This specification relates to the field of mechanical lifting systems and more particularly to a secure loading system for use in a lifting system.
Lifting systems such as wheelchair lifts may include a platform for carrying a load and a hydraulic or other mechanical system for lifting. In some such lifting systems, the load may be susceptible to shifting or other unsecured motion during the lifting process, which may lead to either physical injury or harm to goods.
In one aspect, a secure loading system operates with a wheelchair lift attached to a vehicle, securing the wheelchair to a platform during the lifting motion and retracting the platform into the vehicle once the wheelchair has been lifted, or performing a reverse operation wherein the platform is extended to the lift for lowering the wheelchair. The secure loading system may be an after-market add-on to a lift, or may be integrated into the lift at design time. The system may also be adapted for many other embodiments wherein a secured platform is needed during a lifting motion.
A secure loading system is used to secure a load to a platform during a lifting or lowering motion, and to provide the ability to move the load into a desired position. An embodiment disclosed herein discloses that the load may be a wheelchair, but this is not intended to limit the invention to the specific embodiment described in the figures. A secure loading system may be useful for a variety of different types of lifts and loads. Furthermore, a secure loading system may be provided either as an after-market add-on to an existing lift system, or may be integrated into a lift system.
A secure loading system will now be described with more particular reference to the attached drawings. Hereafter, details are set forth by way of example to facilitate discussion of the disclosed subject matter. It should be apparent to a person of ordinary skill in the field, however, that the disclosed embodiments are exemplary and not exhaustive of all possible embodiments. Throughout this disclosure, a hyphenated form of a reference numeral refers to a specific instance or example of an element and the un-hyphenated form of the reference numeral refers to the element generically or collectively. Thus, for example, 102-1 may refer to a “pen,” which may be an instance or example of the class of “writing implements.” Writing implements may be referred to collectively as “writing implements 102” and any one may be referred to generically as a “writing implement 102.”
Platform 110 may be mechanically coupled to support frame 180 by framework tracks 510 (
Drive shaft 150 is actuated by a linear actuator 152-1 (
Although a linear actuator and drive shaft has been disclosed as an exemplary embodiment, other configurations may achieve the same result. For example, platform 110 may have an internal motor to provide the function of an actuator, in which case the drive mechanism may be provided by wheels and axles. The terms “actuator” and “drive” as used herein are intended to broadly encompass any such system intended to actuate motion in platform 110.
In this view it is more apparent that in some embodiments, platform 110 and mechanical guide 160 may completely disengage from support frame 180 at certain times. In some embodiments, this is necessary because support frame 180 will be attached to a lift platform (not shown). The lift platform may need to move independently of platform 110 and support frame 160. This will allow the mechanical lift platform to freely move up and down through its lifting and lowering motion.
The secure loading system as described structurally above may enable a method of loading a load into a vehicle, which may include the following illustrative steps. First, a load 190 may be secured to a platform 110, which is either attached to or part of a lift. The lift may then be caused to actuate a vertical motion, whereby the platform 110 is brought into a position substantially coplanar with mechanical guide 160, in an extended position. Next, an actuator 152 may be used to actuate horizontal motion in platform 110, whereby platform 110 is moved into a retracted position within the vehicle. Finally, the platform 110 may be secured within the vehicle.
Conversely, a method for unloading a load 190 from a vehicle is also enabled. In this case, platform 110 may be unsecured from the vehicle, and actuator 152 may be used to actuate horizontal motion in platform 110, whereby platform 110 is moved from a retracted position to an extended position that is substantially coplanar with mechanical guide 160. The lift is then used to provide vertical motion, moving load 190 to a plane either above or below mechanical guide 160.
While the subject of this specification has been described in connection with one or more exemplary embodiments, it is not intended to limit the claims to the particular embodiments set forth. On the contrary, the appended claims are intended to cover such alternatives, modifications and equivalents as may be included within their spirit and scope.
This application claims the benefit of U.S. Provisional Application 61/052,472, filed May 12, 2008.
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