1. Field of the Invention
The subject invention relates to an improved roof rack system for transporting a ladder.
More particularly, the subject invention relates to mechanism associated with a roof rack system which is power operated and adapted to assist loading and unloading a ladder.
2. Description of Related Art Including Information Disclosed Under 37 CFR 1.97 and 1.98
Roof rack systems are well known in the art. They consist of first and second spaced apart supports connected to and extending transversely across the top of a vehicle. Many such systems are used with cars to maintain and transport canoes and kayaks. Other such systems are used on pickups and other vehicles to maintain and transport ladders. Ladders are also most conveniently transported on fire trucks by a roof rack system connected to the top of the fire truck.
A problem is encountered when loading and unloading ladders on the top of a vehicle, particularly a very tall vehicle such as a fire truck, for example. The ladders used by firemen are significantly more heavy than the ladders customarily used by general contractors. In addition, roof racks on the top of a fire truck are located at significantly higher elevation. This combination of weight and height demands that any loading and unloading of ladders onto and from fire trucks be undertaken by a minimum of two individuals. For a single individual to attempt to so load or unload a ladder from atop a fire truck would subject the individual to possible serious injury.
The subject invention is directed to overcome the problem of unloading ladders from elevated roof racks.
In one aspect of the invention, an improved roof rack system for holding an elongated object is provided. The roof rack system has first and second spaced apart supports connected to and extending transversely across the top of a vehicle. An elevating system is connected to the first support and is adapted to controllably rise and lower said support. A restraining system is connected to one of the supports and adapted to controllably restrain movement of an elongated object relative to said supports.
In another aspect of the invention, an improved roof rack system for holding an elongated object is provided in greater detail. The roof rack system has first and second spaced apart supports connected to and extending transversely across the top of a vehicle. A pressurized fluid source is provided. A fluid cylinder is connected at one end to the first support and is connectable on the other end to the vehicle. A controller is connected in fluid communication with the pressurized fluid source and the fluid cylinder. The controller is adapted to control the passage of fluid to and from the fluid cylinder. An electrically driven winch system is connected to the first support and connectable to an elongated object. The winch system is adapted to control movement of the elongated object onto and from said supports.
In yet another aspect of the invention, a method is provided for unloading an elongated object from the top of a vehicle. The roof rack first and second supports with the other apparatus of claim 1 is provided. The elevating system is actuated to raise the first support and associated elongated object. Then restraining system is then actuated allowing the elongated object to move along and outwardly from the vehicle.
In a further aspect of the invention, a method is provided for loading an elongated object onto the top of a vehicle the roof rack first and second supports are provided with the other apparatus of claim 1. The restraining system is connected to the elongated object. Then the restraining system is actuate and pulls the elongated object onto the vehicle in response thereto.
Referring to
Preferably, the first support 14 is adjacent a front of the fire truck 10, but it will not depart from this invention for the first support 14 to be adjacent the rear of the vehicle 10. With the configuration of trucks differing, a ladder may be more easily loaded from the rear, while with another truck, the ladder may be more easily loaded from the front.
An elevating system 18 is connected to the first support 14 and adapted to controllably raise and lower said support 14 relative to the vehicle 10. A restraining system 20 is connected to one of the supports 14 and is adapted to controllably restrain movement of the ladder 12 relative to the supports 14,16 and the vehicle 10.
In the embodiment shown in
In the preferred embodiment, the elevating system 18 is a hydraulic cylinder. Without departing from this invention, the elevating system 18 can be a pneumatic cylinder or, as shown in
As shown in
Referring to
In the operation of the apparatus of this invention, a single individual can load a ladder 12 on and remove a ladder 12 from a tall vehicle 10 such as a fire truck.
An individual can remove a ladder 10, or other elongate apparatus 12, from the top of the vehicle 10 by providing roof rack first and second supports 14,16 with the apparatus of claim 1, energizing the elevating system 18 and raising the first support 14 and associated elongated object 12 in response thereto, and actuating the restraining system 20 and allowing the elongated object 12 to move along and outwardly from the vehicle 10.
An individual can load an elongated object 12 onto the top of a vehicle 10 by providing the roof rack first and second supports 14,16 with the apparatus of claim 1, connecting the restraining system 20 to the elongated object 12;,and actuating the restraining system 20 and pulling the elongated object 12 onto the vehicle 10 in response thereto.
Other aspects, objects, and advantages will become apparent from a study of the drawings, the specification and the appended claims.