Fan lamp

A fan lamp includes a lamp mount and a plurality of fan assemblies disposed on the lamp mount. The fan lamp have functions of lighting and ventilation, moreover, the coverage area of the lighting and ventilation is large, not only can the growth of plants be promoted, but also the characteristics of simple structure and small occupation space can have.

CROSS-REFERENCE TO RELATED APPLICATION(S)

This is a national stage application filed under 35 U.S.C. 371 based on International Patent Application No. PCT/CN2022/101793, filed Jun. 28, 2022, which claims priority to Chinese Patent Application No. 202221032581.3 filed with the China National Intellectual Property Administration (CNIPA) on Apr. 29, 2022 and claims priority to Chinese Patent Application No. 202221033902.1 filed with the CNIPA on Apr. 29, 2022, the disclosures of which are incorporated herein by reference in their entireties.

TECHNICAL FIELD

The present application relates to the technical field of lamps, for example, a fan lamp.

BACKGROUND

The use of lamps to supplement lighting for indoor plants in tents and planting fields can promote the growth of plants. For a lamp used in a special scenario such as a tent or a planting field, not only the functions of easy splicing and disassembly, but also the characteristics of simple structure and small occupation space are required.

However, tents and planting fields suffer from poor ventilation, and this can lead to slow growth of plants. To solve this problem, in the related art, fans are often additionally arranged in tents and planting fields to promote air circulation. Due to the limited space in the tents and the planting fields, this arrangement of lamps and fans leads to complex installation and a large occupation space.

SUMMARY

The present application provides a fan lamp having functions of lighting and ventilation.

A fan lamp includes a lamp mount and a plurality of fan assemblies disposed on the lamp mount.

REFERENCE LIST

DETAILED DESCRIPTION

Technical solutions in the embodiments of the present application will be described in conjunction with drawings in the embodiments of the present application. The embodiments described herein are part of the embodiments of the present application. Generally, the components of this embodiment of the present application described and illustrated in the drawings herein may be arranged and designed through various configurations.

Therefore, the following description of the embodiments of the present application and shown in the drawings merely illustrates the selected embodiments of the present application.

Similar reference numerals and letters indicate similar items in the following drawings, and therefore, once an item is defined in one drawing, the item needs no definition and explanation in subsequent drawings.

In the description of the present application, the orientational or positional relationships indicated by terms “above”, “below”, “left”, “right”, “vertical”, “horizontal”, “inside”, “outside” and the like are based on the orientational or positional relationships illustrated in the drawings or the orientational or positional relationship that products of the present application are usually used in. These orientations or position relations are intended only to facilitate and simplify description of the present application, and not to indicate or imply that a device or element referred to must have such specific orientations or must be configured or operated in such specific orientations. Thus, these orientations or position relations are not to be construed as limiting the present application. Moreover, terms “first”, “second” and “third” are merely for distinguishing the description and are not to be construed as indicating or implying relative importance. In the description of the present application, unless otherwise noted, the term “a plurality of” or “multiple” means two or more.

In the description of the present application, unless otherwise specified and limited, the term “configured” or “connected” is to be construed in a broad sense, for example, as securely connected, detachably connected or internally connected; or mechanically connected or electrically connected. For those of ordinary skill in the art, meanings of the preceding terms can be understood according to situations in the present application.

In the present application, unless otherwise specified and limited, when a first feature is described as “on” or “below” a second feature, the first feature and the second feature may be in direct contact or be in contact via another feature between the two features instead of being in direct contact. Moreover, when the first feature is described as “on”, “above” or “over” the second feature, the first feature is right on, above or over the second feature or the first feature is obliquely on, above or over the second feature, or the first feature is simply at a higher level than the second feature. When the first feature is described as “under”, “below” or “underneath” the second feature, the first feature is right under, below or underneath the second feature or the first feature is obliquely under, below or underneath the second feature, or the first feature is simply at a lower level than the second feature.

Embodiments of the present application are described below, and examples of the embodiments are illustrated in the drawings, where the same or similar reference numerals indicate the same or similar elements or elements having the same or similar functions. The embodiments described below with reference to the drawings are illustrative and only for explaining the present application.

As shown inFIGS.1to3, this embodiment provides a fan lamp. The fan lamp includes a lamp mount1and multiple fan assemblies2disposed on the lamp mount1.

