CN213431995U - Sterilizing fan lamp - Google Patents

Abstract

The utility model provides a disinfection fan lamp belongs to illumination lamps and lanterns technical field, include: installing a shell; an air outlet assembly; the lighting assembly comprises a lighting shell and a light source module, wherein the lighting shell is arranged around the mounting shell and the fan, and the light source module is arranged on the lighting shell; and a sterilizing lamp. The technical effects are as follows: the installation casing, the air-out subassembly, lighting components and sterilamp reasonable distribution, mutual noninterference, through the illumination casing with install the casing, the air-out wind channel that the fan formed inhales the air, shine through the sterilamp and disinfect the operation, the fan can also carry out the air-out operation in supplementary suction air, light source module can throw light on the operation, make lamps and lanterns can throw light on, the air-out, can disinfect again, the multifunctionality of lamps and lanterns has been improved, occupation space when having reduced a plurality of functional device and having used alone, the structure is compacter.

Description

Sterilizing fan lamp

Technical Field

The utility model belongs to the technical field of the illumination lamps and lanterns, more specifically say, relate to a disinfection fan lamp.

Background

The lighting lamp is used as a living lighting necessity, is mainly applied to occasions such as families, offices, museums, vehicles and the like, and provides lighting for the purposes of home furnishing, office work, appreciation and the like. Generally, lighting fixtures include ceiling lamps, table lamps, floor lamps, wall lamps and the like, and can be suitable for different installation environments and use environments.

Based on the reasons such as summer is hot or airtight space needs ventilate, the fan lamp that combines fan and lighting apparatus together has appeared, can realize the air-out function in the illumination to, so set up, also saved occupation space, increased the practicality and the multifunctionality of lamps and lanterns.

However, the conventional fan lamp cannot sterilize air, and therefore, a lamp which can illuminate and exhaust air and can sterilize air is needed.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a disinfection fan lamp aims at solving the unable technical problem of disinfecting to the air of traditional fan lamp.

In order to achieve the above object, the utility model adopts the following technical scheme: there is provided a sterilizing fan lamp comprising: installing a shell; the air outlet assembly comprises a driving part arranged on the mounting shell and a fan driven by the driving part, and the fan is stacked outside the mounting shell; the lighting assembly comprises a lighting shell and a light source module, wherein the lighting shell is arranged around the installation shell and the fan, the light source module is arranged on the lighting shell, the lighting shell is connected with the installation shell, the lighting shell is of a structure with two open ends, an air inlet is formed on one side of the lighting shell adjacent to the installation shell, an air outlet is formed on one side of the lighting shell adjacent to the fan, and an air outlet channel is formed from the air inlet to the air outlet; and the disinfection lamp is arranged on one side, facing the installation shell, of the illumination shell.

As another embodiment of the present invention, the sterilizing lamp is disposed in the mounting housing, and the mounting housing has a plurality of light holes.

As another embodiment of the present invention, a plurality of clamp rings are fixed to an inner wall of the mounting housing, and the sterilizing lamp is clamped in the clamp rings.

As another embodiment of the present invention, the outer wall of the installation housing is provided with a plurality of fixing seats, and the inner wall of the illumination housing is provided with a plurality of fixing platforms connected to the fixing seats.

As another embodiment of the present invention, at least one of the fixing bases is provided with a holding cavity, the holding cavity is provided with an opening communicated with the air outlet duct, and the holding cavity is provided with an anion generator therein.

As another embodiment of the present invention, the mounting housing includes a side shell having the light-transmitting hole, a bottom shell connected to the side shell, and a top shell connected to the side shell and opposite to the bottom shell, the bottom shell is connected to the driving portion, and the mounting hole is formed in the top shell.

As another embodiment of the present invention, the bottom casing has been provided with a through hole, the driving portion includes a motor assembly disposed in the mounting casing, an output shaft connected to the motor assembly, and a connecting plate for carrying the motor assembly, the connecting plate is pressed against the inner wall of the bottom casing, and the output shaft is passed through the through hole and connected to the fan.

