Customizable fitted apparatus
Abstract
A customizable fitted device for immobilizing injuries and a method for constructing the fitted device is provided. The fitted device can be used to stabilize an arm, wrist, hand, leg, knee, ankle, foot or other body parts through custom formation. The device can be formed by a sidewall having one or more sidewall sections that can be secured together using retaining clips positioned within retaining clip slots on the device. The device can further include one or more openings defined in the sidewall of each device section while maintaining rigidity in the sidewall. The device can be constructed by of creating a 3D image scan of the particular body part to which the device will be applied, creating a design of the device to precisely match the contours of the 3D image scan, and using a 3D printer to construct the device according to the design.
Claims
exact text as granted — not AI-modified1 . A removable fitted immobilization device for a body portion comprising:
a sidewall formed by one or more shell sections, the shell sections each having a first longitudinal edge and a second longitudinal edge, wherein the first longitudinal edge and the second longitudinal edge of each shell section collectively forms a plurality of longitudinal edges, and wherein the sidewall is configured for generally conforming to the body portion; at least one longitudinal sidewall seam extending longitudinally along the sidewall between an upper sidewall edge and a lower sidewall edge, wherein each longitudinal sidewall seam removably joins two longitudinal edges of the plurality of longitudinal edges such that the two longitudinal edges making up the longitudinal side wall seam are adjacent to each other; a first connector receiver pair positioned along a first at least one longitudinal sidewall seam, the first connector receiver pair comprising:
a first connector receiver positioned on the sidewall and adjacent to the first at least one longitudinal sidewall seam, the first connector receiver having a slot defined therein; and
a second connector receiver positioned on the sidewall and adjacent to the first at least one longitudinal sidewall seam and positioned opposing the first connector receiver relative to the first at least one longitudinal sidewall seam, the second connector receiver having a slot defined therein; and
a first connector configured for securing the first and second connector receivers of the first connector pair together when the sidewall is joined along the first at least one longitudinal sidewall seam; wherein, when the first connector secures the first and second connector receivers, the first connector receiver pair and the first connector together provide structural stability for the device in three directional axes.
2 . The device of claim 1 , wherein the first at least one longitudinal sidewall seam has a configuration such that the two longitudinal edges making up the longitudinal sidewall seam conform to one another other, such that the longitudinal sidewall seam provides structural stability to the device.
3 . The device of claim 1 , wherein the first at least one longitudinal sidewall seam has a wave-like configuration.
4 . The device of claim 1 , wherein the two longitudinal edges making up the first at least one longitudinal sidewall seam are joined to each other with minimal space between them.
5 . The device of claim 1 , wherein the longitudinal sidewall seam removably joins the two longitudinal edges of the plurality of longitudinal edges such that the two longitudinal edges are directly contiguous with each other.
6 . The device of claim 5 , wherein the sidewall has a plurality of voids defined in the sidewall, and a configuration of the plurality of voids defines a plurality of structural ribs, each structural rib located between two or more voids of the plurality of voids.
7 . The device of claim 5 , wherein the plurality of voids is arranged in a configuration that provides structural stability for the device.
8 . The device of claim 1 , wherein the first connector receiver is positioned adjacent to the second connector receiver so that the slots of the first and the second connector receivers align to form a continuous opening of the connector receiver pair when the sidewall is joined together at the first at least one longitudinal sidewall seam.
9 . The device of claim 8 , wherein the first and second connector receivers each contain a receiver wall located along the first at least one longitudinal sidewall seam, and wherein the receiver walls have a configuration relative to one another that provides structural stability for the device along the first at least one longitudinal sidewall.
10 . The device of claim 1 , wherein each connector receiver further comprises:
a top wall extending away from the device sidewall in a generally perpendicular direction; a first receiver wall positioned laterally inward from the first at least one longitudinal sidewall seam and extending generally perpendicular between the device sidewall and the receiver top wall; and a second receiver wall positioned along the first sidewall seam and extending between the device sidewall and the receiver top wall, the second receiver wall generally conforming to the first at least one longitudinal sidewall seam; wherein the receiver slot is defined between the first and the second receiver walls and extends generally perpendicularly from the first and the second lateral walls.