Optionally, the fan lamp also includes lamp bodies12and blowing units3. The lamp mount1includes multiple mount bodies11. Two adjacent mount bodies11are connected by a connector such that the two adjacent mount bodies11are located on the same plane or such that an included angle is formed between the two adjacent mount bodies. The fan assemblies2are fans21. At least one lamp body12is disposed on each mount body11. At least one blowing unit3is disposed on each mount body11. Each blowing unit3includes a mounting assembly and multiple fans21. The multiple fans21are mounted on the mount body11corresponding to the each blowing unit3by the mounting assembly.

The lamp mount1includes multiple mount bodies11connected to each other. At least one lamp body12and at least one blowing unit3are disposed on each mount body11, having functions of lighting and ventilation. Moreover, the coverage area of the lighting and ventilation is large.

Thus, not only can the growth of plants be promoted, but also the characteristics of simple structure and small occupation space can have.

Optionally, the mounting assembly includes a mounting member32and a blowing adjustment assembly33. The multiple fans21are securely disposed on the mounting member32. The mounting member32is rotatably connected to the mount body11corresponding to the each blowing unit3. The blowing adjustment assembly33can selectively lock the mounting member32to the lamp mount1or unlock the mounting member32from the lamp mount1. After the mounting member32is rotated to an appropriate angle, the mounting member32and the lamp mount1are locked by the blowing adjustment assembly33so that blowing directions of fans21can be adjusted to meet various blowing requirements.

In this embodiment, the blowing adjustment assembly33includes two threaded rods securely connected to two ends of the mounting member32in a one-to-one manner. The two threaded rods pass through two sides of the lamp mount1in a one-to-one manner. The mounting member32is rotatably connected to the lamp mount1by the two threaded rods. Each threaded rod is sleeved with two nuts that are threaded to the each threaded rod. The two nuts can abut the two sides of the lamp mount1in a one-to-one manner to lock the mounting member32to the lamp mount1. The angle of the mounting member32can be adjusted simply when the nuts are loosened. This structure is simple, and the operation is convenient.

Optionally, the lamp bodies12and the blowing units3are disposed alternately so that the light and the air circulation can be more uniform, improving the promoting effect on the growth of plants.

In this embodiment, blowing directions of blowing units3on two adjacent mount bodies11are parallel to each other so that the air in tents and planting fields can easily flow towards one direction, and the circulation is better.

In other embodiments, an included angle is formed between blowing directions of air blowing units3on two adjacent mount bodies11to facilitate blowing towards a specific direction or in a specific region. Blowing directions of air blowing units3on each mount body11can be disposed according to requirements, and this is more adaptable.

Optionally, the fan lamp also includes multiple blowing rate adjustment members. Each blowing rate adjustment member is electrically connected to all fans21on at least one mount body11.

The blowing rate of the fans21electrically connected to the blowing rate adjustment members is adjusted by the blowing rate adjustment members, making it easier to accurately control the air circulation in tents and planting fields, thereby improving the promoting effect on the growth of plants. It is also possible to control the blowing rate of fans21on the multiple mount bodies11to be the same or different by the multiple blowing rate adjustment members to adapt to different requirements. Exemplarily, the blowing rate adjustment members are fan speed adjustment switches. The rotational speed of blades of the fans21corresponding to the fan speed adjustment switches is adjusted by the fan speed adjustment switches so that the blowing rate of the fans21can be adjusted. This is the related art and is not detailed herein.

Optionally, the fan lamp also includes multiple brightness adjustment members. Each brightness adjustment member is electrically connected to all lamp bodies12on at least one mount body11. The brightness of the lamp bodies12electrically connected to the brightness adjustment members is adjusted by the brightness adjustment members, making it easier to accurately control the brightness of different regions in tents and planting fields, thereby improving the promoting effect on the growth of plants. It is also possible to control the brightness of lamp bodies12on the multiple mount bodies11to be the same or different by the multiple brightness adjustment members to adapt to different requirements. Exemplarily, the brightness adjustment members are dimmers. The lamp bodies12corresponding to the dimmers are controlled by the dimmers to emit light of different brightness. This is related art, and details are not described herein.

Optionally, the fan lamp also includes lifting members4. A lifting member4includes a mounting end and multiple connection ends connected to the multiple mount bodies11in a one-to-one manner. In this manner, the installation stability of the fan lamp can be ensured, and accidental falling can be avoided.

