CN218877586U - Luminous parking apron - Google Patents

Abstract

The utility model discloses a luminous parking apron, which comprises a parking apron body for the taking off and landing of an unmanned aerial vehicle, a luminous device and a light guide structure; the light-emitting device is arranged on the apron body; the light guide structure is arranged at the outer contour of the apron body in a surrounding manner; the light guide structure is opposite to the light emitting part of the light emitting device so as to receive light emitted by the light emitting part and realize illumination of the outer contour of the parking apron body. In the scheme, the light is output to the light guide structure arranged around the outer contour of the apron body through the light emitting part of the light emitting device to illuminate the outer contour of the apron body; make the user more convenient when operating unmanned aerial vehicle in the environment that luminance is not enough and opening.

Description

Luminous parking apron

Technical Field

The utility model belongs to the technical field of the model unmanned aerial vehicle technique and specifically relates to a luminous air park.

Background

Unmanned aerial vehicle's application is more and more extensive, and when using, unmanned aerial vehicle operation often has the air park, and the air park that uses commonly at present mostly adopts a square plastic cloth to draw pattern direct use, even if this type air park is put on smooth bottom surface.

Conventional tarmac are unlit or have a pilot light at a location on the tarmac. Just so have a problem, unmanned aerial vehicle operator can't recognize the whole profile of air park promptly, can't accurately stop on the air park when leading to landing night.

Therefore, the above technical problem needs to be solved.

SUMMERY OF THE UTILITY MODEL

In order to overcome the not enough of prior art, the utility model provides a luminous air park, aim at solve current air park and can't distinguish when using night and clearly the air park profile leads to the inconvenient technical problem of shut down.

In order to solve the technical problem, the utility model provides a basic technical scheme does:

the utility model provides a luminous air park, includes the air park body that is used for supplying unmanned aerial vehicle to take off and land, luminous air park still includes:

the light-emitting device is arranged on the apron body;

the light guide structure is arranged at the outer contour of the parking apron body in a surrounding mode;

the light guide structure is opposite to the light emitting part of the light emitting device so as to receive light emitted by the light emitting part and realize illumination of the outer contour of the apron body.

Furthermore, a light-transmitting flexible protective cover capable of wrapping the light guide structure is arranged on the periphery of the light guide structure.

Further, the flexible protective cover is of a transparent structure.

Furthermore, the flexible protective cover is clamped with the profile part of the apron body, so that two ends of the flexible protective cover are respectively abutted against the front surface and the back surface of the apron body to form a containing groove for containing the light guide structure.

Further, the light guide structure is located at the peripheral side end face of the apron body.

Further, the section of the light guide structure is circular.

Further, the part of the apron body close to the edge position is provided with a plurality of through holes used for being matched with the fixing nails.

Further, the light emitting device is configured to have:

a housing including a receiving space;

the power supply is positioned in the accommodating space;

the electric control plate is positioned in the accommodating space;

two light emitting parts located in the housing space;

the electric control board is electrically connected with the power supply and the two light emitting parts respectively;

the two ends of the light guide structure extend into the accommodating space, and the two light emitting parts are respectively opposite to the two ends of the light guide structure so as to irradiate light to the light guide structure.

Furthermore, the housing has a clamping mechanism in the accommodating space for clamping and fixing two ends of the light guide structure so that each end of the light guide structure is opposite to the corresponding light emitting part.

Further, the shell comprises an upper cover and a lower cover, and when the upper cover and the lower cover are assembled in a covering mode, part of the apron body is clamped inside to achieve fixing of the light-emitting device and the apron body.

The utility model has the advantages that:

the technical scheme of the utility model provides a luminous parking apron, which comprises a parking apron body for the take-off and landing of an unmanned aerial vehicle, a luminous device and a light guide structure; the light-emitting device is arranged on the apron body; the light guide structure is arranged at the outer contour of the apron body in a surrounding manner; the light guide structure is opposite to the light emitting part of the light emitting device so as to receive light emitted by the light emitting part and realize illumination of the outer contour of the parking apron body. In the scheme, the light is output to the light guide structure arranged around the outer contour of the apron body through the light emitting part of the light emitting device to illuminate the outer contour of the apron body; make the user more convenient when operating unmanned aerial vehicle in the environment that luminance is not enough and opening.

