As we all know,
apron feeder is generally divided into heavy, medium and light three kinds, is commonly used in concentrator feeding equipment, widely used from storage bin to crushing, transportation and other machinery for uniform continuous feeding. apron feeder includes auxiliary hopper, observation window, main hopper and feeding mechanism, feeding mechanism includes chain plate, hydraulic powertrain, drive shaft, drive gear, support wheel, chain, driven shaft and driven wheel, drive gear is fixed inserted in the drive shaft, the drive shaft is arranged on one side of the feeding mechanism, and the driven shaft is fixed connected to the other side of the feeding mechanism. The driven wheel is sheathed in the driven shaft, the chain is fixed in the inner wall of the chain plate, the chain plate is sheathed in the drive gear and the driven wheel through the chain, the middle of the drive gear and the driven wheel is provided with a support wheel, the support wheel is rolling connected to the inner wall of the chain plate, the hydraulic power train is connected to the drive shaft, the outside baffle of the feeding mechanism is connected with an observation window, and the main hopper is arranged above the observation window. The main hopper bolt is connected above the outside baffle of the feeding mechanism. Although the output volume is large, the output torque is large, and the conveying efficiency is high, but in the process of conveying the material for a long time, the feeder operation generates a lot of heat, and the continuous conveying of large weight materials causes load to the feeder. The above existing technology is not easy to cool the feeder, which may cause thermal deformation of the feeder and reduce the service life of the feeder. Therefore, an apron feeder cooling structure should be designed.
The technical problems solved are aimed at the shortcomings of the existing technology.
We designed an
apron feeder cooling structure to solve the problem that the prior art proposed in the background technology is not easy to cool the feeder. Provide the following technical solutions: The apron feeder cooling structure comprises the apron feeder body, the apron feeder body is provided with a frame, also comprises a chiller and a cold water tank, the internal frame is connected with a cooling pipe through a plurality of slots, both ends of the cooling pipe and the chiller are connected. The interior of the frame is equipped with a plurality of cooling fans through a rotating rod rotation, and the frame is connected with a driving mechanism for driving the cooling fan rotation, the top of the cold water tank is connected with a water pipe, the cold water tank is connected with a water pump, the water pump is connected with a spray pipe, the spray pipe is connected with a plurality of nozzles, The sprinkler pipe and sprinkler head are located below the apron feeder body, and the apron feeder body is provided with a water absorption component. The driving mechanism comprises a motor, the motor is installed on the frame, the output end of the motor and the corresponding rotating rod are fixed connected, the rotating rod is fixed with a drive gear, the internal frame through the rotating shaft rotation connection has a plurality of driven gear, and the driven gear and the two adjacent driving gear mesh. The water absorption assembly comprises a fixing plate, the top of the fixing plate is connected with a clamping plate through a plurality of clamping springs, the top of the clamping plate is detachable connected with a plurality of water absorption sponges, and the water absorption sponge is in contact with the bottom end of the apron feeder body.
The front end of the absorbent sponge is fixed connected with a mounting plate, the mounting plate is provided with a mounting hole, the mounting hole is provided with an internal mounting bolt, and the pressing plate is provided with a plurality of mounting screw holes matching the mounting bolt. As a further design solution, a plurality of telescopic rods are connected between the fixing plate and the clamping plate. The top thread of the water pipe is connected with a stop cover. An observation port is provided on the cold water tank, and an observation window is installed inside the observation port. The cold water tank is equipped with a scale. Compared with the prior art, our apron feeder cooling structure has the following beneficial effects: Cold water is sent to the inside of the cooling tube through the chiller to cool the cooling tube, thus cooling the internal air of the frame. Multiple cooling fans are driven by the driving mechanism to rotate, and the cooling fans blow cold air to the apron feeder body to cool it. The cold water in the cold water tank is drawn out by the pump and sprayed on the bottom of the apron feeder through the nozzle to further cool it. The apron feeder body is dried by the water absorption component to avoid affecting its normal use. Compared with the above prior art, the solution is convenient for cooling the feeder.
This design is critical to the stable operation of
apron feeder. To ensure its large processing capacity, but also a good solution to its heating problem.