Optionally, the lamp bodies12are rotatably disposed on the lamp mount1. The fan lamp also includes lighting adjustment assemblies5disposed corresponding to the lamp bodies12. The lighting adjustment assemblies5can selectively lock the lamp bodies12to the lamp mount1or unlock the lamp bodies12from the lamp mount1. After the lamp bodies12are rotated to an appropriate angle, the lamp bodies12and the lamp mount1are locked by the lighting adjustment assemblies5so that the light outgoing directions of the lamp bodies12can be adjusted to meet various supplementary lighting requirements.

In this embodiment, threaded rods are securely connected to two ends of a lamp body12. The threaded rods pass through the lamp mount1. Each threaded rod is sleeved with two nuts that are threaded to the each threaded rod. The two nuts can abut two sides of the lamp mount1in a one-to-one manner to lock the lamp body12to the lamp mount1. The angle of the lamp body12can be when the nuts are loosened.

In this embodiment, the multiple mount bodies11are connected end to end along a first direction.

Optionally, the multiple fans21are sequentially disposed on the mounting assembly along a second direction. The second direction is perpendicular to the first direction. In this manner, the coverage area of ventilation of the fan lamp is helped to expand, and the air circulation effect is helped to improve.

Optionally, as shown inFIG.1andFIG.2, two adjacent mount bodies11are hinged by a connector. Ends of the two adjacent mount bodies11can abut each other such that the two adjacent mount bodies11are located on the same plane. Exemplarily, the connector is a hinge121. The hinge121is located on one side of the mount bodies11so that the ends of the two adjacent mount bodies11can abut each other. Thus, the two mount bodies11are located on the same plane. The two mount bodies11can be folded to facilitate storage. In other embodiments, two adjacent mount bodies11may be hinged by a connector. Ends of the two adjacent mount bodies11can abut each other such that an included angle is formed between the two adjacent mount bodies11. In this manner, the stability of the lamp mount1after installation can be satisfied, and the folding of two adjacent mount bodies11after disassembly is facilitated. This structure is simple, and the functionality is strong. The different forms of connectors enable blowing directions of fans21on two adjacent mount bodies11to be parallel or enable an included angle to be formed between two adjacent mount bodies11.

In other embodiments, of two adjacent mount bodies11, one is securely connected to one end of a connector, and another is securely connected to another end of the connector. In other words, the connector is a plate-type connection piece122so that the two adjacent mount bodies11are located on the same plane. Alternatively, the connector includes two connection portions between which an included angle is formed. The two connection portions are connected to two adjacent mount bodies11in a one-to-one manner. In other words, the connector is an corner connection piece123. The corner connection piece123includes two plate-type connection pieces. The two plate-type connection pieces are connected to each other, and an included angle is formed between the two plate-type connection pieces so that an included angle is formed between the two adjacent mount bodies11. Compared with the arrangement in this embodiment, the connection stability of multiple mount bodies11can be improved.

Exemplarily, the lamp mount1includes three rows of mount bodies11disposed side by side. Each row of mount bodies11include multiple mount bodies11connected end to end. Two adjacent mount bodies11in each row of mount bodies11are connected by a connector such as a plate-type connection piece122such that the two adjacent mount bodies11are located on the same plane. Two adjacent rows of mount bodies11are connected by connectors such as plate-type connection pieces122to form an integral lamp mount1. All mount bodies11of the lamp mount1are located on the same plane. As shown inFIG.3, two adjacent rows of mount bodies11may be connected by connectors such as corner connection pieces123to form an integral lamp mount1. Thus, the light outgoing directions of the lamp bodies12and the blowing directions of the fans21on the two rows of mount bodies11on two sides are converged toward the row of mount bodies11in the middle to increase the light intensity and blowing rate. The multiple mount bodies11of the lamp mount1may be arranged in other forms, or may be arranged according to scenario requirements, and this is not limited herein.

In the related art, fans can only reduce the temperature of the environment located in the opposite direction of the fans, and the temperature in the place where the fans cannot blow is still very high. This causes that the temperature in the plant planting environment is not uniform, and the air circulation is poor, resulting in good growth of some plants, but poor growth of some plants.

As shown inFIG.4andFIG.5, this embodiment provides a fan lamp. The fan lamp includes a lamp mount1and fan assemblies2disposed on the lamp mount1. Multiple fan assemblies2are provided. The multiple fan assemblies2are uniformly distributed on the lamp mount1. The fan assemblies2can be selectively mounted directly or inversely on the lamp mount1so that blowing directions of the fan assemblies2are downward or upward.

