(NOT APPLICABLE)
The invention relates to work platforms and, more particularly, to a work platform including provisions to enhance protection for an operator from sustained involuntary operation resulting in an impact with an obstruction or structure.
Lift vehicles including aerial work platforms, telehandlers such as rough terrain fork trucks with work platform attachments, and truck mounted aerial lifts are known and typically include an extendible boom, which may be positioned at different angles relative to the ground, and a work platform at an end of the extendible boom. On or adjacent the platform, there is typically provided a control console including various control elements that may be manipulated by the operator to control such functions as boom angle, boom extension, rotation of the boom and/or platform on a vertical axis, and where the lift vehicle is of the self-propelled type, there are also provided engine, steering and braking controls.
A safety hazard can occur in a lift vehicle including a work platform when an operator is positioned between the platform and a structure that may be located overhead or behind the operator, among other places. The platform may be maneuvered into a position where the operator is crushed between that structure and the platform, resulting in serious injury or death.
It would be desirable for a platform to incorporate protective structure to enhance protection of the operator from continued involuntary operation of the machine in proximity to an obstruction or structure. The protecting structure can also serve as a physical barrier to enhance protection for the operator and/or cooperate with the drive/boom functions control system to cease or reverse movement of the platform. If cooperable with the operating components of the machine, it is also desirable to prevent inadvertent tripping of the protective structure.
In an exemplary embodiment, a work platform includes a floor structure having a width dimension and a depth dimension and a safety rail coupled with the floor structure and defining a personnel work area. A control panel area is cooperable with the safety rail and includes a sensor support bar having a top cross bar extending along the width dimension and side bars extending substantially perpendicularly from the top cross bar. The side bars define a width of the control panel area. Each of the side bars includes an upper section extending from the top cross bar inward in the depth dimension to a bent section, and a lower section extending from the bent section outward in the depth dimension to the safety rail.
In one embodiment, a platform switch that is configured to trip upon an application of a predetermined force is attached to the sensor support bar. A switch bar is secured to the control panel area, and the platform switch is attached to the switch bar.
These and other aspects and advantages will be described in detail with reference to the accompanying drawings, in which:
As shown in
An alternative protection envelope is shown in
Although any suitable construction of the platform switch 30 could be used, a cross section of an exemplary switch 30 is shown in
An alternative platform switch assembly 301 is shown in
With reference to
In use, the driving components of the vehicle that are cooperable with the lifting assembly for lifting and lowering the work platform are controlled by an operator input implement on the control panel 14 and by the driving/control system 12 communicating with the driving components and the control panel 14. The control system 12 also receives a signal from the platform switch 30, 302 and controls operation of the driving components based on signals from the operator input implement and the platform switch 30, 302. At a minimum, the control system 12 is programmed to shut down driving components when the platform switch 30, 302 is tripped. Alternatively, the control system 12 may reverse the last operation when the platform switch 30, 302 is tripped.
If function cutout is selected, when the platform switch is tripped, the active function will be stopped immediately, and all non-active functions shall not be activated. If a reversal function is selected, when the platform sensor is tripped during operation, the operation required RPM target is maintained, and the active function only when the trip occurred is reversed until the reversal function is stopped. A ground horn and a platform horn can be activated when the reversal function is active. After the reversal function is completed, engine RPM is set to low, and all functions are disabled until the functions are re-engaged with the foot switch and operator controls. The system may include a platform switch override button that is used to override the function cut out initiated by the platform switch. If the override button is pressed and held, it enables the hydraulic functions if the foot switch and controls are re-engaged sequentially. In this event, function speed is set in creep mode speed automatically. The controller is programmed to avoid the cut out feature being disabled before the platform switch is tripped regardless of whether the override button is pressed or released. This assures that the cut out feature will still be available if the override button is stuck or manipulated into an always-closed position.
The reversal function is implemented for various operating parameters of the machine. For vehicle drive, if drive orientation shows that the boom is between the two rear wheels, reversal is allowed only when the drive backward is active and the platform switch is tripped. If a drive forward request is received when the platform switch is tripped, it is treated as a bump or obstacle in the road and will not trigger the reversal function. If the drive orientation shows that the boom is not in line with the rear wheels, then both drive forward and drive backward may trigger the reversal function. Additional operating parameters that are implemented with the reversal function include main lift, tower lift, main telescope (e.g., telescope out only), and swing.
Reversal function terminates based on the platform switch signal, footswitch signal and time parameters that are set for different functions, respectively. If the platform switch changes from trip status to non-trip status before the maximum reversal time is elapsed, then the reversal function will be stopped; otherwise, the reversal function is active until the maximum reversal time is elapsed.
Disengaging the footswitch also terminates the reversal function at any time.
If an operator is trapped on the platform, ground control can be accessed from the ground via a switch. In the ground control mode, if the platform switch is engaged, boom operation is allowed to operate in creep speed. If the platform switch changes status from engaged to disengaged, then operation is maintained in creep speed unless the ground enable and function control switch is re-engaged.
The sensor support bar 126 is preferably bent from a single piece of material, although multiple pieces can be attached to one another in the arrangement shown. Each of the sidebars 130 may include an upper section extending from the top crossbar inward in a depth dimension (D in
The switch bar 28 and the platform switch 30 may be connected to the sensor support bar 126 at the bent sections of the sidebars 130 as shown. The platform switch is positioned inward in the depth dimension D of the floor structure such that an operator in the control panel area is closer to the platform switch 30 than to the safety rail 122. Preferably, the switch bar and platform switch are under-mounted on the sensor support bar 126 relative to an operator standing on the floor structure 120. That is, as shown in
The protection envelope provided by the described embodiments serves to enhance protection for operators from an obstruction and continued involuntary operation. The protection envelope can include physical/structural protection in the form of protection bars or the like and/or a platform switch that is tripped upon the application of a predetermined force (such as by an operator being driven toward or into the control panel by an obstruction or structure).
While the invention has been described in connection with what is presently considered to be the most practical and preferred embodiments, it is to be understood that the invention is not to be limited to the disclosed embodiments, but on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims.
This application is a continuation-in-part (CIP) of U.S. patent application Ser. No. 13/885,720, filed May 16, 2013, pending, which is the U.S. national phase of PCT International Patent Application No. PCT/US2011/066122, filed Dec. 20, 2011 which designated the U.S. and claims priority to U.S. Provisional Patent Application No. 61/424,888, filed Dec. 20, 2010 and U.S. Provisional Patent Application No. 61/435,558, filed Jan. 24, 2011, the entire contents of each of which are hereby incorporated by reference.
Number | Date | Country | |
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61424888 | Dec 2010 | US | |
61435558 | Jan 2011 | US |
Number | Date | Country | |
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Parent | 13885720 | May 2013 | US |
Child | 14610996 | US |