CN218064791U - Fan lamp - Google Patents

Abstract

The invention discloses a fan lamp, which relates to the field of lighting lamps, and the technical scheme is characterized by comprising the following components: the top suction shell is arranged on the installation foundation; the suspension rod is connected to the ceiling shell; a fan module connected to one end of the boom; the light-emitting module is arranged on the lower side of the fan module; the cover body is arranged between the ceiling shell and the fan module, an opening of the cover body faces the fan, and the back of the cover body is connected to the hanging rod; still including locating control module in the cover body, control module connects the power. According to the invention, the control module originally arranged in the ceiling shell is installed in the cover body, so that the ceiling shell at the upper part is not required to be disassembled during maintenance, the module division is more reasonable, the maintenance and the new installation are more convenient, and the disassembly and the assembly are simpler.

Description

Fan lamp

Technical Field

The invention relates to the field of lighting lamps, in particular to a fan lamp.

Background

A fan lamp is an electrical appliance that combines the functions of a ceiling lamp and a ceiling fan. The ceiling lamp integrates the functions of the traditional ceiling lamp and the fan, and is popular with consumers.

Along with the continuous promotion of quality of life, people have proposed higher requirements to the structure, performance, outward appearance etc. of fan lamp, and the power module of current fan lamp is located in inhaling a box, gives illumination module and fan module power supply respectively, but power module locates to inhale to lead to inhaling the volume of top box great in a box for it is heavy, succinct to inhale a box, influences the outward appearance of fan lamp.

Disclosure of Invention

The invention aims to provide a fan lamp which has the advantages of reasonable structure modularization and convenience in disassembly, assembly and maintenance.

The technical purpose of the invention is realized by the following technical scheme.

A fan lamp comprising:

the top absorbing shell is arranged on the installation foundation;

the suspension rod is connected to the ceiling shell;

a fan module connected to one end of the boom;

the light-emitting module is arranged on the lower side of the fan module;

the cover body is arranged between the ceiling shell and the fan module, an opening of the cover body faces the fan, and the back of the cover body is connected to the hanging rod;

still including locating control module in the cover body, control module connects the power, and fan module is controlled by control module, control module and fan module, light-emitting module electric connection.

Further setting: still include temperature sensor, temperature sensor and control module communication connection, temperature sensor locates on the cover body to extend to the upside of the cover body.

Further setting: the cover body is provided with a groove, and the temperature sensor is installed in the groove.

Further setting: the negative ion module is arranged in the cover body, and the negative ions are electrically connected with the control module.

Further setting: the cover body is provided with heat dissipation holes, and the heat dissipation holes are communicated with the upper side of the cover body and the inside of the cover body.

Further setting: the anion module includes the output, the output extends to the upside of the cover body.

Further setting: the heat dissipation holes are arranged in a plurality of annular shapes on the cover body.

Further setting: still include with anion module communication connection's pilot lamp, the pilot lamp with control module electric connection.

Further setting: the backlight module is electrically connected with the control module, and the backlight module is arranged on the suspender or the cover body.

Further setting: the backlight module at least comprises a mounting groove and a light source arranged in the mounting groove, and the light source protrudes out of the surface of the mounting groove.

In conclusion, the invention has the following beneficial effects:

first, the present invention installs the control module originally disposed in the ceiling shell inside the hood body. When the original control module is positioned in the ceiling suction shell, the ceiling suction shell needs to be connected with an indoor ceiling structure independently, and the top of the ceiling suction shell is of an open structure, so that the control module needs to be installed in the ceiling suction shell before the ceiling suction shell is installed. When a user installs the lamp, the user needs to install the control module and install the ceiling shell with the control module. On the other hand, the control module is provided with a lead which needs to be connected with the mains supply and is led out from the ceiling shell, and a lead of the power utilization module of the fan lamp is also led out from the ceiling shell. In this scheme, internal the cover of arranging in the control module, control module installs in the cover internally before dispatching from the factory, and the user need not pay extra step when installing the lamp and installs control module. On the other hand, the control module and other electric modules are electrically connected in the cover body and are connected with the control module. Therefore, each electric component does not need to be respectively led out of a lead on the ceiling shell to be connected with the mains supply. The number of connecting wires when a user installs the suction top case can be reduced. And when the maintenance, need not to dismantle the ceiling shell on upper portion, the module division is more reasonable, and it is also more convenient when the maintenance with when newly installing, the dismouting becomes simpler.

