The present device relates to facilitate the transporting of luggage up or down a staircase through the use of an extendable sled-like device.
Traditionally, suitcases and other luggage carriers are designed with wheels at the bottom to permit the luggage to be easily rolled across flat surfaces. Without wheels, an individual would have to carry the luggage which could be tiresome and unwieldy, and could cause unwanted delay while traveling. Instead, wheels allow an individual to easily transport the luggage by smoothly pulling the luggage while walking. However, while traditional wheeled luggage facilitates luggage transport over a flat or planar surface, the design poses a problem when an individual is traveling over vertical surfaces such as stairs or curbs. An individual, in transporting traditional luggage over stairs, must exert energy to pull the piece of luggage vertically up to clear each step or curb. This method can be tiresome when an individual must walk up a flight of stairs or a high curb. Alternatively, an individual can drag the luggage along with him or her while walking up stairs. However, this method allows the piece of luggage to slam into each step, which could result in damage to the stairs, the luggage, or articles carried within the luggage. Also, the impact of the luggage with the stairs is often absorbed through the handle creating odd forces against the hand, which could result in injury to the user.
Some locations such as airports and train or bus stations have escalators, elevators, or ramps that allow travelers to roll their wheeled luggage to a higher location without the need to lift the luggage over stairs or curbs. However, not every staircase or curb has an escalator or ramp close by to facilitate luggage transport, and some public places and residential areas lack any means to facilitate the transport of wheeled luggage over stairs. Additionally, the use of elevator and other means to travel between floors of a building is often inconvenient and can be time consuming to find. What is needed is a device that is a part of, or can be added to, wheeled luggage to facilitate the transport of the wheeled luggage up or down vertical obstacles such as stairs or curbs. Specifically, the extendable sled device can be connected to wheeled luggage and can be easily deployed when a user encounters a vertical obstacle, such as stairs and can be stowed against, or within, the luggage when it is not needed.
It is an aspect of the present invention to provide an extendable sled device that can be connected or integrated to wheeled luggage, can be easily deployed when a user encounters a vertical obstacle, and can be stowed within or against the luggage when not needed.
The above aspects can also be obtained by a method using the extendable sled device above. These together with other aspects and advantages which will be subsequently apparent, reside in the details of construction and operation as more fully hereinafter described and claimed, reference being had to the accompanying drawings forming a part hereof, wherein like numerals refer to like parts throughout.
Further features and advantages of the present device, as well as the structure and operation of various embodiments of the present device, will become apparent and more readily appreciated from the following description of the preferred embodiments, taken in conjunction with the accompanying drawings of which:
This description of the exemplary embodiments is intended to be read in connection with the accompanying drawings, which are to be considered part of the entire written description. In the description, relative terms such as “lower,” “upper,” “horizontal,” “vertical,”, “above,” “below,” “up,” “down,” “top” and “bottom” as well as derivative thereof (e.g., “horizontally,” “downwardly,” “upwardly,” etc.) should be construed to refer to the orientation as then described or as shown in the drawing under discussion. These relative terms are for convenience of description and do not require that the apparatus be constructed or operated in a particular orientation. Terms concerning attachments, coupling and the like, such as “connected” and “interconnected,” refer to a relationship wherein structures are secured or attached to one another either directly or indirectly through intervening structures, as well as both movable or rigid attachments or relationships, unless expressly described otherwise.
The present extendable sled device can be designed to be integrated with a piece of luggage to facilitate the transport of the luggage up and down flights of stairs. The extendable sled device can also be attached to a standard piece of luggage. The sled can be S-curved, C-curved, straight, J-curved, or have any other shape suitable for this purpose.
The sled device can be connected to the luggage or similar object using a hinged attachment. It is contemplated that any number of mechanisms can be used to rotate and lock the sled at various angles relative to the luggage or other object to which the sled device can be attached. While a specific mechanism is described below, which can be employed to control the movement of the sled device, this mechanism is provided as an example of a mechanism which may be used for this purpose. It is a part of the present disclosure that several other mechanisms can be used which can: (1) lock the sled device in a substantially upright “stored” position; (2) hold the sled device away, at a chosen angle, from the luggage or similar object in a “deployed” position, wherein the sled device remains locked in the deployed position while subjected to a horizontal force, such as that created by the downward force of luggage against one or more stairs; and (3) the ability to move the sled device back and forth between the stored and deployed positions. Furthermore, the ability to adjust the chosen angle should be part of this mechanism. Additionally, it is contemplated that the movement of the sled device can be controlled by the user's foot in some embodiments.
According to an embodiment, the sled can be extended by the use of a foot pedal, which can be connected to a movable gear mechanism attached to the sled through a connecting rod, all of which can be contained in the mechanism housing integrated inside of the luggage. The foot pedal can move along a cut-out track in the mechanism housing that can constrain the movement of the pedal, connecting rod, and movable gear mechanism to facilitate use.