As another embodiment of the present invention, the lighting housing includes a first housing for covering the light source module, and a second housing disposed inside the first housing, one end of the second housing is connected to the first housing, and the other end is connected to the light source module.

As another embodiment of the present invention, the second casing includes a first sub-casing and a second sub-casing which are obliquely disposed, the first sub-casing and the second sub-casing constitute the wall body of the air outlet duct, the circumferential profile of the first sub-casing is close to the direction of the fan and is in an increasing trend, the circumferential profile of the second sub-casing is in a decreasing trend along the direction of the fan.

As another embodiment of the present invention, the first sub-shell and the second sub-shell are provided with a light source plate constituting the light source module, and the second sub-shell is disposed over the light emitting surface of the light source module.

The utility model provides a disinfection fan lamp has following technological effect at least: compared with the prior art, the utility model provides a disinfection fan lamp, the installation casing, the air-out subassembly, lighting assembly and disinfection lamp reasonable distribution, mutual noninterference, through lighting casing and installation casing, the air-out wind channel that the fan formed inhales the air, shine through the disinfection lamp and disinfect the operation of disinfecting, the fan can also carry out the air-out operation in supplementary suction air, light source module can throw light on the operation, make lamps and lanterns can throw light on, the air-out, can disinfect again, the multifunctionality of lamps and lanterns has been improved, occupation space when having reduced a plurality of functional device and using alone, the structure is compacter.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required for the embodiments or the prior art descriptions will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

Fig. 1 is a schematic structural view of a sterilizing fan lamp according to an embodiment of the present invention;

fig. 2 is another schematic view of the disinfection fan lamp according to an embodiment of the present invention;

fig. 3 is a schematic view illustrating the flow of air in the disinfecting fan lamp according to an embodiment of the present invention;

fig. 4 is an exploded view of a disinfecting fan light according to an embodiment of the present invention;

fig. 5 is a schematic view of another angle structure of a disinfecting fan lamp according to an embodiment of the present invention;

FIG. 6 is an enlarged partial schematic view of the structure A shown in FIG. 5;

FIG. 7 is a partial schematic view of a fan lamp according to an embodiment of the present invention;

FIG. 8 is a schematic view of an alternate angular configuration of the configuration of FIG. 7;

FIG. 9 is a schematic cross-sectional view of section I-I shown in FIG. 8;

fig. 10 is a schematic structural view of a sterilizing fan lamp according to another embodiment of the present invention.

In the figure:

10. disinfection fan lamp 100, mounting case 110, side case

112. Light hole 120, bottom shell 122, perforation

130. Top shell 132, mounting hole 140, clamping ring

150. Fixing seat 152, accommodating cavity 154 and opening

156. The joining table 160 and the negative ion generator

200. Air outlet assembly 210, driving part 212 and motor assembly

214. Output shaft 216, connecting plate 220 and fan

300. Lighting assembly 310, lighting housing 311, air intake

312. Air outlet 313, air outlet duct 314 and first shell

315. Second shell 316, first subshell 317, second subshell

318. Metal protective shell 320, light source module 322 and light source board

324. Luminous surface 330, fixed station 400 and disinfection lamp

Detailed Description

In order to make the technical problem, technical solution and advantageous effects to be solved by the present invention more clearly understood, the following description is given in conjunction with the accompanying drawings and embodiments to illustrate the present invention in further detail. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected to" another element, it can be directly connected to the other element or intervening elements may also be present.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs.

Referring to fig. 1 to 10 together, a disinfecting fan lamp 10 according to an embodiment of the present invention will be described.

