CN218914648U - Ceiling fan lamp with anion purification function - Google Patents

Abstract

The utility model provides a ceiling fan lamp with an anion purification function, which comprises a hanging seat, a ceiling fan motor, a ceiling fan assembly and a lighting assembly, wherein the lighting assembly is arranged below the ceiling fan assembly and comprises a lamp holder, a lighting lamp main body and a lamp shade; the purification assembly is arranged below the ceiling fan assembly and comprises a negative ion generator, a negative high-voltage pole and a reference ground pole, wherein the negative ion generator comprises a generator shell and a negative ion generation circuit arranged in the generator shell, and the tail ends of the negative high-voltage pole and the reference ground pole are downwards arranged and respectively provided with a release tip. Furthermore, the input negative electrode wire of the negative ion generator is connected with 1 static guide wire in series, the static guide wire is connected with a safety resistor in series, and the tail end of the static guide wire is electrically connected with the ground wire of the mains supply. The utility model can generate high-concentration negative ions, and can carry out high-efficiency purification treatment on air while lighting and air supply; further, the electrostatic influence generated by the generation of high-concentration negative ions can be eliminated, and the service life and the operation effect of the product are ensured.

Description

Ceiling fan lamp with anion purification function

Technical Field

The utility model relates to a ceiling fan lamp, in particular to a ceiling fan lamp with an anion purification function.

Background

Most airborne bacterial viruses attach to PM2.5 dust particles and aerosols suspended in air. The PM2.5 dust particles and aerosol in the air can be effectively settled by the high-concentration air anions and are adhered to the ground surface in an electrostatic adsorption mode, so that the carrier for transmitting the bacterial viruses in the air is effectively reduced, and the risk of transmitting the bacterial viruses in the air is reduced. Most of the ceiling fan lamps on the market have no air purifying function. Some ceiling fan lamps are added with negative ion generators to generate negative ion for purifying air, but the negative ion generators are simply added on the ceiling fan lamps to generate negative ions, and reasonable structural design is not made on the negative ion emitters according to the characteristics of the negative ions, so that the negative ions cannot exert real functional effects. In addition, static electricity can be generated when high-concentration anions are generated along with the anion generator, so that the service life of the LED lamp beads in the ceiling fan lamp is seriously shortened due to the influence of the static electricity, meanwhile, the stability of the circuit board in the fan is also influenced, and the service life of the fan is reduced. Improvements are necessary to ensure air cleaning and to reduce the effects of static electricity.

Disclosure of Invention

The utility model aims to provide a ceiling fan lamp with an anion purification function, which can generate high-concentration anions and can carry out high-efficiency purification treatment on air while lighting and supplying air; further, the electrostatic influence generated by the generation of high-concentration negative ions can be eliminated, and the service life and the operation effect of the product are ensured.

The aim of the utility model can be achieved by the following technical scheme:

the ceiling fan lamp with the anion purification function comprises a hanging seat, a ceiling fan motor, a ceiling fan assembly and a lighting assembly, wherein a hanging rod is arranged on the hanging seat, the ceiling fan motor is arranged on the hanging rod, the ceiling fan assembly comprises a ceiling fan disc and a plurality of ceiling fan blades uniformly arranged on the ceiling fan disc, the top of the ceiling fan disc is connected with the ceiling fan motor to be driven by the ceiling fan motor to rotate, the bottom of the ceiling fan disc is provided with a bottom opening, and the tail end of the hanging rod penetrates into the ceiling fan disc; the lighting assembly is arranged below the ceiling fan assembly and comprises a lamp holder, a lighting lamp main body and a lamp shade, wherein the upper part of the lamp holder penetrates into the ceiling fan tray and is arranged at the upper end of the hanging rod, the lower part of the lamp holder is exposed out of a bottom opening of the ceiling fan tray, the lighting lamp main body is arranged on the bottom surface of the lamp holder and is covered by the lamp shade, and a light-transmitting plate part is arranged on the lamp shade corresponding to the lighting lamp main body; the method is characterized in that: the device also comprises a purifying component; the purification assembly adopts a negative ion generating device, is arranged below the ceiling fan assembly, and comprises a negative ion generator, a negative high-voltage electrode and a reference ground electrode, wherein the negative high-voltage electrode and the reference ground electrode are electrically connected with the output end of the negative ion generator, the negative ion generator comprises a generator shell and a negative ion generating circuit arranged in the generator shell, and the tail ends of the negative high-voltage electrode and the reference ground electrode are downwards arranged and are respectively provided with a release tip.