Drawings

Fig. 1 is a schematic structural view of a light-emitting apron according to the present invention;

FIG. 2 is a schematic view of an assembly of a light guiding structure and a light emitting device;

FIG. 3 is a schematic view of the light guide structure and the apron body;

FIG. 4 is a schematic structural diagram of a light guide structure;

FIG. 5 is a schematic view of an external shape of a light-emitting device;

FIG. 6 is a schematic diagram of an internal structure of the light-emitting device;

FIG. 7 is a schematic view of the alignment of the light-emitting part and the light-guiding structure;

FIG. 8 is a schematic view of the clamping mechanism;

FIG. 9 is a schematic view of a clamping mechanism clamping a light guide structure in a lateral direction;

fig. 10 is a schematic view of a clamping mechanism clamping a light guide structure.

Detailed Description

The technical solutions in the embodiments of the present invention will be described below clearly and completely with reference to fig. 1 to 10, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

It should be noted that the embodiments of the present invention are described with reference to the drawings. If a particular gesture changes, the directional indication changes accordingly.

The utility model discloses a use when luminous air park mainly used model unmanned aerial vehicle takes off and descends. The method is particularly suitable for use scenes when the contour of the parking apron cannot be distinguished under the condition of insufficient brightness, such as at night.

As shown in fig. 1 and fig. 2, the light-emitting apron of the present solution includes an apron body 10 for an unmanned aerial vehicle to take off and land, a light-emitting device 20 and a light guide structure 30, wherein the light-emitting device 20 is disposed on the apron body 10; the light guide structure 30 is arranged around the outer contour of the apron body 10; the light guide structure 30 faces the light emitting part 201 of the light emitting device 20 to receive the light emitted from the light emitting part 201, so as to illuminate the outer contour of the apron body 10.

In operation, the light emitting portion 201 of the light emitting device 20 emits light. Because the light-emitting part 201 is opposite to the light-guiding structure 30, the light emitted by the light-emitting part 201 can be projected to the light-guiding structure 30, and the light illuminates the outline of the whole apron body 10 under the action of the light-guiding structure 30. Just so light up whole air park, the unmanned aerial vehicle operator of being convenient for descends unmanned aerial vehicle on the air park in smooth realization when luminance is not enough.

It should be understood that the light guiding structure 30 in this embodiment is arranged around the outer contour of the tarmac body 10, and the entire light guiding structure 30 is illuminated when the light emitting device 20 emits light.

The outer shape of the tarmac body 10 may be configured in various shapes, such as a circle, a square, an ellipse, or the like. The shape is not limited to this, and may be any other arbitrary shape. Only changing the shape of the apron body 10 is within the scope of the present invention.

When the parking apron is used, particularly outdoors, the parking apron is easy to blow due to wind blowing. Therefore, in some embodiments, the apron body 10 has several through holes 101 near the edge for cooperating with the fastening nails. Specifically, in the present embodiment, 4 through holes 101 are provided in the edge area close to the apron body 10, and the four through holes 101 are uniformly distributed.

In order to protect the light guide structure 30, a light-transmissive flexible protective cover 40 is disposed around the light guide structure 30 and can cover the light guide structure 30. That is, the flexible protective cover 40 can enclose the light guide structure 30 to prevent the external foreign object from contacting the light guide structure 30, thereby reducing the risk of damage.

It should be understood that the flexible boot 40 is resiliently deformable. Namely, the folding use requirement of the apron body 10 can be met. For example, the flexible boot 40 is made of a PC sheet material.

The flexible protective cover 40 is light-transmissive, and light emitted from the light guide structure 30 can be radiated outward through the flexible protective cover 40.

In some embodiments, the flexible protective cover 40 is a transparent structure, which can ensure sufficient light intensity and reduce light attenuation. The design of the transparent structure can meet the use requirements of the light-emitting device 20 when emitting light with different colors.

Of course, in other embodiments, the flexible boot 40 may be a colored structure, such as green, red, yellow, etc. The selection can be specifically carried out according to different use scenes and requirements.

As shown in fig. 3, the flexible protective cover 40 is clamped to the contour portion of the tarmac body 10, so that two ends of the flexible protective cover abut against the front surface and the back surface of the tarmac body 10 respectively to form a receiving groove 401 for receiving the light guide structure 30. When specifically designed, the flexible shield 40 is formed by winding a flexible sheet-like structure along the edge of the tarmac body 10. Both ends (i.e., upper and lower ends shown in fig. 3) of the flexible protection cover 40 abut against the front surface (upper surface shown in the drawing) and the back surface (lower surface shown in the drawing) of the tarmac body 10, respectively, so that a closed receiving groove 401 is formed. In particular, when the flexible protective cover 40 is fixed, the flexible protective cover and the parking apron body 10 can be fixedly connected in a sewing mode, and therefore the production process is simplified. By adopting the technical scheme, the flexible protective cover 40 can be conveniently assembled.