Secondly, the temperature sensor is added in the fan control device, the temperature sensor is in communication connection with the control module, and the control module can adjust the rotating speed of the fan according to the change of the temperature after judging the temperature threshold value, and can also set manual adjustment, so that various fan working modes are provided for a user.

Thirdly, the invention adds the anion module, can provide the guidance of the air flow by using the fan, and purifies the air by the anion module, thereby improving the air quality. Further, the fans have different rotational directions, and when one of the rotational directions is operated, the fan delivers an air flow to the lower indoor space. When the fan works reversely, the fan conveys airflow to the ceiling direction, and at the moment, part of the airflow enters the cover body and flows out through the heat dissipation holes in the cover body. The heat dissipation holes have a heat dissipation effect on the one hand, and can dissipate heat for the control module in the cover body and other electric modules. Further, because the output of anion module is located the upside of the cover body, the air current that works as the louvre flows from the cover body upside, can further drive near the air current of output, makes the anion wider to indoor diffusion's scope, and air purification effect is better.

Fourth, the present invention adds a set of backlight module. The fan lamp is suspended on the ceiling due to a certain volume, and the light-emitting part of the fan lamp is positioned at the bottom of the fan lamp, namely at one side facing the bottom surface. When the fan lamp emits light for illumination, other structures of the fan lamp positioned on the back side of the light emitting part can prevent the light emitted by the fan lamp from being diffused to a ceiling. Lead to current fan lamp when switching on, leave certain shadow scope on the ceiling, user experience is poor. Backlight unit can realize the ceiling direction light-emitting and the side direction light-emitting of upside, provides more illumination scope, and the ceiling has the problem at illumination dead angle and shadow position when solving current fan lamp and switching on to can also change the colour of light on backlight unit's basis, technical means such as illumination pattern and increase scintillation build different light atmosphere, improve user experience.

Drawings

FIG. 1 is a schematic view of a fan lamp with a fan folded;

FIG. 2 is an exploded cross-sectional schematic view of a fan lamp;

FIG. 3 is a schematic view of a fan-out configuration of the fan lamp;

fig. 4 is an enlarged schematic view at a of fig. 3.

In the figure, 100, a suction top shell; 200. A boom; 300. a fan module; 301. a support; 302. a fan; 303. a drive device; 400. a light emitting module; 500. a control module;

600. a backlight module; 601. mounting grooves; 700. An anion module;

800. a cover body; 801. a recessed portion; 802. opening the opening; 803. a temperature sensor; 804. a groove; 805. An opening; 806. heat dissipation holes; 807. an indicator light; 808. and (4) an output end.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

First preferred embodiment:

a fan light, as shown in FIG. 1, includes a ceiling fan housing 100, a hanger bar 200 attached to the ceiling fan housing 100. The ceiling-mounted housing 100 is installed on a mounting base, which is defined as a ceiling or a building beam or a ceiling of a chamber, and has a downward receiving space.

As shown in fig. 1 and 2, the hanger bar 200 has an upper end fixed into the suction top case 100 and a lower end connected to the fan module 300, and the lower side of the fan module 300 has the light emitting module 400 according to the reference direction of the drawing. In the present embodiment, the light emitting module 400 and the fan 302 constitute a combination of existing fan lamps.

