Woolen wool washing apparatus for chemical fiber production
Abstract
The invention discloses a wool raw wool washing device for chemical fiber production, which includes a washing machine. The washing machine is provided with a working cavity. A front end wall of the working cavity is provided with a storage cavity with an upward opening. The wool raw wool is installed in the washing machine. Two dispersing mechanisms are symmetrically arranged in the working cavity in the storage cavity, and the dispersing mechanism includes a connecting shaft rotatably connected to the rear wall of the working cavity. A rotating wheel is fixed at the front end of the connecting shaft. The connecting shaft is provided with a collar that can slide back and forth, and the rotating wheel is provided with a slidable dispersing rod. The rotation of the connecting shaft can drive the rotating wheel to rotate, and the device can disperse the raw wool in the lump. After washing into small balls, it has a high washing efficiency, and by dispersing into small balls, it helps to discharge the stones and branches in the wool, and has a good washing effect. The overall mechanical linkage of the device is relatively good, High, more energy efficient.
Claims
exact text as granted — not AI-modified1 . A wool raw wool washing device for chemical fiber production, including a washing machine, characterized in that: a working chamber is provided in the washing machine, and a storage chamber with an upward opening is provided in a front wall of the working chamber, and wool raw wool is installed in the storage chamber; there are two dispersing mechanisms symmetrically arranged in the working cavity left and right. The dispersing mechanism includes a connecting shaft rotatably connected to the rear wall of the working cavity. A rotating wheel is fixed at the front end of the connecting shaft. There is a collar that can slide back and forth. The rotating wheel is provided with a slidable dispersing rod. The rotation of the connecting shaft can drive the rotating wheel to rotate. The dispersing rod can rotate with the rotating wheel to turn the dispersing rod. The wool raw wool in the storage cavity is divided one by one. During the rotation of the dispersing rod, the dispersing rod can be moved in the rotating wheel through the back and forth movement of the collar, thereby separating the separated wool raw wool. Dropped into the cleaning chamber; the washing chamber is provided with a stirring mechanism, and the washing chamber is used for washing raw wool. The stirring mechanism includes a rotatable top shaft, and six stirring rods are evenly fixed on the top shaft. The rotation of the stirring rod can accelerate the washing of wool raw wool; a turning mechanism is provided on the lower side of the stirring mechanism, and the turning mechanism is used for drying and pouring out the raw wool after washing.
2 . The wool raw wool washing device for chemical fiber production according to claim 1 , wherein the turning mechanism comprises a discharge cavity provided in a lower end wall of the washing cavity, and the discharge cavity communicates with external space, An electromagnetic switch is installed in the discharge chamber, a rotary motor is embedded in the left end wall of the cleaning chamber, a right end of the rotary motor is rotatably provided with a rotary shaft having a right end located in the cleaning chamber, and a right end of the rotary shaft is fixedly disposed There is a filter plate, and the right end wall of the cleaning chamber is provided with an exhaust chamber which communicates with the external space.
3 . The wool raw wool washing device for chemical fiber production according to claim 1 , wherein the stirring mechanism further comprises a power motor installed on the rear wall of the working chamber, and the front surface of the power motor rotates A driving shaft is provided, and a driving gear and a rotating plate are fixed on the driving shaft. An arc surface block is fixed on the rear end surface of the rotating plate. A driving bevel gear is fixed on the front surface of the driving shaft. The lower end of the working cavity is provided. A wall is provided with a transmission shaft, an input pulley and a transmission bevel gear are fixed on the transmission shaft, the transmission bevel gear meshes with the driving bevel gear, and an output pulley is fixed on the top shaft. An output pulley is located on the upper side of the stirring rod, and the output pulley and the input pulley are frictionally driven by a belt.
4 . The wool raw wool washing device for chemical fiber production according to claim 1 , wherein the dispersion mechanism further comprises a transmission gear fixedly connected to the connecting shaft, and the transmission gear and the driving gear Engagement, a moving block with openings facing the working cavity is symmetrically provided in the connecting shaft left and right, a moving spring is fixed on the upper end wall of the moving block, and a movement slidingly connected to the moving block is fixed on the lower end of the moving spring. Block, the moving block is fixedly connected to the collar, a connecting cavity is provided in the connecting shaft, a telescopic cavity with an opening facing the driving bevel gear is provided in the rotating wheel, and the telescopic cavity is far from the driving A telescopic spring is fixed on the end wall of the bevel gear. The telescopic spring is fixedly connected to the dispersing rod. The dispersing rod is connected to a moving block near the driving bevel gear through a rope. An intermediate cavity is provided symmetrically, and an upper end wall of the intermediate cavity is provided with an arc-shaped cavity communicating with the storage cavity.
5 . The wool raw wool washing device for chemical fiber production according to claim 4 , wherein the retractable spring is in a compressed state, and the moving spring is in a stretched state.
6 . The wool raw wool washing device for chemical fiber production according to claim 2 , characterized in that there are many meshes in the filter plate.Cited by (0)
No later patents cite this yet.
References (0)
No backward citations on record.