The embodiment of the utility model provides a disinfection fan lamp 10, include: a mounting case 100; the air outlet assembly 200 comprises a driving part 210 arranged on the installation shell 100 and a fan 220 driven by the driving part 210, wherein the fan 220 is stacked outside the installation shell 100; the lighting assembly 300 comprises a lighting housing 310 arranged around the installation housing 100 and the fan 220, and a light source module 320 arranged on the lighting housing 310, wherein the lighting housing 310 is connected with the installation housing 100, the lighting housing 310 is of a structure with two open ends, an air inlet 311 is formed on one side of the lighting housing 310 adjacent to the installation housing 100, an air outlet 312 is formed on one side of the lighting housing 310 adjacent to the fan 220, and an air outlet channel 313 is formed from the air inlet 311 to the air outlet 312; and a sterilizing lamp 400 provided at a side of the lighting housing 310 facing the mounting housing 100.

It is understood that the sterilizing lamp 400 is disposed between the lighting housing 310 and the installation housing 100, or the sterilizing lamp 400 is disposed in the installation housing 100, and the sterilizing lamp 400 can be seen from the space view as the sterilizing lamp 400 is disposed on the side of the lighting housing 310 facing the installation housing 100, as long as the sterilizing lamp 400 can sterilize the inhaled air by irradiating the air and is not directly exposed to the outside air.

It should be noted that the embodiment of the present invention provides a disinfection fan lamp 10, which can be hung on a roof or hung on a wall, and does not limit the installation manner of the disinfection fan lamp 10, as long as it can be fixed on the installation surface.

Specifically, the mounting housing 100 serves as a mounting portion of the overall structure for fixing the overall structure to a mounting surface in a hanging or side hanging manner. Meanwhile, a power module for supplying power to the light source module 320 and the sterilizing lamp 400 or a power line electrically connected to an external power source may be further provided in the mounting case 100. The sterilizing lamp 400 may be an ultraviolet lamp, for example, a UVC lamp, a UVD lamp, etc., or an ozone lamp, etc., for performing different types of sterilizing operations on air, and in the present embodiment, a single type may be provided, or a plurality of types may be provided.

In the air outlet assembly 200, the driving portion 210 may be electrically connected to the power module or the power line, and may provide power for the fan 220 to drive the fan 220 to rotate, so that the fan 220 may suck air and discharge air, and the fan 220 may assist in sucking air to accelerate the sterilization operation and realize the basic air outlet operation. The driving part 210 is connected to the installation case 100, the fan 220 is located outside the installation case 100, and when the sterilizing fan lamp 10 is hoisted, the fan 220 is located right below the installation case 100.

In the lighting assembly 300, the lighting housing 310 is an open-ended structure disposed about the mounting housing 100 and the fan 220, i.e., the lighting housing 310 at least partially surrounds the mounting housing 100 and the fan 220. The lighting housing 310 is connected to the mounting housing 100, and the mounting housing 100 is connected to the driving part 210, so that the lighting assembly 300, the mounting housing 100, the air outlet assembly 200, and the sterilizing lamp 400 form an integrated structure. The light source module 320 may be electrically connected to the power supply module or the power line. The light source module 320 is generally a panel lamp, and the light source module 320 may be annular and generally disposed within the outline formed by the illumination housing 310, for example, when the disinfection fan lamp 10 is hoisted, the illumination housing 310 and the light source module 320 are both annular, and the light source module 320 is located below the illumination housing 310. Here, the ring shape may be a square ring, a circular ring, or a regular or irregular shape such as a polygonal ring.

A gap is formed between the lighting housing 310 and the mounting housing 100, and a starting end of the lighting housing 310 having the gap with the mounting housing 100 is defined as an air inlet 311; a gap is formed between the illumination shell 310 and the fan 220, and a terminating end of the illumination shell 310, which is provided with the gap, with the fan 220 is defined as an air outlet 312; the fan 220 sucks air from the air inlet 311 by rotation, discharges the air from the air outlet 312 by irradiation and sterilization of the sterilizing lamp 400, and forms an air outlet channel 313 from the air inlet 311 to the air outlet 312.

