Dynamic tensioner locking device for a track system and method thereof

The invention claimed is: 1. A tensioning system for an endless track system, the endless track system having a frame, an idler wheel assembly and an endless track extending around the frame and the idler wheel assembly, the idler wheel assembly being movable with respect to the frame for tensioning the endless track, the tensioning system comprising: a tensioner operatively connectable between the frame and the idler wheel assembly of the endless track system for controlling relative movement between the frame and the idler wheel assembly and for applying tension to the endless track, the tensioner including: a cylinder; and a piston that is reciprocally movable within the cylinder between an extended position and a retracted position, the piston sealingly engaging the cylinder for forming a variable volume chamber containing a liquid, the piston being movable between the extended position and the retracted position in a plurality of intermediate positions by changing a volume of the liquid; a reservoir fluidly connected to the chamber of the cylinder, the reservoir simultaneously containing the liquid or a portion thereof and a gas, the gas in the reservoir being under pressure and applying hydrostatic pressure to the liquid tending towards an increase in the volume of liquid within the chamber of the cylinder, biasing the piston towards the extended position, biasing the idler wheel assembly against the endless track; a conduit fluidly connecting the cylinder to the reservoir allowing the liquid to flow between the chamber of the cylinder and the reservoir to change the volume of liquid within the chamber of the cylinder to move the piston within the chamber of the cylinder; and a valve disposed along the conduit for controlling liquid flow through the conduit, the valve being movable between: an open position in which the liquid is allowed to flow between the chamber of the cylinder and the reservoir, rendering the piston movable within the chamber and allowing for relative movement between the frame and the idler wheel assembly; a closed position in which the liquid is prevented from flowing between the chamber of the cylinder and the reservoir, rendering the piston immovable within the chamber and preventing relative movement between the frame and the idler wheel assembly; and a plurality of intermediate positions between the open and closed positions, the plurality of intermediate positions providing a plurality of liquid flow rates within the conduit, thereby rendering the piston movable within the chamber of the cylinder at a plurality of speeds. 2. The tensioning system of claim 1 , wherein the valve is a solenoid valve movable between the open position, the plurality of intermediate positions, and the closed position upon reception of an electronic signal. 3. The tensioning system of claim 1 , further comprising an accelerometer triggering an electronic signal in response to an acceleration of the endless track system in a predetermined direction exceeding a predetermined acceleration threshold, and wherein the valve is a solenoid valve movable between the open position, the plurality of intermediate positions, and the closed position upon reception of the electronic signal from the accelerometer. 4. The tensioning system of claim 1 , further comprising a user-controllable switch for selectively triggering an electronic signal, and wherein the valve is a solenoid valve movable between the open and closed positions upon reception of the electronic signal from the switch. 5. The tensioning system of claim 1 , wherein at least one of the reservoir, the chamber of the cylinder and the conduit further comprises a relief valve for releasing an amount of gas or liquid from the at least one of the reservoir, the chamber of the cylinder and the conduit when a predetermined pressure threshold is exceeded. 6. A method for controlling a tension in an endless track disposed around a plurality of wheels pivotally mounted on a support frame of a track system, the track system being operatively mounted to a vehicle, at least one of the plurality of wheels being operatively mounted to a dynamic tensioner, the dynamic tensioner comprising a fluid-based suspension element, the fluid-based suspension element being operatively mounted between the support frame and the at least one of the plurality of wheels so as to displace the at least one of the plurality of wheels relative to the support frame in order to control the tension in the endless track, the fluid-based suspension element comprising: a cylinder; a piston that is reciprocally movable within the cylinder between an extended position and a retracted position, the piston sealingly engaging the cylinder for forming a variable volume chamber containing a liquid, the piston being movable between the extended position and the retracted position in a plurality of intermediate positions by changing a volume of the liquid contained within the chamber of the cylinder; a reservoir fluidly connected to the chamber of the cylinder, the reservoir simultaneously containing the liquid or a portion thereof and a gas, the gas in the reservoir being under pressure and applying hydrostatic pressure to the liquid tending towards an increase in the volume of liquid within the chamber of the cylinder, biasing the piston towards the extended position; a conduit fluidly connecting the cylinder to the reservoir such that the liquid is displaceable between the chamber of the cylinder and the reservoir; a solenoid valve disposed in the conduit for controlling a flow of liquid in the conduit, the solenoid valve being movable between an open position, a plurality of intermediate positions, and a closed position; and a switch operatively connected to the solenoid valve, the switch being configured for moving the solenoid valve between the open position, the plurality of intermediate positions and the closed position when an acceleration of the track system reaches a predetermined value; the method comprising: determining the acceleration of the track system; when the acceleration of the track system reaches the predetermined value, moving the solenoid valve in the closed position for substantially maintaining a length of the dynamic tensioner; and when the acceleration of the track system is below the predetermined value, moving the solenoid valve in the open position or in one of the plurality of intermediate positions for allowing variation of the length of the dynamic tensioner. 7. The method of claim 6 , wherein the method further comprises manually engaging the switch to move the solenoid valve between the open position, the plurality of intermediate positions, and the closed position. 8. A method for controlling a tension in an endless track disposed around a plurality of wheels pivotally mounted on a support frame of a track system, the track system being operatively mounted to a vehicle, at least one of the plurality of wheels being operatively mounted to a dynamic tensioner, the dynamic tensioner including a fluid-based suspension element, the fluid-based suspension element being operatively mounted between the support frame and the at least one of the plurality of wheels so as to displace the at least one of the plurality of wheels relative to the support frame in order to control the tension in the endless track, the fluid-based suspension element including: a cylinder; a piston that is reciprocally movable within the cylinder between an extended position and a retracted position, the piston sealingly engaging the cylinder for forming a variable volume chamber containing a liquid, the piston being movable between the extended position and the retracted position in a plurality of intermediate positions by changing a v