11 . The device of claim 10 , wherein the second receiver wall of the first connector receiver conforms to the second receiver wall of the second connector receiver.
12 . The device of claim 1 , wherein the connector comprises a configuration that structurally stabilizes the device in the three directional axes when the connector is securing the first connector receiver pair.
13 . The device of claim 1 , wherein the one or more shell sections comprises a single shell section and the at least one longitudinal sidewall seam comprises a single longitudinal sidewall seam removably joining the first and the second longitudinal ends of the shell section such that the first and the second longitudinal ends of the shell section are adjacent to each other.
14 . The device of claim 1 , wherein
the one or more shell sections comprises a first shell section and a second shell section, the at least one longitudinal sidewall seam comprises a first longitudinal sidewall seam and a second longitudinal sidewall seam, the first longitudinal sidewall seam removably joins a first longitudinal edge of the first shell section and a first longitudinal edge of the second shell section such that the first longitudinal edge of the first shell section and the first longitudinal edge of the second shell section are adjacent to each other, and the second longitudinal sidewall seams removably joins a second longitudinal edge of the first shell section and a second longitudinal edge of the second shell section such that the second longitudinal edge of the first shell section and the second longitudinal edge of the second shell section are adjacent to each other.
15 . The device of claim 1 , wherein the first connector receiver and the second connector receiver are integrally connected to the sidewall.
16 . A removable fitted immobilization device for a body portion comprising:
a first shell section and a second shell section, each of the first shell section and the second shell section having a first longitudinal edge and a second longitudinal edge; a sidewall formed by the first shell section and the second shell section, the sidewall being configured for generally conforming to the body portion; a first longitudinal sidewall seam and a second longitudinal sidewall seam; and a first connector receiver pair positioned along one of the first longitudinal sidewall seam and the second longitudinal sidewall seam, the first connector receiver pair comprising:
a first connector receiver positioned on the sidewall and adjacent to the longitudinal sidewall seam, the first connector receiver having a slot defined therein; and
a second connector receiver positioned on the sidewall and adjacent to the longitudinal sidewall seam and positioned opposing the first connector receiver relative to the longitudinal sidewall seam, the second connector receiver having a slot defined therein;
wherein the first longitudinal sidewall seam removably joins the first longitudinal end of the first shell section and the first longitudinal end of the second shell section such that the first longitudinal end of the first shell section and the first longitudinal end of the second shell section are adjacent to each other; and wherein the second longitudinal sidewall seams removably joins the second longitudinal end of the first shell section and the second longitudinal end of the second shell section such that the second longitudinal end of the first shell section and the second longitudinal end of the second shell section are adjacent to each other.
17 . The connector of claim 16 , wherein the sidewall has a plurality of voids defined in the sidewall, and a configuration of the plurality of voids defines a plurality of structural ribs, each structural rib located between two or more voids of the plurality of voids;
and wherein the plurality of voids is arranged in a configuration that provides structural stability for the device.
18 . The connector of claim 17 , wherein when the first connector secures the first and second connector receivers together,
the first longitudinal end of the first shell section and the first longitudinal end of the second shell section are directly contiguous with each other, and the second longitudinal end of the first shell section and the second longitudinal end of the second shell section are directly contiguous with each other.
19 . The process of designing a fitted, removable body part immobilization device, the process comprising:
collecting information about a body portion of a user; and manipulating the collected information to develop a customized immobilization device that includes the following structural properties: removable, lightweight, breathable, waterproof, and structural stability in three different directional axes.
20 . The process of claim 19 , wherein the customized immobilization device is designed to structurally conform to the body portion of the user and be selectively removed and applied to the body portion of the user.Join the waitlist — get patent alerts
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