In the optimized scheme, the illuminating lamp main body of the illuminating assembly adopts an LED lamp structure and comprises an LED lamp panel, wherein an LED lamp driver is arranged in the middle of the bottom surface of the LED lamp panel, a plurality of LED lamp beads are arranged at the edge of the bottom surface, an annular heat dissipation plate part is arranged at the edge of a lamp holder, and the LED lamp panel is arranged on the bottom surface in the middle of the lamp holder.

In the optimized scheme, the purification assembly further comprises an assembly bracket, wherein the assembly bracket is of an annular structure with a bracket perforation in the middle part, an annular cavity is arranged at the edge of the assembly bracket, 2 symmetrical cylindrical holes are vertically arranged in the annular cavity of the assembly bracket, side wall perforations are formed in the side walls of the cylindrical holes, 2 pointed positioning heads are correspondingly arranged on the 2 cylindrical holes, the middle part of the pointed positioning head is provided with a positioning perforation coaxially arranged with the cylindrical holes, and the positioning perforation is sequentially provided with a positioning hole section with a gradually-narrowed inner diameter and a horn-shaped radial hole section with a gradually-enlarged inner diameter from top to bottom; the negative ion generator is arranged in the annular cavity of the component bracket, and the negative high-voltage electrode and the reference ground electrode are arranged along the annular cavity, respectively penetrate through the side wall perforation of the 2 cylindrical holes and enter the positioning hole section of the positioning perforation through the cylindrical holes, so that the release tip is positioned in the horn-shaped radial hole section of the positioning perforation.

The assembly bracket is coaxially arranged on the bottom surface of the annular heat radiation plate part, so that the illuminating lamp main body is positioned in the bracket perforation of the assembly bracket, and the lampshade is arranged on the bottom of the assembly bracket, and the bracket perforation cover and the edge part of the lampshade are provided with positioning head holes corresponding to the tip positioning heads.

Further, the generator shell of the negative ion generator is of an arc-shaped strip structure and corresponds to the annular cavity of the component bracket.

In the optimized scheme, 1 electrostatic guide line is connected in series on an input negative electrode line of the negative ion generator, and a safety resistor is connected in series on the electrostatic guide line, and the tail end of the electrostatic guide line is electrically connected with a mains supply grounding line.

In the optimized scheme, the lamp holder is formed by vertically butting a connecting support and a lamp panel heat dissipation plate, wherein the connecting support is a cylindrical shell with an open bottom, an inner wall wedge block is arranged on the inner wall of the cylindrical shell, the lamp panel heat dissipation plate is a cylindrical shell with an open top, an outer wall wedge block is arranged on the outer wall of the cylindrical shell, the upper part of the lamp panel heat dissipation plate is inserted into the connecting support, the outer wall wedge block is lapped on the inner wall wedge block, and the annular heat dissipation plate part of the lamp holder is arranged on the outer wall of the lamp panel heat dissipation plate.

The assembly support is sleeved on the lower part of the lamp panel heat dissipation plate through the support perforation, the top of the inner wall of the support perforation is provided with a slot, and the outer wall of the lower part of the lamp panel heat dissipation plate is provided with a convex column inserted in the slot, so that the assembly support is positioned and installed on the lamp holder.

In an optimized scheme, the illuminating lamp main body of the illuminating assembly further comprises an inner lamp cover, wherein the inner lamp cover is of a transparent plate-shaped structure arranged below the LED lamp panel, the middle part of the inner lamp cover is provided with a cover part for covering the LED lamp driver, and the side part of the inner lamp cover is provided with a plurality of hemispherical light-transmitting parts, and the hemispherical light-transmitting parts correspond to LED lamp beads of the LED lamp panel one by one.

In the optimized scheme, a controller is further arranged above the ceiling fan motor on the hanging rod, and the controller is respectively and electrically connected with the ceiling fan motor, the lighting lamp main body and the negative ion generator.

In the optimized scheme, the cylindrical shell is coaxially arranged above the ceiling fan tray on the bottom of the hanging seat.