The embodiment of the utility model provides a disinfection fan lamp 10 has following technological effect at least: compared with the prior art, the embodiment of the utility model provides a disinfection fan lamp 10, installation casing 100, air-out subassembly 200, lighting assembly 300 and disinfection lamp 400 rational distribution, mutual noninterference, through lighting casing 310 and installation casing 100, air-out wind channel 313 that fan 220 formed inhales the air, shine through disinfection lamp 400 and disinfect the operation of disinfecting, fan 220 can also carry out the air-out operation in supplementary inhaled air, light source module 320 can throw light on the operation, make lamps and lanterns can throw light on, the air-out, can disinfect again, the multifunctionality of lamps and lanterns has been improved, occupation space when having reduced a plurality of functional device and having used alone, the structure is compacter.

There are various ways of installing the sterilizing lamp 400, and the following description is illustrative and not restrictive of the specific installation thereof.

Referring to fig. 10, as a specific embodiment, the sterilizing lamp 400 is installed between the lighting housing 310 and the installation housing 100, and the sterilizing lamp 400 can be directly locked to the inside of the lighting housing 310 by a locking member and can also be directly locked to the outside of the installation housing 100 by a locking member. In order to reduce the damage to the skin, eyes, etc. caused by the direct irradiation of the emergent light of the sterilizing lamp 400 to the human body, a baffle may be disposed around the sterilizing lamp 400 to block the emergent light.

Referring to fig. 1 to 9, as another embodiment, a disinfection lamp 400 is disposed in a mounting housing 100, and the mounting housing 100 is provided with a plurality of light holes 112. The sterilizing lamp 400 is fixed in the installation case 100, and irradiates air through the light-transmitting hole 112 to perform a sterilizing operation. So set up, can reduce the possibility that the emergent light of sterilamp 400 directly shines the human body, shelter from the emergent light to the bigger degree to make the emergent light can carry out disinfection operation through light trap 112 to the air of inhaling.

Of course, if there is a connection gap between the mounting case 100 and the driving part 210, air may also enter the mounting case 100 through the light-transmitting hole 112 and be discharged from the connection gap, during which the sterilizing lamp 400 can be irradiated as well.

Further, referring to fig. 7, in order to achieve a more complete radiation sterilization effect, the sterilization lamp 400 is formed in a ring shape and disposed adjacent to the light-transmitting hole 112. In this embodiment, the sterilizing lamp 400 is formed in a ring shape and is disposed around the inner wall of the mounting case 100, and the sterilizing lamp 400 is disposed closer to the light-transmitting hole 112 than the central axis, so that the sterilizing lamp 400 can irradiate and sterilize the sucked air more sufficiently. Compared with a strip-shaped disinfection lamp, the emergent area of emergent light can be increased, and the emergent light can be uniformly emitted from the circumferential direction.

It is understood that when the cross-sectional shape of the installation case 100 is a square ring, the sterilizing lamp 400 is also a square ring; when the cross-sectional shape of the installation case 100 is a circular ring, the sterilizing lamp 400 is also a circular ring. In the present embodiment, the specific shape of the ring shape is not limited, and may be a regular or irregular shape such as a square ring, a circular ring, or a polygonal ring.

Further, in order to fix the sterilizing lamp 400 in the mounting housing 100, a plurality of clamping rings 140 are fixed to the inner wall of the mounting housing 100, and the sterilizing lamp 400 is clamped in the clamping rings 140. The plurality of clamp rings 140 are generally uniformly arranged, and if the sterilization lamp 400 is shaped as a non-circular ring or a non-regular polygon, the plurality of clamp rings 140 may be arranged as appropriate. The clamping ring 140 has a receiving hole for the sterilizing lamp 400 to pass through, thereby limiting the sterilizing lamp 400.

