A link plate stringing machine comprises a frame, a hopper, a feeding tank, a monolith tank, a discharge tank and a pushing device, wherein, the hopper takes the shape of a cylinder, the feeding tank is arranged on the periphery of the hopper and integrated with the cylinder body. The monolith is arranged on a vibrating bracket; an discharge outlet of the hopper is communicated with the feeding tank, a plurality of gradually rising spiral feeding rails are arranged in the feeding tank, and clearance is kept between the feeding rails; the monolith tank is composed of a plurality of monolith rails, a step is respectively formed at inlets of the monolith rails and outlets of the corresponding feeding rails, the monolith rail behind the step takes the shape of a tunnel, and the wall of the monolith rail in the shape of the tunnel is provided with gaps in the axial direction; the monolith rails are respectively provided with a pushing rod hole for accommodating the pushing device, the outlets of the monolith rails are butt-jointed with the inlet of the discharge tank. By adopting the link plate stringing working procedure on the frame, the link plate stringing machine has the advantages of solving the existing defects of loose mechanical structure, bad reliability, slow strip stringing speed, low production efficiency and only being applicable to dry strip stringing work.