Waste Paper Hydraulic Baling Machine, also known as a hydraulic press or baler

Primarily used for packaging treatment of waste plastics, metals, shavings, straw, and waste paper products, with a wide range of applications and strong practicality.

This machine is divided into 10T, 15T, 20T, 30T, 60T, and 80T models based on different pressure tonnage. It features a four-column single-cylinder structure, which is simple, stable in pressuring, easy to operate, and cost-effective.

Equipped with a four-door structure for easy operation; uses imported hydraulic cylinders for high tonnage pressure and excellent packaging effect, one-time molding without the need for multiple packaging; features a knife switch for immediate start/stop, ensuring safety; customizable to meet specific requirements.

Hydraulic baling machines are suitable for straw, forage, waste paper, cotton, clothing, straw, and plastic baling.

Wool packaging, recyclable waste bundling, also applicable to cotton, wool, waste cardboard boxes, waste cardboard, yarn, tobacco leaves, plastic,

Fabric, woven bags, knitted plush, hemp, burlap, wool slivers, wool balls, silks, hops, waste plastic bags, etc.

Compress and package lightweight, loose materials and other soft goods, resulting in tightly packed, neat, and aesthetically pleasing packages, significantly reducing transportation costs.

Cost is a necessity for cotton-producing regions, textile companies, garment factories, waste recycling stations, and various light industrial enterprises.

Manufacturing Tools.

Our company produces a variety of packaging machines, hydraulic packing machines, straw packing machines, cotton packing machines, straw packing machines, metal packing machines, waste paper packing machines, straw bundling machines, wool packing machines, towel packing machines, and fabric packing machines.

The hydraulic baling machine includes a stand with a base plate and front and rear side panels. The stand is equipped with a jack, which has a piston rod. The right end of the piston rod is connected to a vertical pusher plate, and the right side of the pusher plate is connected to pusher strips. The gaps between adjacent pusher strips serve as rope slots on the plate. The upper right part of the stand features a pressing upper plate, with an inlet opening on the stand above the left side of the pressing upper plate. The right side of the front and rear side panels have fixed connecting strips, and the gaps between adjacent strips serve as rope entry points. The right end of the stand has an outlet, with a hinged door panel at the right end of the stand. The left side of the door panel is connected to door strips, with gaps between adjacent strips as rope slots on the door. The cavity enclosed by the front and rear side panels, pusher plate, and base plate is the feeding cavity. The cavity enclosed by the side strips, pressing upper plate, door panel, and base plate is the extrusion cavity. The door panel and the right end of the stand are fixedly connected with a locking device. The size of the bale can be adjusted within a certain range as needed.