A cover body 800 is arranged between the ceiling suction shell 100 and the fan module 300, the cover body 800 is provided with a concave part 801, the concave part 801 is at least provided with an opening 802 and a space for bending and wrapping, the shapes of the concave part 801 and the cover body 800 of the cover body 800 can be the same or different, and the specific shape can be a hemisphere shape, a half rectangle shape and a half ellipsoid shape.

The opening 805 of the enclosure 800 faces the fan 302 and is back-coupled to the hanger bar 200. The cover body 800 is internally provided with a control module 500, and the control module 500 is connected with a household power supply. Here, the light emitting module 400 and the fan module 300 are both controlled by the control module 500, and the control module 500 is electrically connected to the fan module 300 and the light emitting module 400. The fan module 300 includes a support 301 connected to the suspension rod 200, a fan 302 disposed on the support 301, and a driving device 303, where the driving device 303 is specifically a motor, and the driving device 303 drives the fan 302 to rotate, and the fan 302 can extend and retract in a lateral rotation manner, and a power source can also be increased, and the power source can be set according to a user's needs, and the extending and retracting are not described in detail in the prior art.

The cover body 800 is further provided with a temperature sensor 803, the cover body 800 is provided with a groove 804, the groove 804 is provided with an opening 805 facing the upper side of the cover body 800, and a body of the temperature sensor 803 is embedded into the groove 804, so that a part or the whole of the body is arranged on the upper side of the cover body 800 and is independent from the lower side of the cover body 800. The temperature sensor 803 is in communication with the control module 500, and the control module 500 can be used to control the on/off of the driving motor of the fan 302 by recognizing the temperature signal of the temperature sensor 803. In the present embodiment, the driving device 303 of the fan 302 may be further provided with a plurality of gears controlled by the control module 500, and the temperature sensor 803 may be used to automatically adjust the gears of the control module 500, so as to ensure a more comfortable environment temperature. Of course, it is also feasible to manually control the on/off and the gear of the fan 302, and the manual control is provided on the electric control switch or the remote control switch.

When the fan 302 is in the indoor blowing mode, air flows from the top of the fan 302 to the bottom of the fan 302. When the airflow enters from the top of the fan 302, part of the air flows through the surface of the cover body 800, and the outer surface of the cover body 800 is in the shape of a circular arc, so that the resistance of the air when flowing through can be reduced, and the noise is reduced. Further, the temperature sensor 803 is located at the top of the cover 800, and the sensing end of the temperature sensor 803 extends to the outside of the cover 800, that is, the indoor air circulates to the top of the fan 302 and is detected by the temperature sensor 803 before flowing back to the indoor space by the fan 302, so that the temperature of the indoor air is detected more accurately.

As shown in fig. 2, an anion module 700 is further disposed in the housing 800, and the anion module 700 is electrically connected to the control module 500. The anion module 700 is located inside the opening 802 of the cover 800, that is, inside the space covered by the cover 800. The cover body 800 is provided with a plurality of heat dissipation holes 806, the heat dissipation holes 806 are communicated with the upper space of the cover body 800 and the inner space of the cover body 800, and the heat dissipation holes 806 are preferably arranged on the cover body 800 in a ring shape. The fans 302 have different rotational orientations, and in operation in one of the rotational orientations, the fans 302 deliver airflow into the underlying indoor space. When the fan 302 operates in the reverse direction, the fan 302 delivers an airflow in the direction of the ceiling, and at this time, a part of the airflow enters the cover 800 and flows out through the heat dissipation holes 806 on the cover 800. The heat dissipation holes 806 have a heat dissipation function, and can dissipate heat for the control module 500 and other power modules in the enclosure 800.

The anion module 700 includes an output end 808, and the output end 808 extends to the upper side of the housing 800. Because the existence of louvre 806, when fan 302 counter-rotation, form the air current towards cover body 800 inboard space one side, the air current is from the input in wind channel to through and fully contact with anion module 700, because the existence of louvre 806, the air current discharges to cover body 800 upside space along louvre 806 behind anion module 700, can further drive the air flow near output 808, make the anion wider to the scope of indoor diffusion, air purification effect is better.