Multiple fan assemblies2are disposed on lamp mounts1. The multiple fan assemblies2are uniformly distributed on the lamp mounts1to uniformly supply air to the plants in the planting environment, to enhance the air flow, and to supply the plants with the required gas. Therefore, the plants can better breathe with fresh air, the generation of molds on the plants is suppressed, and the plants grow healthily.

In the planting environment, generally, the air temperature in the upper layer is relatively high, and the air temperature in the lower layer is relatively low. A user can choose to mount the fan assemblies2directly to supply air downward or mount the fan assemblies2inversely to supply air upward according to the temperature in the planting environment and the optimum temperature for the growth of plants.

Exemplarily, the optimum temperature for the growth of plants is 25° C. In the planting environment, if the air temperature in the upper layer is 25° C. and the air temperature in the lower layer is 20° C., it is indicated that the air temperature in the upper layer is suitable for the growth of plants. The fan lamp is located above the plants so that the fan assemblies2are mounted directly to blow down the upper air suitable for the growth of plants.

In the planting environment, if the air temperature in the upper layer is 30° ° C. and the air temperature in the lower layer is 25° C., it is indicated that the air temperature in the lower layer is suitable for the growth of plants. Therefore, the fan assemblies2are mounted inversely to blow up the lower air suitable for the growth of plants.

If the temperature in the planting environment is not uniform, the air temperature in the lower layer on one side is suitable for the growth of plants, and the air temperature in the upper layer on another side is suitable for the growth of plants. In the fan lamp, it is possible to mount inversely the fan assemblies2located close to the lower layer on the one side where the air temperature is suitable for the growth of plants to blow up the lower air suitable for the growth of plants. In the fan lamp, it is possible to mount directly the fan assemblies2located close to the upper layer on the another side where the air temperature is suitable for the growth of plants to blow down the upper air suitable for the growth of plants.

The fan assemblies2can be selectively mounted directly or inversely on the lamp mount1so that the blowing directions are downward or upward. A user can select blowing directions according to the actual planting environment (temperature, humidity, and the like.) to make the temperature in the plant environment suitable and the growth state of plants better.

Optionally, the lamp mount1includes multiple lamp bodies12disposed in parallel and at intervals. The fan assemblies2are mounted between adjacent lamp bodies12. In an embodiment, the lamp bodies12are fluorescent tubes.

In other embodiments, the lamp mount1may include an integral-type lamp plate. Multiple fan assemblies2are uniformly disposed on the lamp plate.

The lamp bodies12are light-emitting diode (LED) fluorescent tubes. The cross sections of the LED fluorescent tubes are square or round. The lamp mount1also includes a power supply box13and two mount bodies11. Lamp bodies12are disposed on two sides of the power supply box13. The lamp bodies12on the same side of the power supply box13are secured by one mount body11. The two mount bodies11are rotatably connected so that the fan lamp can be folded. Thus, the fan lamp is convenient to use and small in transportation volume. The power supply box13engages with the lamp bodies12located on two sides of the power supply box13by a power supply box mount14. One end of the power supply box13is provided with two wires. The two wires extend into the two mount bodies11in a one-to-one manner to electrically connect to the lamp bodies12. Another end of the power supply box13is provided with one wire configured to be connected to an external power supply.

In this embodiment, each mount body11includes two securing rods. The two securing rods are securely connected to two ends of the lamp bodies12in a one-to-one manner. Three lamp bodies12and two fan assemblies2are disposed on each mount body11. The three lamp bodies12are disposed in parallel and at intervals. On the two lamp bodies12close to the power supply box13, one fan assembly2is disposed on the end close to the securing rod. In use, the four fan assemblies2may be mounted directly, or any two may be mounted directly, and the remaining two may be mounted inversely.

In other embodiments, the number of lamp bodies12and the number of fan assemblies2are not limited and may be set by those skilled in the art according to actual requirements.

Optionally, the fan assembly2includes a fan21and a fan mount22. The fan21is mounted on the fan mount22. The fan mount22is connected to two adjacent lamp bodies12. The fan mount22includes a fan frame221and connection brackets222. The fan21is disposed in the fan frame221. The connection brackets222are disposed around the fan frame221and connected to the lamp bodies12. The connection brackets222are connected to two adjacent lamp bodies12. The fan21is disposed in the fan frame221to avoid the danger of blades of the fan21being exposed to the outside when the fan21rotates. The fan frame221is located between two adjacent lamp bodies12to prevent the lamp bodies12from shielding the blowing face of the fan21, thereby affecting the blowing effect.

In other embodiments, the connection brackets222may not be disposed. The periphery of the fan frame221may be directly connected to the lamp bodies12.