The clamping ring 140 may be integrally formed, welded, bonded or screwed to the inner wall of the mounting housing 100; the clamping ring 140 may be formed separately, for example, the clamping ring 140 includes two clamping blocks forming a receiving hole after being coupled, and a screw member locking the two clamping blocks, and one of the two clamping blocks is welded, bonded, or screwed to the inner wall of the mounting case 100. In the present embodiment, the specific structure of the clamp ring 140 is not limited.

Referring to fig. 7 to 9, as a specific implementation manner of the embodiment of the present invention, in order to connect the installation casing 100 and the illumination casing 310, the outer wall of the installation casing 100 is provided with a plurality of fixing bases 150, and the inner wall of the illumination casing 310 is provided with a plurality of fixing bases 330 correspondingly connected to the fixing bases 150. Specifically, a plurality of fixing bases 150 are integrally or mechanically connected to the outer wall of the installation casing 100, each fixing base 150 has a lapping table 156, the lapping tables 156 are lapped on the fixing tables 330, the number and the positions of the lapping tables 156 are arranged corresponding to those of the fixing tables 330, and after the lapping tables 156 are lapped on the fixing tables 330, a locking effect is achieved by using bolts, screws, pins and other matching nuts, so that the installation casing 100 is kept in a fixed state relative to the illumination casing 310. The plurality of fixing bases 150 are generally uniformly arranged, and if the cross-sectional shape of the installation housing 100 is non-circular or non-regular, the plurality of fixing bases 150 may be arranged as appropriate. For example, in the present embodiment, as shown in fig. 7, the outer wall of the mounting case 100 is uniformly provided with three fixing seats 150.

Further, referring to fig. 5 and fig. 6, at least one fixing base 150 is provided with a receiving cavity 152, the receiving cavity 152 is provided with an opening 154 communicated with an air outlet duct 313, and a negative ion generator 160 is disposed in the receiving cavity 152. Specifically, the negative ion generator 160 is disposed in the accommodating cavity 152 of the fixing base 150, so that the negative ion generator 160 can be prevented from occupying space in the air outlet duct 313, and a certain air suction amount and an air outlet amount are ensured. In order to diffuse the negative ions generated by the negative ion generator 160 into the air, the accommodating cavity 152 is opened with an opening 154 for diffusing the negative ions into the air through the opening 154. The negative ion generator 160 can increase the negative ion component in the air, improve the air quality and is beneficial to the health.

To facilitate understanding, referring to fig. 7 to 9, as an embodiment of the present invention, a specific structure of the mounting housing 100 is described, wherein the mounting housing 100 includes a side shell 110 having a light hole 112, a bottom shell 120 connected to the side shell 110, and a top shell 130 connected to the side shell 110 and opposite to the bottom shell 120, the bottom shell 120 is connected to the driving portion 210, and the top shell 130 has a mounting hole 132. In this embodiment, the mounting housing 100 includes a side shell 110, a bottom shell 120 and a top shell 130, which together enclose the mounting housing 100. The side case 110 and the top case 130 are detachably coupled to facilitate assembly, repair, replacement, etc. of components in the installation case 100.

The illumination housing 310 is disposed around the side case 110, and the light-transmitting hole 112 is opened in the side case 110. In order to make the space of the air outlet duct 313 larger, the side casing 110 is disposed obliquely, and the circumferential profile of the side casing 110 tends to decrease in a direction closer to the fan 220. The bottom case 120 is connected to the driving part 210, so that the mounting case 100 and the outlet assembly 200 are integrally formed. The top case 130 is formed with a plurality of mounting holes 132 for the eight diagrams disk, and can be fixed to the mounting surface by means of hanging, side hanging, and the like.