The specific manner in which the negative ion module 700 releases negative ions from the output 808 is not limited. Those skilled in the art can select, but not limited to, pipes, ducts, and the like.

The anion module 700 further comprises an indicator light 807 in communication with the anion module 700, wherein the indicator light 807 is electrically connected with the control module 500. The indicator 807 can be disposed on the cover 800 or on other components, so that the user can observe the indicator with eyes. When the anion module 700 starts to work, the indicator light 807 can be turned on for a long time or intermittently, and light emitted by the indicator light 807 is projected to a ceiling for reference by a user.

Further, as shown in fig. 3 and 4, the fan 302 further includes a backlight module 600 and a mounting groove 601 for mounting the backlight module 600, the backlight module 600 is disposed on the suspension rod 200 or on the upper side of the cover 800, and the backlight module 600 is electrically connected to the control module 500. The backlight module 600 may be an integrated ring light source or a plurality of point light sources connected in a ring shape. The light source is embedded into the mounting groove 601, protrudes out of the surface of the mounting groove 601, and can be used for horizontally emitting light to the side direction and the upper side, and the light source can be an illuminating lamp or an atmosphere lamp.

The above-mentioned embodiments are merely illustrative and not restrictive, and those skilled in the art can make modifications to the embodiments without inventive contribution as required after reading the present specification, but only protected by the patent laws within the scope of the claims.

Claims (10)

1. A fan lamp comprising:

a suction top shell (100);

a boom (200) connected to the suction top case (100);

a fan module (300) connected to the boom (200);

the light-emitting module (400) is arranged at the lower side of the fan module (300);

a housing (800) connected to the boom (200);

it is characterized in that the preparation method is characterized in that,

the fan is characterized by further comprising a control module (500) arranged in the cover body (800), the control module (500) is connected with a power supply, and the control module (500) is electrically connected with the fan module (300) and the light-emitting module (400).

2. A fan lamp as claimed in claim 1, wherein: the temperature control device further comprises a temperature sensor (803), the temperature sensor (803) is in communication connection with the control module (500), and the temperature sensor (803) is arranged on the cover body (800) and extends to the upper side of the cover body (800).

3. A fan lamp as claimed in claim 2, wherein: a groove (804) is formed in the cover body (800), and the temperature sensor (803) is installed in the groove (804).

4. A fan lamp as claimed in claim 1, 2 or 3, wherein: the anion generator further comprises an anion module (700), wherein the anion module (700) is arranged in the cover body (800), and anions are electrically connected with the control module (500).

5. The fan lamp as claimed in claim 4, wherein: the cover body (800) is provided with heat dissipation holes (806), and the heat dissipation holes (806) are communicated with the upper side of the cover body (800) and the inside of the cover body (800).

6. The fan lamp as claimed in claim 4, wherein: the anion module (700) comprises an output end (808), and the output end (808) extends to the upper side of the cover body (800).

7. A fan light as claimed in claim 5, wherein: the heat dissipation holes (806) are annularly arranged on the cover body (800).

8. The fan lamp as claimed in claim 4, wherein: the anion generator further comprises an indicator light (807) in communication connection with the anion module (700), and the indicator light (807) is electrically connected with the control module (500).

9. A fan lamp as claimed in claim 1, 2, 3, 5, 6, 7 or 8, wherein: the novel hanging rod structure is characterized by further comprising a backlight module (600), wherein the backlight module (600) is electrically connected with the control module (500), and the backlight module (600) is arranged on the outer side of the hanging rod (200) or the upper side of the cover body (800).

10. A fan lamp as claimed in claim 9, wherein: the cover body is also provided with a mounting groove (601) for the backlight module (600) to be embedded, the backlight module (600) is an integral annular light source or a plurality of point light sources which are continuous and annular, the light sources are embedded in the mounting groove (601), and the light sources protrude out of the surface of the mounting groove (601).

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