The utility model has the following substantial characteristics and progress:

1. the utility model can generate high-concentration negative ions, and can carry out high-efficiency purification treatment on air while lighting and air supply; further, constitute the lamp stand through linking bridge and lamp panel heating panel to with design cooperation location structure on linking bridge, lamp panel heating panel and the subassembly support, and then produce the location effect when the equipment is assembled, effectively improve the equipment rate through the location connection, still have firm in connection, easily equipment and convenient to detach's characteristics.

2. Due to the characteristics of the negative ion generator, the larger the accumulation of positive charges static electricity generated by losing electrons inside the circuit while generating high concentration air negative ions. The accumulation of static in the circuit is easily conducted to the controller through the power line of the negative ion generator and conducted to the LED lamp panel, so that the work of the controller is influenced and the service life of the LED lamp panel is influenced. Therefore, the static guide line of the negative ion generator is electrically connected with the ground wire of the commercial power, positive charge static electricity generated in the generator is effectively guided away through the ground wire, static electricity accumulation is avoided, and the influence of the conduction of the static electricity through an internal circuit on the service life of the lamp and the normal operation of the fan are avoided.

Drawings

Fig. 1 is a schematic external view of the present utility model.

Fig. 2 is a schematic diagram of the internal structure of the present utility model.

Fig. 3 is an enlarged view of the portion I in fig. 2.

Fig. 4 is a schematic structural diagram of the negative ion generator according to the present utility model.

Fig. 5 is a schematic view showing an installation state of the negative ion generator in the present utility model.

FIG. 6 is an exploded view of the illumination assembly and the decontamination assembly of the present utility model.

Fig. 7 is an enlarged view of a portion G in fig. 6.

Fig. 8 is a schematic view showing an electrical connection state of an electrostatic guide wire in the present utility model.

Detailed Description

The utility model is further described below with reference to the accompanying drawings.

Examples

Referring to fig. 1 to 8, a ceiling fan lamp with an anion purification function includes a ceiling mount 1, a ceiling fan motor 11, a ceiling fan assembly, a lighting assembly, and a purification assembly.

The hanging rod 12 is installed on the hanging seat 1, the hanging fan motor 11 is installed on the hanging rod 12, the hanging fan assembly comprises a hanging fan disc 13 and a plurality of hanging fan blades 14 uniformly arranged on the hanging fan disc 13, the top of the hanging fan disc 13 is connected with the hanging fan motor 11, the hanging fan motor 11 is driven to rotate, the bottom of the hanging fan disc is provided with a bottom opening, and the tail end of the hanging rod 12 penetrates into the hanging fan disc 13.

The lighting assembly is arranged below the ceiling fan assembly, the lighting assembly comprises a lamp holder 2, a lighting lamp body and a lamp shade 4, the upper portion of the lamp holder 2 penetrates into the ceiling fan tray 13 and is arranged at the upper end of the hanging rod 12, the lower portion of the lamp holder is exposed out of a bottom opening of the ceiling fan tray 13, the lighting lamp body is arranged on the bottom surface of the lamp holder 2 and is covered by the lamp shade 4, and a light-transmitting plate portion 41 is arranged on the lamp shade 4 corresponding to the lighting lamp body.

Referring specifically to fig. 4 and 5, the purifying component adopts a negative ion generating device, which is arranged below the ceiling fan component, and the purifying component comprises a negative ion generator, a negative high-voltage pole 51 and a reference ground pole 52 which are electrically connected with the output end of the negative ion generator, wherein the negative ion generator comprises a generator shell 5 and a negative ion generating circuit 53 arranged in the generator shell 5, and the tail ends of the negative high-voltage pole 51 and the reference ground pole 52 are downwards arranged and are respectively provided with a release tip 54. Referring specifically to fig. 8, the input negative line 55 of the negative ion generator is connected in series with 1 electrostatic guide line 56, the electrostatic guide line 56 is connected in series with a safety resistor 57, and the end of the electrostatic guide line 56 is electrically connected with a mains supply ground line. The resistance value of the safety resistor 57 is set to be greater than 20mΩ, so that the static guide wire 56 guides static electricity accumulated in the negative ion generator into the mains supply ground wire, thereby avoiding static electricity accumulation and avoiding static electricity from affecting normal use of related electrical components such as the lighting lamp main body and the ceiling fan motor 11 through conduction of an internal circuit.

In the embodiment, the purifying component is arranged below the ceiling fan component, and the forced air flow generated by the ceiling fan component is used for stirring and pushing negative ions generated by the purifying component below the purifying component while the purifying component has the functions of air supply and illumination, so that the flow of the negative ions in the air is accelerated, the diffusion range of the negative ions in the using space is enlarged, and the air purifying efficiency is improved.

