Vibration reducing handle for early entry concrete saws

The invention chimed is: 1. A vibration suppressing handle arm for an early entry concrete saw, the handle arm comprising: a first elongated part comprising a slot; a second elongated part; a joint, the first elongated part being pivotally secured to the second elongated part by the joint, wherein a lengthwise direction of the first elongated part aligns with a lengthwise direction of the second elongated part to align with a lengthwise direction of the handle arm when the handle arm is in an unfolded position, a resilient element comprising first and second opposing jaws configured to clamp onto the handle arm, the resilient element being slideable between a first position and a second position; and a pin coupled to the resilient element such that the pin slides with the resilient element, the pin being configured to extend into the slot and slide within the slot when the resilient element is released from clamping onto the handle arm, wherein the resilient element is configured to be positioned, with the pin in the slot, in the first position where the first and second opposing jaws clamp over the joint and onto the first elongated part and the second elongated part to maintain the handle arm in the unfolded position and resist, but not prevent, all pivoting about the joint due to forces directed transversal to the lengthwise direction of the handle arm; wherein, by resisting but not preventing all pivoting between the first elongated part and the second elongated part, the resilient element reduces a transmission of vibrations between first elongated part and the second elongated part when clamped on the handle arm in the first position; and wherein the resilient element is configured to be positioned, with the pin in the slot, in the second position where the first and second opposing jaws engage over the first elongated part but not the second elongated part such that the resilient element does not inhibit the first elongated part from being folded, via the joint, relative to the second elongated part. 2. The handle arm according to claim 1 , wherein the first and second elongated parts are at least partly overlapping in the lengthwise direction of the handle arm when the handle arm is in the unfolded position. 3. The handle arm according to claim 1 , wherein the joint comprises a shaft arranged in a through-hole extending through end portions of the first and second elongated parts. 4. The handle arm according to claim 1 , wherein the joint is located in a middle section of the handle arm, the middle section extending up to one third of the total handle length and centered on the handle arm in the lengthwise direction of the handle. 5. The handle arm according to claim 1 , wherein the first elongated part comprises a heel arranged to abut against an abutment surface of the second elongated part, whereby the heel and abutment surface provides an end-point of the pivoting as the handle is pressed downwards towards a ground surface. 6. The handle arm according to claim 5 , wherein the heel and the abutment surface are arranged at an angle with respect to each other, whereby a space is formed between the heel and the abutment surface when the handle is resting in the unfolded position. 7. The handle arm according to claim 1 , wherein at least one of the opposing jaws comprises a resilient layer arranged to face a surface of the handle arm. 8. The handle arm according to claim 1 , wherein the resilient element is arranged to be released by a knob or wingnut; and wherein the pin comprises a threaded member that extends through the first and second opposing jaws and through the slot. 9. The handle arm according to claim 1 , wherein the slot extends in the lengthwise direction of the first elongated part. 10. The handle arm according to claim 1 , wherein, in the first position, the first opposing jaw contacts the first and second elongated parts in a common plane. 11. The handle arm according to claim 1 , wherein the first elongated part remains indirectly coupled to the slot via the pin. 12. A method of modifying a handle arm for an early entry concrete saw, the handle arm comprising a first elongated part, a second elongated part, a resilient element, a pin, and a joint that pivotally secures the first elongated part to the second elongated part, wherein a lengthwise direction of the first elongated part aligns with a lengthwise direction of the second elongated part and a lengthwise direction of the handle arm when the handle arm is in an unfolded position, the method comprising: machining a slot in the first elongated part; arranging the pin to be coupled to the resilient element such that the pin slides within the slot while the resilient element slides between a first position and a second position, the resilient element comprising first and second opposing jaws to clamp against opposite sides of the handle arm, wherein at least one of the first and second opposing jaws comprises a resilient layer arranged to face a surface of the handle arm; sliding the resilient element, with the pin in the slot, into the first position to clamp the first and second opposing jaws over the joint with the resilient layer engaged with the first elongated part and the second elongated part to thereby maintain the handle arm in the unfolded position and resist, but not prevent, all pivoting about the joint due to an exertion of forces directed transversal to the lengthwise direction of the handle arm; and sliding the resilient element, with the pin in the slot, in the second position where the first and second opposing jaws engage over the first elongated part but not the second elongated part such that the resilient element does not inhibit the first elongated part from being folded, via the joint, relative to the second elongated part. 13. A handle arm comprising: a first elongated part comprising a slot; a second elongated part; a joint between the first elongated part and the second elongated part; and a resilient element coupled to a pin that extends into the slot, the resilient element being configured to slide, with the pin sliding in the slot, between a first position and a second position, the resilient element comprising first and second opposing jaws configured to clamp against the first elongated part or the second elongated part; wherein the first and second elongated parts are pivotable relative to each other about the joint; wherein the first elongated part has a first lengthwise direction that aligns with a second lengthwise direction of the second part to align the first lengthwise direction and the second lengthwise direction with a handle arm lengthwise direction when the handle arm is in an unfolded position; wherein the resilient element is configured to slide, with the pin in the slot, to a first position where the first and second opposing jaws clamp over the joint and onto the first elongated part and the second elongated part to maintain the handle arm in the unfolded position by resisting, but not preventing, all pivoting of the first elongated part relative to the second elongated part about the joint via forces directed transversal to the handle arm lengthwise direction; wherein the first opposing jaw comprises a resilient layer, the resilient layer being configured to face a surface of the first elongated part and the second elongated part, when the resilient element is in the first position, and deform as the first and second elongated parts pivot relative to each other to resist the forces directed transversal to the handle arm lengthwise direction and reduce transmission of vibrations between the first elongated part and the secon