Drone Holster

Abstract

Devices and methods for transporting and storing a drone. Polycarbonate or material of similar resiliency is used to create a casing for the drone body. Stationary wing or retractable wing drones can be protectively coupled and attached to objects for transportation. The casing is comprised of a hood to cover the top of the drone and a carriage to receive the sides and bottom of the drone. The device allows quick access and greater versatility in storage and transportation of drones.

Claims

1. A holster for a drone, comprising: a. a carriage configured to receive a drone, having at least two sides and a harness base joining the sides; b. a hood configured to cover a top of the drone, said hood not extending greater than 20 millimeters above a top of a immediately adjacent point of a body of a coupled drone body top; c. the carriage being attached to the hood in at least one place; d. said carriage permitting removable attachment of the drone; e. said carriage sides not extending greater than 15 millimeters from the immediately adjacent point of coupled drone body side surface; f. said harness base not extending greater than 15 millimeters from the immediately adjacent point of a coupled drone body bottom side surface; g. said holster being configured to leave a portion of the drone exposed and capable of being touched when coupled.

2. A device for transportation of a drone, comprising: a. a hood comprised of plastic material; b. said hood configured to cover a top of a body and wings of the drone; c. a carriage having a top scaffolding portion and a bottom harness portion; d. said top scaffolding comprised of a first top scaffolding side and a second top scaffolding side, said first top scaffolding side and second top scaffolding side being conjoined with and extending down from the hood; e. said bottom harness portion having two sides and a bottom contiguously configured to receive a drone body, the harness being attached to the scaffold by a hinge on one side; f. the side of said bottom harness opposing the hinge containing one aspect of a snaphook; g. the top scaffolding containing the corresponding aspect of a snap-hook; h. said carriage being, configured to a drone body when the top and bottom of the carriage are coupled; i. the top scaffolding and bottom harness not extending greater than 15 mm from the immediately adjacent point of coupled drone body side surface when the snap-hook aspects are coupled; j. the hood not extending greater than 20 mm from the immediately subjacent point of a coupled drone body top surface; k. said drone and carriage being configured to expose a portion of a coupled drone.

3. The device in claim 2 wherein one or more rings capable of attachment of a supplementary coupling device are conjoined to the hood.

4. A method of transporting a drone, comprising: a. a holster capable of coupling a drone and being engaged by a supplemental coupling device; b. said supplemental coupling device being capable of being attached to a garment or other object; c. said supplemental coupling device is attached to a garment or outside of another object; d. the holster permitting partial exposure of the drone when coupled.

5. A method of protecting a drone, comprising: a, connecting a drone to a drone holster; b. said drone holster being comprised of a hood and carriage; c. said carriage being comprised of a first side and a second side, and a harness base, the sides being connected to and extending from the hood, the harness base being actively coupled with a first side by a hinge, the opposing side of the harness base removably coupling with the second side by snap-hook; d. a top of the drone being covered and partially surrounded by the hood; e. the drone being inserted into the carriage and the snap-hook being engaged to couple the inserted drone; f, the coupled drone remaining partially exposed to outside physical contact; g. the hood not extending greater than 20 mm from the top of the immediately adjacent part of the drone body top; h. the harness base not extending greater than 15 mm from the immediately adjacent part of the drone body.

6. (canceled)

7. The method in claim 5, wherein the hood contains at least one ring permitting attachment of a carabiner or other supplementary coupling device.

8. The method in claim 5, wherein a supplementary coupling device is permanently attached to the drone holster,

9. The method in claim 5, wherein the supplementary coupling device includes a retractable reel or other mechanism allowing for extension of the drone while coupled,

10. A device for protecting and coupling a quadcopter drone having a top, sides and four wings, the device comprising: a. a stationary hood comprised of resilient material; b. said hood being configured to cover the top of a quadcopter drone body and the four wings; c. a carriage configured to contour to the sides and bottom of the drone body; d. said carriage having two sides and a bottom; e. said carriage being comprised of a top scaffolding and bottom harness base; f. a hinge operatively coupling the harness base operatively coupling with the scaffold on one side of the carriage; g. said harness base and scaffolding comprising coupling aspects enabling the harness base to couple with the scaffolding on the carriage side opposing the hinge; h. said carriage being open on two sides, partially exposing, said quadcopter drone.

11. The device for protecting and coupling a quadcopter drone in claim 10, wherein the hood and carriage are comprised of a glass-filled polymer outer layer and a polyurethane layer lining a portion of the side of the hood and carriage that is disposed toward a coupled drone.

12. The device for protecting and coupling a quadcopter drone in claim 10, wherein the coupling aspects are snap-hook coupling aspects.

Description

BRIEF DESCRIPTION OF DRAWINGS

[0022] FIG. 1A shows a side view of the drone holster

[0023] FIG. 1B shows a top view of the drone holster

[0024] FIG. 2 shows an exploded bottom perspective view of the drone holster

[0025] FIG. 3A shows a top perspective view of the drone holster with a drone attached

[0026] FIG. 3B shows a front view of the drone holster with a drone attached

[0027] FIG. 4 is a schematic drawing of the drone holster in operation

[0028] FIG. 5 is a schematic drawing demonstrating the immediately adjacent point on the drone.