Referring specifically to fig. 2, in this embodiment, the lighting lamp body of the lighting assembly specifically adopts an LED lamp structure, which includes an LED lamp panel 3 and an inner lamp cover 30. The middle part of the bottom surface of the LED lamp panel 3 is provided with an LED lamp driver 31, the edge part of the bottom surface is provided with a plurality of LED lamp beads 32, the edge part of the lamp holder 2 is provided with an annular heat dissipation plate part 21, and the LED lamp panel 3 is arranged on the bottom surface of the middle part of the lamp holder 2. The lamp inner cover 30 is a transparent plate-shaped structure arranged below the LED lamp panel 3, the middle part of the lamp inner cover is provided with a cover part 301 covering the LED lamp driver 31, the side part of the lamp inner cover is provided with a plurality of hemispherical light-transmitting parts 302, and the hemispherical light-transmitting parts 302 are in one-to-one correspondence with the LED lamp beads 32 of the LED lamp panel 3. The lamp inner cover 30 can effectively block air anions and prevent the air anions from being adsorbed on the LED lamp panel 3.

In this embodiment, the lighting assembly adopts the LED lamp, and the annular heat dissipation plate portion 21 provided with the lamp holder 2 enlarges the heat dissipation area, improves the heat dissipation effect, and further ensures the service life of the LED lamp.

In this embodiment, referring to fig. 6 and 7 specifically, the purifying assembly further includes an assembly support 6, where the assembly support 6 is an annular structure with a support hole 61 in the middle, and an annular cavity 62 at the edge of the assembly support 6, 2 symmetrical cylindrical holes 63 are vertically disposed in the annular cavity 62 of the assembly support 6, sidewall holes 631 are disposed on sidewalls of the cylindrical holes 63, 2 pointed positioning heads 64 are correspondingly disposed on the 2 cylindrical holes 63, a positioning hole coaxially disposed with the cylindrical holes 63 is disposed in the middle of the pointed positioning head 64, and the positioning hole sequentially includes a positioning hole section 641 with a gradually narrowed inner diameter and a horn-shaped radial hole section 642 with a gradually enlarged inner diameter from top to bottom; the negative ion generator is mounted in the annular cavity 62 of the component holder 6, and the negative high voltage pole 51 and the reference ground pole 52 are arranged along the annular cavity 62, pass through the side wall perforations 631 of the 2 cylindrical holes 63, respectively, and enter the positioning hole segments 641 of the positioning perforations through the cylindrical holes 63, so that the release tip 54 is positioned in the horn-shaped radial hole segments 642 of the positioning perforations. The inner diameter of the positioning hole section 641 of the positioning perforation is gradually narrowed, so that the passing negative high-voltage pole 51 and the reference ground pole 52 can be easily inserted and passed, and are not easy to shake, and the horn-shaped radial hole section 642 can prevent high-concentration negative ions near the release tip 54 from being adsorbed on the component bracket 6, so that more negative ions can enter the air, and the air purifying effect is improved. The assembly bracket 6 is coaxially mounted on the bottom surface of the annular heat dissipation plate 21, so that the lamp body is positioned in the bracket through hole 61 of the assembly bracket 6, the lamp cover 4 is mounted on the bottom of the assembly bracket 6, the bracket through hole 61 is covered, and the edge of the lamp cover 4 is provided with a positioning head opening 42 corresponding to the tip positioning head 64.

In this embodiment, the lamp body is located in the bracket hole 61 of the assembly bracket 6 by the assembly bracket 6, and the release tips 54 of the negative high-voltage electrode 51 and the reference ground electrode 52 are symmetrically located at two sides of the lamp body, which has the advantages that: firstly, the purifying function of the anion generator and the lighting function of the LED lamp are not affected mutually, and the LED lamp has the advantage of reasonable layout; secondly, once the anion generator or the LED lamp damages, the two devices can be maintained by opening the lampshade 4, and the LED lamp has the characteristic of convenient assembly.

Further, referring specifically to fig. 5, in this embodiment, the generator housing 5 of the negative ion generator has an arc-shaped strip structure and corresponds to the annular cavity 62 of the component bracket 6, so as to reduce the assembly space of the negative ion generator and improve the assembly effect of the negative ion generator.