According to an embodiment, the present extendable sled device can work as follows: the user can pivot the foot pedal away from the luggage such that it can stick straight out. Using a foot, the user can depress the foot pedal in the direction of the ground. The foot pedal, attached to the connecting rod constrained by a latch hook, rests atop a tine of a Y-component, whose base is connected to a locking spring connected to the mechanism housing. As the Y-component is depressed, the locking spring can contract and lock into position, effectively keeping the Y-component in a lower position. The other tine of the Y-component can be connected to a latch base, where the latch base can also be connected to a latching spring. With the Y-component in the lower position, the latching spring can exert a force against the latch base which is connected to the latch hook at a locking pivot point. The force exerted against the latch base can pivot and release the latch hook, thereby freeing the connecting rod (and foot pedal) to freely move along the cut-out track, which in turn allows the extendable sled its full range of motion.
To return the device to its locked position, the user can once again press the foot pedal towards the ground. This can allow the connecting rod to press against the rod tine of the Y-component, pushing the Y-component against the locking mechanism housing. This can release the locking spring, which can exert a force against the Y-component, lifting it back into its original position. The force of the latch base tine against the latch base can push the latching spring back into retracted position, and the latch base, acting on the latch pivot, can lower the latch hook over the connecting rod such that it is once again locked into position, preventing movement of the device.
The extendable sled, when released, can pivot on a sled pivot point until the sled encounters a set of stairs. As the sled hits the stairs, the force of the stairs pushing back against the sled can push the gear mechanism against the gear teeth located on the mechanism housing, which can lock the sled into a fixed angle. The pushing can occur because the sled pivot point can be oblong in shape, affording the gear mechanism a slight range of motion such that it can engage and disengage from the gear teeth on the mechanism housing. The sled's range of rotation can be constrained by a peg inserted into a hole located along the cut-out track in the mechanism housing, such that the foot pedal's motion can be arrested when it hits the peg.
The extendable sled can also contain one or more stopper mechanisms, designed to arrest the luggage on a set of stairs if the user accidentally releases the luggage while climbing the stairs. The stopper mechanisms can have a swinging tab that can be attached to the stopper body by a tab pivot. When not in use, the swinging tabs can be locked inside the stopper body through the use of a stopper plate, which can attach atop the stopper body over the swinging tab. When in the locked position, the stopper plate can cover a portion of the swinging tab such that it cannot swing. When rotated to the open position, the stopper plate can contain an opening of sufficient length to allow the swinging tab to swing freely along the tab pivot. To prevent over-rotation of the stopper plate, the stopper plate can have a plate insert that can contact and be arrested by a body insert located on the stopper body. The stopper mechanisms can be inset to the extendable sled such that the stopper plate is flush with the face of the extendable sled.
The extendable sled 101 and mechanism housing 105 can be made from high-impact plastics, metal, wood, or other materials with light weight and high strength. The extendable sled 101 can contain one or more stopper mechanisms 103 that can be used to arrest the luggage 100 on a flight of stairs (not shown) if a user (not shown) releases the luggage 100 during transport up the flight of stairs. In an embodiment, the extendable sled 101 can be a C-curve shape.
The extendable sled can also contain one or more stopper mechanisms 103, designed to arrest the luggage 100 on a set of stairs 900 if the user (not shown) accidentally releases the luggage 100 while climbing the stairs 900. The tabs 1101, extending downwards from the stopper mechanisms 103, can be designed to only hinge in a single direction, and can be limited to hinge only to a predetermined angle. Once at that angle, the tabs 1101 will cease to hinge. If the tabs 1101 are contacting the stairs 900, and are completely hinged, the static friction created by the combined force of the tabs 1101 upon the stairs 900 can be sufficient to hold the luggage 100 in place, and prevent the luggage 100 from sliding back down the stairs 900 if a user loses control. However, as the user exerts an upwardly diagonal force on the luggage 100 as it is being slid up the stairs 900, the tabs 1101 can hinge freely, allowing the user to continue their upward journey.
To return the device to its locked position, the user can once again press the foot pedal towards the ground. This can allow the connecting rod 701 to press against the rod tine 1506 of the Y-component 1500, pushing the base 1508 of the Y-component 1500 against the locking mechanism housing 1504. This can release the locking spring 1503, which can exert a force against the Y-component 1500, lifting it back into its original position. The force of the lifted latch base tine 1507 against the latch base 1502 can push the latching spring 1501 back into retracted position, and the latch base 1502, acting on the latch pivot 1505, can lower the latch hook 1001 over the connecting rod 701 such that it is once again locked into position, preventing movement of the entire device.
Although the present device has been described in terms of exemplary embodiments, it is not limited thereto. Rather, the appended claims should be construed broadly, to include other variants and embodiments of the present device, which may be made by those skilled in the art without departing from the scope and range of equivalents of the present device.
This application claims benefit to provisional patent application No. 61/908,045 filed Nov. 23, 2013, which is incorporated by reference herein in its entirety.
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