Optionally, fan connectors223are disposed around the fan frame221. One end of the connection bracket222is connected to a fan connector223. Another end of the connection bracket222is connected to a lamp body12. The fan connector223includes a positioning hole2231. The one end of the connection bracket222passes through the positioning hole2231to position the connection bracket222on the fan frame221.

One fan connector223is disposed around each corner of the fan frame221separately. Each fan frame221is secured on the lamp mount1by four connection brackets222. In this embodiment, the fan connector223is provided with a positioning hole2231. The axis of the positioning hole2231is parallel to the fan frame221. One end of the connection bracket222is inserted in the positioning hole2231. The positioning hole2231is a round hole or a square hole. The one end of the connection bracket222connected to the positioning hole2231is adapted to the positioning hole2231.

In this embodiment, the fan connector223is a connection block. The positioning hole2231is a square hole passing through the connection block. The connection bracket222is a connection plate. One end of the connection plate can be inserted into the square hole to support the fan frame221. Another end of the connection plate is connected to the lamp body12.

In other embodiments, the connection bracket222may be positioned by the cooperation of a positioning groove and a positioning block, or the like.

Optionally, the fan connector223also includes a first connection portion. The one end of the connection bracket222connected to the fan connector223is provided with a second connection portion. The first connection portion is cooperatively connected to the second connection portion. The first connection portion is configured as a connection hole2232. The second connection portion is configured as a threaded hole2221. A fastening bolt passes through the connection hole2232to threaded to the threaded hole2221to connect the connection bracket222to the fan frame221.

In other embodiments, the connection bracket222may be connected to the fan connector223by engagement, welding, or the like.

Optionally, multiple second connection portions are disposed at intervals. The first connection portion can be selectively connected to one second connection portion. The connection bracket222is provided with multiple threaded holes2221. The threaded hole2221at a suitable position can be selected according to the spacing between two adjacent lamp bodies12to cooperate with the connection hole2232on the fan connector223. Then, the threaded hole2221and the connection hole2232are secured by a fastening bolt. It is possible to adapt the fan assembly2to lamp mounts1of different specifications by adjusting the spacing between connection brackets222.

Optionally, a reinforcing rib224is disposed between the fan frame221and the fan connector223. The arrangement of the reinforcing rib224can enhance the connection strength between the fan frame221and the fan connector223and ensure the reliability of the connection.

In this embodiment, two reinforcing ribs224are provided. The connection hole2232is disposed between the two reinforcing ribs224.

Optionally, the end of the connection bracket222connected to the lamp body12is configured as a snap2222. The connection bracket222engages with the lamp body12by the snap2222. The cross section of the lamp body12is square or round. Correspondingly, the snap2222is configured as a square snap or a round snap. The connection bracket222engages with the lamp body12by the snap2222, making it easy to mount and disassemble. Furthermore, the arrangement of the snap2222enables both the direct mounting of the fan assembly2and the inverse mounting of the fan assembly2. The fan assembly2can be mounted directly or inversely on the lamp mount1according to actual requirements.

To adapt to the height difference between the fan frame221and the upper and lower surfaces of the lamp body12, the end of the connection bracket222engaged with the lamp body12is set higher than the end of the connection bracket222connected to the fan connector223.

Optionally, the blowing face of the fan21is provided with an air guide member (not shown). The air guide member is rotatably connected to the fan mount22to expand the blowing area of the fan21. It is possible to rotatably connect the air guide member to the fan frame221and drive the air guide member to rotate by using a driving motor. With this configuration, the blowing direction can be adjusted, and the blowing area can be enlarged.

The air guide member is an air guide plate. The specific connection manner and operation principle of the air guide plate, the fan frame221, and the driving motor are the related art and are not detailed herein.

As shown inFIG.6, the fan lamp also includes lifting members4. Each lifting member4includes a hanging rope41and rope securing members42. Two hanging ropes41are provided. The two hanging ropes41are connected to the lamp mounts11at two ends of the lamp body12in a one-to-one manner. One hanging ring131is disposed on two securing rods of each lamp mount11. Two rope securing members42are disposed at intervals at the end of each hanging rope41connected to the lamp mount11. One rope securing member42is disposed at one end of each hanging rope41connected to a securing point in the plant environment. A hanging ring131is also disposed at the securing point in the plant environment. The hanging rope41passes through the hanging ring131and then cooperates with the rope securing member42to hang the fan lamp in the securing point in the plant environment.