Further, in this embodiment, referring to fig. 5 and fig. 6 specifically, the lamp holder 2 is formed by vertically butting a connection bracket 22 and a lamp panel heat dissipation plate 23, the connection bracket 22 is a cylindrical housing with an open bottom, an inner wall wedge block 221 is provided on the inner wall of the connection bracket, the lamp panel heat dissipation plate 23 is a cylindrical housing with an open top, an outer wall wedge block 231 is provided on the outer wall of the lamp panel heat dissipation plate 23, the upper part of the lamp panel heat dissipation plate 23 is inserted into the connection bracket 22, the outer wall wedge block 231 is lapped on the inner wall wedge block 221, and the annular heat dissipation plate part 21 of the lamp holder 2 is provided on the outer wall of the lamp panel heat dissipation plate 23; the assembly bracket 6 is sleeved on the lower part of the lamp panel heat dissipation plate 23 through a bracket perforation 61, a slot 611 is formed at the top of the inner wall of the bracket perforation 61, a convex column 232 inserted in the slot 611 is formed on the outer wall of the lower part of the lamp panel heat dissipation plate 23, and the assembly bracket 6 is positioned and installed on the lamp holder 2. Through the structure, the connecting support 22, the lamp panel heat dissipation plate 23 and the component support 6 generate a positioning effect during assembly, and after positioning connection, the connecting support, the lamp panel heat dissipation plate and the component support are fastened and connected by using connecting pieces (not shown in the figure) such as bolts, so that the assembly rate is effectively improved through positioning connection in the assembly process.

Referring specifically to fig. 2, a controller 7 is further disposed above the ceiling fan motor 11 on the boom 12, and the controller 7 is electrically connected with the ceiling fan motor 11, the lighting lamp main body and the anion generator respectively. A cylindrical housing 10 is coaxially mounted on the bottom of the cradle 1 above the ceiling fan tray 13 for covering the controller 7, ceiling fan motor 11 and hanger rod 12, improving overall appearance and preventing dust from falling on exposed components.

Claims (9)

1. The utility model provides a take anion purification performance's ceiling fan lamp, it includes hanging seat (1), ceiling fan motor (11), ceiling fan subassembly and lighting assembly, install jib (12) on hanging seat (1), ceiling fan motor (11) are installed on jib (12), ceiling fan subassembly is including ceiling fan dish (13) and evenly locate a plurality of ceiling fan blades (14) on ceiling fan dish (13), the top and the ceiling fan motor (11) of ceiling fan dish (13) are connected and are rotated by ceiling fan motor (11) drive, the bottom has the bottom opening, the end of jib (12) penetrates in ceiling fan dish (13); the lighting assembly is arranged below the ceiling fan assembly, the lighting assembly comprises a lamp holder (2), a lighting lamp body and a lamp shade (4), the upper part of the lamp holder (2) penetrates into the ceiling fan disc (13) and is arranged at the upper end and the lower end of the tail end of the hanging rod (12) and is exposed out of a bottom opening of the ceiling fan disc (13), the lighting lamp body is arranged on the bottom surface of the lamp holder (2) and is covered by the lamp shade (4), and a light-transmitting plate part (41) is arranged on the lamp shade (4) corresponding to the lighting lamp body; the method is characterized in that: the device also comprises a purifying component; the purification assembly adopts a negative ion generating device which is arranged below the ceiling fan assembly, the purification assembly comprises a negative ion generator, a negative high-voltage electrode (51) and a reference ground electrode (52) which are electrically connected with the output end of the negative ion generator, the negative ion generator comprises a generator shell (5) and a negative ion generating circuit (53) arranged in the generator shell (5), and the tail ends of the negative high-voltage electrode (51) and the reference ground electrode (52) are downwards arranged and are respectively provided with a release tip (54).

2. The ceiling fan lamp with anion purification function as set forth in claim 1, wherein: the illuminating lamp body of the illuminating assembly adopts an LED lamp structure and comprises an LED lamp panel (3), an LED lamp driver (31) is arranged in the middle of the bottom surface of the LED lamp panel (3), a plurality of LED lamp beads (32) are arranged at the edge of the bottom surface, an annular heat dissipation plate part (21) is arranged at the edge of the lamp holder (2), and the LED lamp panel (3) is arranged on the bottom surface of the middle of the lamp holder (2).