In detail, as shown in fig. 3, in some embodiments, the light guide structure 30 is located at a peripheral side end face of the apron body 10. I.e. the light guiding structure 30 is arranged in a way that it surrounds the end profile of the tarmac body 10. The arrangement in this manner can solve the problem that the light guide structure 30 is excessively protruded in thickness. That is, the light guide structure 30 and the apron body 10 are arranged side by side in thickness, which can reduce the thickness of the entire apron compared to the case where the light guide structure 30 is provided on the front or back of the apron body 10. The light guide structure 30 is wound around the periphery of the apron body 10, and the outer edge side of the apron body 10 has a positioning function on the light guide structure 30, so that the operation is very convenient.

In some embodiments, the light guide structure 30 is made of one of a light guide strip of fiber optic material, PVC material, and TPU material. Preferably, the light guiding structure 30 has a circular cross-section. That is, the light guide structure 30 is a linear structure and is an integral structure, as shown in fig. 4, the light guide structure 30 is a complete optical fiber light guide strip, and can surround a non-closed loop when in use. At least one of the two end surfaces of the optical fiber light guide bar is opposite to one end surface of the light emitting device 20, so that the light emitted by the light emitting part of the light emitting device 20 can be irradiated into the optical fiber light guide bar.

As shown in fig. 5 to 7, the light emitting device 20 is configured to have a housing 202, a power source 203, an electronic control board 204, and two light emitting portions 201, the housing 202 including a housing space 2021; the power supply 203, the electronic control board and the two light emitting parts 201 are positioned in the accommodating space 2021; the electric control board 204 is electrically connected with the power source 203 and the two light emitting parts 201 respectively; here, both ends of the light guide structure 30 extend into the storage space 2021, and the two light emitting parts 201 respectively face both ends of the light guide structure 30 to irradiate light onto the light guide structure 30.

The light emitting device 20 is self-powered, in particular by a power supply 203. The power source 203 may be a lithium battery, a super capacitor, or other power supply device. The power source 203 is electrically connected to an electric control board 204, and the electric control board 204 is used for controlling the light emitting portion 201 to emit light. The electric control board 204 has a charging interface exposed outside the housing 202. Specifically, in order to protect the charging interface and prevent moisture, impurities and the like from entering and further influencing the use, a waterproof cover 206 capable of being closed or opened is arranged at the charging interface. Of course, in this embodiment, the electronic control board 204 may be implemented by using the prior art, and will not be described in detail in this embodiment.

In this embodiment, two light emitting portions 201 are provided, and the two light emitting portions 201 respectively face two end portions of the light guiding structure 30 to increase the brightness of the light guiding structure 30. Wherein the two light emitting sections 201 may emit the same or different light. For example, both light emitting parts 201 may emit white light, or one light emitting part 201 may emit white light and the other light emitting part 201 may emit blue light. Of course, in some embodiments, each light emitting portion 201 may be implemented using a color-changing lamp. For example, each of the light emitting parts 201 may alternately emit light of different colors such as red, blue, green, and the like.

In this embodiment, the light emitting unit 201 preferably employs an LED lamp, and the LED lamp is controlled by the electronic control board 204 to emit light.

In order to ensure that the two light emitting parts 201 can be aligned with the light guiding structure 30 at any time to ensure the light guiding effect. In other embodiments, a better fixation of the light guiding structure 30 is achieved. As shown in fig. 8 and 9, the housing 202 has a clamping mechanism in the receiving space 2021 for clamping and fixing both ends of the light guiding structure 30 so that each end of the light guiding structure 30 faces the corresponding light emitting portion 201.

Specifically, the clamping mechanism includes two sets of support rib groups respectively disposed on two sides of the electric control board 204, each set of support rib group includes a plurality of support ribs 2022 disposed on the upper and lower inner surfaces of the housing 202, and the upper and lower support ribs 2022 are disposed opposite to each other. Each support rib 2022 forms a clamping groove 20221, a side of the clamping groove 20221 away from the apron body 10 has a side wall 20222, and a side of the clamping groove 20221 close to the apron body 10 is open. Two of the light emitting portions 201 are also disposed on two sides of the electronic control board 204 and face the corresponding slots 20221.

