features in each embodiment of the present invention without paying creative labor, thereby obtaining other technical solutions which are different but not essentially departed from the concept of the present invention. Therefore, these technical solutions shall also fall into the scope of the present invention.
The above embodiments are merely preferred embodiments of the present
invention, which do not limit the scope of the present invention. Therefore, all
modifications, equivalent changes and replacements made without departing from the
spirit and principle of the present invention shall fall into the scope of the present
invention.
Claims (8)
1. An integrally assembled fan lamp, comprising:
a hanging rod,
a fan assembly mounted on the hanging rod, the fan assembly comprising a direct
drive motor and fan blades mounted on the direct drive motor, a motor shaft of the
direct drive motor being assembled to the hanging rod,
an illumination lamp module carried on the motor shaft, the illumination lamp
module comprising an LED module and a locking assembly for fixing the LED
module to the motor shaft, and
a lampshade carried on the fan blades, the lampshade rotating synchronously with
the fan blades.
2. The integrally assembled fan lamp of claim 1, wherein the LED module comprises:
a heat dissipation plate, an aluminum base board carried on the heat dissipation
plate and a plurality of LED lights arranged on the aluminum base board, wherein
a plurality of fixing holes are formed in the heat dissipation plate and the
aluminum base board, and a positioning hole for allowing the motor shaft to pass
through is formed in the central positions of the heat dissipation plate and the
aluminum base board.
3. The integrally assembled fan lamp of claim 2, wherein a threaded section is
provided at the end of the motor shaft, and a limiting step is formed between the
threaded section and the hanging rod, wherein the locking assembly comprises:
a fixing plate sleeved on the threaded section and located on one side of the heat
dissipation plate away from the lampshade, a first fixing member penetrating
through the fixing hole for fixing the heat dissipation plate to the fixing plate, and
a second fixing member threadedly connected to the threaded section for pressing
the fixing plate against the limiting step.
4. The integrally assembled fan lamp of claim 3, wherein a stabilizing plate is
arranged between the fixing plate and the limiting step, and the fixing plate tightly
presses the stabilizing plate against the limiting step.
5. The integrally assembled fan lamp of claim 1, wherein a transition ring plate is
fixed on the fan assembly, and the lampshade is clamped and fixed to the
transition ring plate.
6. The integrally assembled fan lamp of claim 2, wherein a transparent light
collecting block is arranged in the middle of the aluminum base board.
7. The integrally assembled fan lamp of claim 1, wherein a plurality of heat
dissipation ribs are arranged on one side of the heat dissipation plate opposite to
the aluminum base board.
8. The integrally assembled fan lamp of claim 1, wherein the heat dissipation ribs
comprise a plurality of ring ribs distributed along the radial direction of the heat
dissipation plate and a plurality of straight ribs distributed around the axis
direction of the heat dissipation plate.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
AU2021103806A AU2021103806A4 (en) | 2019-02-16 | 2021-07-02 | Integrally Assembled Fan Lamp |
Applications Claiming Priority (3)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201920209355.XU CN209495231U (en) | 2019-02-16 | 2019-02-16 | Integrated assembled fan lamp |
CN201920209355.X | 2019-02-16 | ||
AU2021103806A AU2021103806A4 (en) | 2019-02-16 | 2021-07-02 | Integrally Assembled Fan Lamp |
Related Parent Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
PCT/CN2020/073275 Division WO2020164372A1 (en) | 2019-02-16 | 2020-01-20 | Integrally assembled fan lamp |
Publications (1)
Publication Number | Publication Date |
---|---|
AU2021103806A4 true AU2021103806A4 (en) | 2021-09-09 |
Family
ID=77589247
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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AU2021103806A Active AU2021103806A4 (en) | 2019-02-16 | 2021-07-02 | Integrally Assembled Fan Lamp |
Country Status (1)
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AU (1) | AU2021103806A4 (en) |
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2021
- 2021-07-02 AU AU2021103806A patent/AU2021103806A4/en active Active
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FGI | Letters patent sealed or granted (innovation patent) |