3. The ceiling fan lamp with anion purification function as set forth in claim 2, wherein: the purification assembly further comprises an assembly bracket (6), wherein the assembly bracket (6) is of an annular structure with a bracket perforation (61) in the middle, an annular cavity (62) is formed in the edge of the assembly bracket, 2 symmetrical cylindrical holes (63) are vertically formed in the annular cavity (62) of the assembly bracket (6), side wall perforation (631) are formed in the side wall of the cylindrical hole (63), 2 pointed positioning heads (64) are correspondingly arranged on the 2 cylindrical holes (63), positioning perforation coaxial with the cylindrical holes (63) is formed in the middle of the pointed positioning heads (64), and a positioning hole section (641) with a gradually-narrowed inner diameter and a horn-shaped radial hole section (642) with a gradually-enlarged inner diameter are sequentially formed in the positioning perforation from top to bottom; the negative ion generator is arranged in an annular cavity (62) of the component bracket (6), and a negative high-voltage pole (51) and a reference ground pole (52) are arranged along the annular cavity (62) and respectively pass through side wall perforations (631) of 2 cylindrical holes (63) and enter a positioning hole section (641) of the positioning perforation through the cylindrical holes (63), so that a release tip (54) is positioned in the horn-shaped radial hole section (642) of the positioning perforation;

the assembly bracket (6) is coaxially arranged on the bottom surface of the annular heat radiation plate part (21), the illuminating lamp main body is positioned in the bracket perforation (61) of the assembly bracket (6), the lampshade (4) is arranged on the bottom of the assembly bracket (6), the bracket perforation (61) is covered, and the edge part of the lampshade corresponds to the tip positioning head (64) and is provided with a positioning head opening (42).

4. A ceiling fan lamp with anion purification as defined in claim 3, wherein: the generator shell (5) of the negative ion generator is of an arc-shaped strip structure and corresponds to the annular cavity (62) of the component bracket (6).

5. A ceiling fan lamp with anion purification as defined in claim 3, wherein: the input negative electrode wire (55) of the negative ion generator is connected with 1 static guide wire (56) in series, the static guide wire (56) is connected with a safety resistor (57) in series, and the tail end of the static guide wire is electrically connected with a mains supply grounding wire.

6. A ceiling fan lamp with anion purification as defined in claim 3, wherein: the lamp holder (2) is formed by vertically butting a connecting support (22) and a lamp panel radiating plate (23), the connecting support (22) is a cylindrical shell with an open bottom, an inner wall wedge block (221) is arranged on the inner wall of the cylindrical shell, the lamp panel radiating plate (23) is a cylindrical shell with an open top, an outer wall wedge block (231) is arranged on the outer wall of the cylindrical shell, the upper part of the lamp panel radiating plate (23) is inserted into the connecting support (22), the outer wall wedge block (231) is lapped on the inner wall wedge block (221), and an annular radiating plate part (21) of the lamp holder (2) is arranged on the outer wall of the lamp panel radiating plate (23);

the assembly bracket (6) is sleeved on the lower part of the lamp panel heat dissipation plate (23) through a bracket perforation (61), a slot (611) is formed in the top of the inner wall of the bracket perforation (61), a convex column (232) inserted into the slot (611) is formed in the outer wall of the lower part of the lamp panel heat dissipation plate (23), and the assembly bracket (6) is positioned and installed on the lamp holder (2).

7. The ceiling fan lamp with anion purification function as set forth in any one of claims 2 to 6, wherein: the illuminating lamp main body of the illuminating assembly further comprises an inner lamp cover (30), the inner lamp cover (30) is of a transparent plate-shaped structure arranged below the LED lamp panel (3), a cover part (301) covering the LED lamp driver (31) is arranged in the middle of the inner lamp cover, a plurality of hemispherical light-transmitting parts (302) are arranged at the edges of the inner lamp cover, and the hemispherical light-transmitting parts (302) correspond to LED lamp beads (32) of the LED lamp panel (3) one by one.

8. The ceiling fan lamp with anion purification function as set forth in any one of claims 1 to 6, wherein: the upper side of the ceiling fan motor (11) on the hanging rod (12) is also provided with a controller (7), and the controller (7) is respectively electrically connected with the ceiling fan motor (11), the lighting lamp main body and the anion generator.

9. The ceiling fan lamp with anion purification function as set forth in any one of claims 1 to 6, wherein: a cylindrical shell (10) is coaxially arranged above the ceiling fan tray (13) on the bottom of the hanging seat (1).

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