During assembly, as shown in fig. 9, both ends of the light guide structure 30 are respectively located at the clamping groove 20221, the light guide structure 30 abuts against the side wall 20222, a portion of the apron body 10 is disposed at the clamping groove 20221 through the open end of the clamping groove 20221, and contacts with the light guide structure 30, and the light guide structure 30 is laterally pressed to the side wall 20222 through the apron body 10; this achieves that the light guiding structure 30 is positioned in the lateral direction. As shown in fig. 10, in the longitudinal direction, the light guide structure 30 is restrained by the support ribs 2022 of the upper and lower inner surfaces of the housing 202. I.e. the upper and lower support ribs 2022 clamp the light guiding structure 30 in the longitudinal direction. Thus, the light guide structure 30 is positioned by the cooperation of the support rib 2022, the housing 202 and the apron body 10, and the light guide effect is prevented from being influenced by shaking of the two ends of the light guide structure 30 in the use process.

In detail, the housing 202 includes an upper cover 2023 and a lower cover 2024, and when the upper cover 2023 and the lower cover 2024 are assembled, a part of the apron body 10 is held inside to fix the lighting device 20 and the apron body 10. When assembling, the upper cover 2023 and the lower cover 2024 are fixed by screws or by a snap-fit method. During assembly, the upper cover 2023 and the lower cover 2024 clamp the apron body 10, so that the whole housing 10 and the apron body 10 are fixedly connected. Of course, in this embodiment, the inner surfaces of the upper cover 2023 and the lower cover 2024 are provided with the supporting ribs 2022, and when the upper cover 2023 and the lower cover 2024 are butted together, the corresponding supporting ribs 2022 clamp the light guiding structure 30, as shown in fig. 10.

In a word, the technical scheme of the utility model make the profile of air park body 10 illuminated through light-directing structure 30 and illuminator 20's combined action, made things convenient for the user to take off and land at the not enough especially night operation model unmanned aerial vehicle of luminance.

Variations and modifications to the above-described embodiments may occur to those skilled in the art based upon the disclosure and teachings of the above specification. Therefore, the present invention is not limited to the specific embodiments disclosed and described above, and some modifications and changes to the present invention should fall within the protection scope of the claims of the present invention. Furthermore, although specific terms are employed herein, they are used in a generic and descriptive sense only and not for purposes of limitation.

Claims (10)

1. The utility model provides a luminous air park, includes air park body (10) that is used for supplying unmanned aerial vehicle to take off and land, its characterized in that, luminous air park still includes:

the light-emitting device (20) is arranged on the apron body (10);

the light guide structure (30) is arranged around the outer contour of the apron body (10);

the light guide structure (30) is opposite to the light emitting part (201) of the light emitting device (20) so as to receive light emitted by the light emitting part (201) to realize illumination of the outer contour of the apron body (10).

2. The lighted tarmac of claim 1, wherein:

the periphery of the light guide structure (30) is provided with a light-transmitting flexible protective cover (40) which can wrap the light guide structure (30).

3. The lighted tarmac of claim 2, wherein:

the flexible protective cover (40) is of a transparent structure.

4. The lighted tarmac of claim 2, wherein:

the flexible protective cover (40) is clamped with the outline part of the apron body (10) so that two ends of the flexible protective cover are respectively abutted against the front surface and the back surface of the apron body (10) to form a containing groove for containing the light guide structure (30).

5. The lighted tarmac of claim 1, wherein:

the light guide structure (30) is located on the peripheral side end face of the apron body (10).

6. The lighted tarmac of claim 1, wherein:

the section of the light guide structure (30) is circular.

7. The lighted tarmac of claim 1, wherein:

the part of the tarmac body (10) close to the edge position is provided with a plurality of through holes (101) used for being matched with fixing nails.

8. A light-emitting apron according to any one of claims 1 to 7, characterized in that the light-emitting means (20) are configured with:

a housing (202) including a housing space (2021);

a power source (203) located within the receiving space (2021);

an electric control board (204) positioned in the receiving space (2021);

two light emitting units (201) located in the storage space (2021);

the electric control board (204) is respectively and electrically connected with the power supply (203) and the two light-emitting parts (201);

wherein, both ends of the light guide structure (30) are extended into the accommodating space (2021), and the two light emitting parts (201) are respectively opposite to both ends of the light guide structure (30) so as to irradiate light to the light guide structure (30).

9. The lighted tarmac of claim 8, wherein:

the housing (202) is provided with a clamping mechanism in the accommodating space (2021) for clamping and fixing two ends of the light guide structure (30) so that each end of the light guide structure (30) is opposite to the corresponding light emitting part (201).

10. The lighted tarmac of claim 8, wherein:

the shell (202) comprises an upper cover (2023) and a lower cover (2024), and when the upper cover (2023) and the lower cover (2024) are assembled, part of the apron body (10) is clamped inside to realize the fixation of the light-emitting device (20) and the apron body (10).

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