Abstract: A ball rebounder has inelastic netting that is pulled taught and held in place within a frame using tension rods, inelastic fasteners, and a tensioning mechanism between the frame and the tension rods. The tension rods are connected to the cells of the netting and positioned in the interior space. The tensioning mechanism pulls the tension rods toward the corresponding sides of the frame, drawing the net taught within the frame. With the netting pulled taught, the fasteners hold the tension rods in place next to the sides of the frame. The frame can be rigid or may have flexibility and act like a spring, but there are no intermediate springs between the tension rods and the frame or between the tension rod and the netting. The invention can be used in producing new rebounders and in retrofitting existing rebounder frames.
Abstract: A ball rebounder has inelastic netting that is pulled taught and held in place within a frame using tension rods, inelastic fasteners, and a tensioning mechanism between the frame and the tension rods. The tension rods are connected to the cells of the netting and positioned in the interior space. The tensioning mechanism pulls the tension rods toward the corresponding sides of the frame, drawing the net taught within the frame. With the netting pulled taught, the fasteners hold the tension rods in place next to the sides of the frame. The frame can be rigid or may have flexibility and act like a spring, but there are no intermediate springs between the tension rods and the frame or between the tension rod and the netting. The invention can be used in producing new rebounders and in retrofitting existing rebounder frames.
Abstract: A ball rebounding device has high tension netting that is efficiently assembled, pulled taught and held in place within a frame using a tension rod system and a manufacturing process that uses levers between the frame and tension rods within the frame. The invention can be used in producing new ball rebounder and in retrofitting existing rebounder frames. The frame provides a perimeter support and an interior space. Tension rods are run through the cells of the netting and positioned in the interior space. A lever system is connected between the tension rods and the frame to pull the tension rods toward the corresponding sides of the frame, thereby drawing the net taught within the frame. Once the netting is pulled taught, fasteners hold the tension rods in place next to the sides of the frame. The frame can be rigid or may have flexibility and act like a spring.