Furthermore, bottom housing 120 has a through hole 122, and driving portion 210 includes a motor assembly 212 disposed in mounting housing 100, an output shaft 214 connected to motor assembly 212, and a connecting plate 216 carrying motor assembly 212, wherein connecting plate 216 is pressed against the inner wall of bottom housing 120, and output shaft 214 passes through hole 122 and is connected to fan 220. In this embodiment, in order to make the overall structure more compact and occupy less space, the motor assembly 212 of the driving portion 210 is disposed in the mounting case 100. The motor assembly 212 is fixed to the connecting plate 216, and the output shaft 214 passes through the connecting plate 216, passes through the through hole 122, extends out of the mounting case 100, and is connected to the fan 220. The output shaft 214 can be directly connected with the mounting seat of the fan 220, and the radial pin shaft, the radial snap spring and the like can be added for reducing the shaking, so that the connection between the output shaft 214 and the mounting seat is assisted.

The connection plate 216 is pressed against the inner wall of the bottom case 120 by welding, bonding, screwing, etc., and the connection plate 216 may directly contact with the inner wall of the bottom case 120 or indirectly contact with the inner wall of the bottom case 120, for example, indirectly contact through a transfer block, a gasket, etc. When the connection plate 216 directly contacts the inner wall of the bottom case 120, there is no connection gap therebetween, and air cannot pass through the light-transmitting hole 112 and be discharged from the tight fit; when the connection plate 216 is indirectly in contact with the inner wall of the bottom case 120, there is a connection gap therebetween, from which air can be discharged through the light-transmitting holes 112.

For easy understanding, referring to fig. 3 and 4, a specific structure of the illumination housing 310 is described, as a specific implementation manner of the embodiment of the present invention, the illumination housing 310 includes a first housing 314 for covering the light source module 320, and a second housing 315 disposed inside the first housing 314, one end of the second housing 315 is connected to the first housing 314, and the other end is connected to the light source module 320. Specifically, the first housing 314 and the second housing 315 are nested structures, the first housing 314 is an outer layer, and the second housing 315 is an inner layer. The first housing 314 may cover the light source module 320, and adjust the light emitted from the light source module 320. Taking the example that the light source module 320 is disposed under the first housing 314 when the fan lamp 10 is lifted, one end of the light source module 320 is connected to the lower edge of the first housing 314, and the other end is connected to the second housing 315. The second casing 315 constitutes a wall of the air outlet duct 313. The second housing 315 is specifically provided with a fixing base 330 connected to the fixing base 150.

It should be understood that in this embodiment, one end and the other end may refer to end faces or positions adjacent to the end faces, and are not intended to be absolute terms.

Further, the second casing 315 includes a first sub-casing 316 and a second sub-casing 317 which are obliquely arranged, the first sub-casing 316 and the second sub-casing 317 form a wall body of the air outlet duct 313, a circumferential profile of the first sub-casing 316 increases in a direction approaching the fan 220, and a circumferential profile of the second sub-casing 317 decreases in a direction away from the fan 220. In this embodiment, the first sub-shell 316 and the second sub-shell 317 may be made of plastic or metal, and in order to avoid ultraviolet irradiation aging and corrosion, the inner walls of the first sub-shell 316 and the second sub-shell 317 may be coated with an anti-aging material layer. The central planes of the fan blades of the fan 220 are coplanar or substantially coplanar with the connecting plane of the first sub-housing 316 and the second sub-housing 317, so that air can be smoothly sucked and discharged and the suction rate and the discharge rate are equalized.

In order to make the sucked air have a large accommodation space, the circumferential profile of the first sub-case 316 is set to increase in a direction approaching the fan 220, so that the gap between the first sub-case 316 and the mounting case 100 increases. In order to make the angle of the discharged air more concentrated and also to make the air stay in the air outlet duct 313 for more time to increase the wind force, the circumferential profile of the second sub-housing 317 is set to have a decreasing tendency in a direction away from the fan 220 so that the air outlet 312 of the second sub-housing 317 becomes smaller.