LIST OF DRAWING NUMBERS

[0029] 10 Drone Holster [0030] 11 Hood [0031] 21 Carriage [0032] 23 Scaffold [0033] 25 Harness [0034] 27 Ring [0035] 29 Hinge [0036] 30 Pivot Pin [0037] 31 Snap-hook [0038] 33 Carriage padding [0039] 34 Hood padding [0040] 40 Supplemental coupling device [0041] 50 Drone Body [0042] 52 Gimbaled camera [0043] 54 Drone wing [0044] 72 Top of Drone Body [0045] 74 Drone Propellers [0046] 75 Backpack loop [0047] 77 Backpack [0048] 80 Immediately Adjacent Point

DETAILED DESCRIPTION OF DRAWINGS

[0049] FIG. 1A depicts the drone holster 10 in isolation. The carriage 21 is conjoined with the hood 11. The scaffolding 23 and harness 25 are permanently attached by a hinge 29. The hinge 29 enables the harness 25 to pivot relative to the hood 11, permitting installation and removal of a drone. The carriage 21 is locked by utilizing, a snap-hook 31 on the side opposite the hinge. Padding 33 lines the inner surfaces of the carriage 21 abutting a drone.

[0050] FIG. 1B depicts the dimensions of the exemplary hood 11. Four symmetrical arms are configured to cover the wings, rotors, and propellers of a stationary wing quad-.copier drone. Two rings 27 are conjoined with the tip of two of the, hood 11 arms. The rings 27 enable attachment of a carabiner or other supplementary coupling mechanism. The scaffolding 23 can be seen to the sides of the narrow portion of the hood 11. For effective weight distribution the scaffolding 23, harness 25, and hinge 29 are in the middle of the drone holster 10.

[0051] FIG. 2 illustrates the individual components and design of the exemplary drone holster 10. Four hood pads 34 are configured to line the underside of the hood 11 abutting the drone. In the exemplary embodiment polyurethane foam is used for its force absorption and durability. The edge of the hood 11 extends down, surrounding the top of the body and wings of the drone. The male aspect of the snap-hook 31 is conjoined with the carriage scaffolding 23. Four separate carriage pads 33 are fitted to receive and cushion the drone when installed in the drone carriage 21. The pivot pin 30 connects the drone harness 25 with the scaffolding 23. The female aspect of the snap-hook 31 is conjoined to the harness 25 in alignment with the male aspect 31.

[0052] FIGS. 3A-3B depict the drone holster in use. A drone body 50 is coupled by the carriage 21. The harness 25 supports the bottom of the drone and is locked to the scaffolding 25 via the snap-hook 31. The hood 11 covers and protects the top and sides of the drone wings 54. The gimbaled camera 52 remains accessible while coupled, permitting manual operation. A supplementary coupling device 40, here a carabiner, is inserted into a ring 27. The carriage padding 33 abuts the bottom, top, and sides of the drone. The hood extends beyond the dimensions of the drone, effectively protecting the gimbaled camera 52 and drone body 50. As can be seen, the hood covers the top of the wings 54 and propellers of the drone. When the snap-hook 31 is disengaged the harness 25 pivotally rotates by the hinge 29. The harness 25 side comprising the snap-hook 31 swings down and away from the drone body 50. A user can remove the drone by grabbing the drone body 50. The drone body 50 is more durable than propellers and drone wings 54. The top of a drone may also consist of implements subject to miscalibration, such as the propellers and a power button.

[0053] FIG. 4 depicts the supplementary coupling device 40 used to attach the holster 10 to an object, here a backpack 77 loop 75. The snap-hook 31 is opened and the drone 50 removed when ready for use.

[0054] The hood (11) extends no greater than 20 mm above an immediately adjacent point (80) on a drone body top (72). The immediately adjacent point is the point at which a line extending perpendicularly from the hood (11) outer surface intersects with the drone body top. FIG. 5 demonstrates this intersection. Drone body top (72) means the uppermost planar surface (72) of the drone body (50) and the uppermost planar surfaces of the drone propellers (74).

[0055] The carriage 21 also contours to the drone body 50. The carriage 21 extends no greater than 15 s mm from the immediately adjacent point (80) on a coupled drone body surface. Extension is measured from the outer surface of the carriage 21. The drone body surface does not include recesses or indentations created to house a drone camera or gimbal. The extension limitation does not apply to the hinge 29 or snap-hook 13 aspects of the carriage 21. The hinge 29 and snap-hook 31 may extend obliquely from the drone and thereby create distortions in the extension measurement.

[0056] The foregoing discussion discloses and describes merely exemplary methods and embodiments. As will be understood by those familiar with the art, the disclosed subject matter may be embodied in other specific forms without departing from the essence or characteristics thereof. Accordingly, the foregoing disclosure is intended to be illustrative, but not limiting, of the scope of the invention, which is set forth in the following claims.