A method of making a dust-proof mechanism for a clean and dust-free crane
The utility model relates to a dust-proof mechanism of a clean and dust-free crane.
Background Art: Medical, food, electronics and other industries have high requirements on the cleanliness of the environment, and the cleanliness of the dust-free cranes currently used in this industry still has many deficiencies. , There will still be a certain amount of debris on the main beam and the hoisting trolley. With the vibration generated by the operation of the equipment, the debris will fall into the air; the lifting wire rope has a greater chance of generating debris because it needs to withstand more friction. , and there is no debris treatment method for this position in the existing equipment.
Technical realization elements: The purpose of this utility model is to overcome the above-mentioned deficiencies of the prior art, and to provide a dust-proof mechanism for a clean and dust-free crane.
The technical scheme of the utility model is: a dust-proof mechanism of a clean and dust-free crane, comprising an end beam, a main beam and a hoisting trolley, an isolation layer is arranged below the main beam, and the isolation layer has the same A track groove corresponding to the connecting beam of the hoisting trolley, the connecting beam is inserted into the track groove and its wheels are slidably connected to the main beam, and a dust cover is also provided on the outside of the hoisting trolley, and the One end of the dust cover corresponding to the driving motor of the hoisting trolley also has an air inlet, a filter cover is arranged on the air inlet, and a ring-shaped dust collecting cover is also arranged under the dust cover. The wire rope rises through the chip collecting hood, and the chip collecting hood also has a conical elastic dust removal ring, and the top end of the elastic dust removal ring is closely attached to the lifting wire rope.
Further, the isolation layer is composed of a steel structure skeleton and a partition plate fixed below the steel structure skeleton, and the steel structure skeleton is fixed on both sides of the main beam.
Further, the dust cover and the chip collecting cover are a rigid plastic integral molding structure.
Further, a suction fan is also provided on one side of the dust collecting hood, and a filter bag is connected to the rear end of the suction fan.
The beneficial effects of the utility model are: aiming at the defects of the existing equipment, the utility model is provided with an isolation layer under the main beam, a dust cover is arranged on the outer side of the hoisting trolley, and a filter is arranged on the air inlet of the dust cover The hood can prevent the debris from aging from polluting the indoor environment. At the same time, in view of the problem of hoisting wire rope debris, the utility model is provided with an elastic dust-removing ring and a debris collecting hood to prevent the debris from falling into the room.