Further, the first and second sub-cases 316 and 317 sandwich the light source board 322 constituting the light source module 220, and the second sub-case 317 is disposed beyond the light emitting surface 324 of the light source module 320. Specifically, the light source board 322 is sandwiched between the first sub-housing 316 and the second sub-housing 317, and is used for providing a light emitting source for the light guide plate, and also for easily realizing side light feeding. In order to make the air outlet duct 313 have a certain length so that the air can be sufficiently irradiated by the disinfection lamp 400, in the embodiment, the second sub-housing 317 is disposed to exceed the light emitting surface of the light source module 320, that is, the connection surface of the first sub-housing 316 and the second sub-housing 317 is coplanar or substantially coplanar with the light emitting surface 324.

In addition, since the first housing 314 is located at the outer side, a metal material may be used to reduce damage. Since the first sub-shell 316 and the second sub-shell 317 are located at the inner side, a plastic material may be used. If the second sub-shell 317 is arranged beyond the light emitting surface 324, the second sub-shell 317 is further provided with a metal protective shell 318 at a part beyond the light emitting surface 324, and the circumferential profile of the metal protective shell 318 is arranged to decrease in a direction away from the fan 220, so that the air outlet 312 becomes smaller.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. A sterilizing fan lamp, comprising:

installing a shell;

the air outlet assembly comprises a driving part arranged on the mounting shell and a fan driven by the driving part, and the fan is stacked outside the mounting shell;

the lighting assembly comprises a lighting shell and a light source module, wherein the lighting shell is arranged around the installation shell and the fan, the light source module is arranged on the lighting shell, the lighting shell is connected with the installation shell, the lighting shell is of a structure with two open ends, an air inlet is formed on one side of the lighting shell adjacent to the installation shell, an air outlet is formed on one side of the lighting shell adjacent to the fan, and an air outlet channel is formed from the air inlet to the air outlet; and

the disinfection lamp is arranged on one side, facing the installation shell, of the illumination shell.

2. A disinfecting fan light as recited in claim 1, characterized in that the disinfecting lamp is disposed within the mounting housing, and the mounting housing defines a plurality of light-transmitting apertures.

3. The sterilizing fan lamp as defined in claim 2, wherein a plurality of clamp rings are secured to an inner wall of said mounting housing, said sterilizing lamp being retained within said clamp rings.

4. A sterilizing fan lamp as claimed in claim 1 or 2, wherein the outer wall of the mounting housing is provided with a plurality of fixing seats, and the inner wall of the lighting housing is provided with a plurality of fixing stages correspondingly connected to the fixing seats.

5. The lamp as claimed in claim 4, wherein at least one of the fixing bases has a receiving cavity, the receiving cavity has an opening communicating with the air outlet duct, and the receiving cavity has a negative ion generator therein.

6. The sterilizing fan lamp as defined in claim 2, wherein said mounting case includes a side shell defining said light-transmitting opening, a bottom shell connected to said side shell, and a top shell connected to said side shell and opposite said bottom shell, said bottom shell being connected to said drive portion, said top shell defining a mounting opening.

7. A sterilizing fan lamp as claimed in claim 6, wherein the bottom casing is formed with a through hole, the driving part includes a motor assembly provided in the mounting casing, an output shaft connected to the motor assembly, and a connecting plate carrying the motor assembly, the connecting plate is press-fitted to an inner wall of the bottom casing, and the output shaft is passed through the through hole and connected to the fan.

8. The sterilizing fan lamp of claim 1, wherein the illumination housing comprises a first housing for housing the light source module, and a second housing disposed inside the first housing, one end of the second housing being connected to the first housing, and the other end thereof being connected to the light source module.

9. The sterilizing fan lamp as defined in claim 8, wherein the second housing includes a first sub-housing and a second sub-housing, the first sub-housing and the second sub-housing forming a wall of the outlet duct, the circumferential profile of the first sub-housing increasing in a direction toward the fan, and the circumferential profile of the second sub-housing decreasing in a direction away from the fan.

10. The sterilizing fan lamp of claim 9, wherein the first and second sub-cases sandwich a light source board constituting the light source module, and the second sub-case is disposed beyond a light emitting surface of the light source module.

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