CN220717765U - Uniform-speed automatic feeding device for aluminum alloy ingot casting - Google Patents

Abstract

The utility model relates to the field of aluminum alloy ingot casting and discloses a uniform-speed automatic feeding device for aluminum alloy ingot casting. According to the utility model, the motor I and the speed reducer I are adopted to drive the material guide shafts to rotate, the two material guide shafts rotate in opposite directions through the gears, alloy materials are fed into the material conveying pipe at a constant speed in batches through the deflector rod, and then the reamer is used for conveying the materials, so that the phenomenon that the devices are blocked due to material accumulation is avoided, and the normal operation of the devices is ensured while the material conveying speed is maintained.

Description

Uniform-speed automatic feeding device for aluminum alloy ingot casting

Technical Field

The utility model relates to an aluminum alloy ingot casting field specifically is an aluminum alloy ingot casting is with at uniform velocity automatic feeding device.

Background

The aluminum alloy ingot is prepared by taking pure aluminum and recovered aluminum as raw materials and adding other elements according to international standards or special requirements, so that the defects of castability, chemical property and physical property of the pure aluminum are overcome, and the conventional automatic feeding device cannot uniformly discharge during conveying due to material accumulation, thereby influencing the product quality.

Practical content

In order to overcome the defects, the utility model provides a uniform-speed automatic feeding device for casting an aluminum alloy ingot.

The utility model adopts the technical scheme that:

the utility model provides an at uniform velocity automatic feeding device for aluminum alloy ingot casting, which comprises a fixed frame, fixed frame's top fixedly connected with goes into the hopper, go into hopper and fixed frame top intercommunication, fixed frame's bottom fixedly connected with transversely extending's conveying pipeline, fixed frame bottom and conveying pipeline left end intercommunication, the right-hand member bottom fixedly connected with discharging pipe of conveying pipeline, fixed frame is the solid square, fixed frame upper and lower opening, it is connected with two guide shafts to rotate between fixed frame's the front and back inner wall, the guide shaft runs through fixed frame's front and back inner wall and rotates with fixed frame to be connected, the outer wall fixedly connected with a plurality of driving levers of crisscross distribution of guide shaft, fixed frame's preceding lateral wall fixedly connected with speed reducer one and motor one, the output shaft of motor one and the input shaft fixedly connected with speed reducer one, the output shaft of speed reducer one and the front end fixedly connected with of one of them, the rear end of two guide shafts all fixedly connected with gears, two gears mesh, the gear is located the fixed frame rear side wall outside, rotate between the left and right ends of conveying pipeline and be connected with the reamer, the reamer is located inside the conveying pipeline, left end outer wall fixedly connected with the output shaft of motor two speed reducer two, two fixed output shaft and two speed reducer one speed reducer.

The utility model has the beneficial effects that:

the two guide shafts rotate in opposite directions by utilizing gears, alloy materials are fed into the conveying pipe at a constant speed in batches through the deflector rod, and materials are conveyed by utilizing the reamer, so that uneven falling of the materials caused by accumulation of the materials is avoided, and the conveying speed is maintained while the normal operation of the device is ensured.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic view of another view of a portion of the structure of the present utility model;

FIG. 3 is a schematic view of the reamer of the present utility model;

fig. 4 is a schematic view of the structure of the guide shaft of the present utility model.

The reference numerals in all figures are specifically: 1. a fixed frame; 2. feeding into a hopper; 3. a material conveying pipe; 4. a discharge pipe; 5. a material guiding shaft; 6. a deflector rod; 7. a first speed reducer; 8. a first motor; 9. a gear; 10. a second speed reducer; 11. a second motor; 12. reamer.

Detailed Description

As shown in fig. 1-4: the top fixedly connected with of fixed frame 1 goes into hopper 2, go into hopper 2 and fixed frame 1 top intercommunication, fixed frame 1's bottom fixedly connected with transversely extending's conveying pipeline 3, fixed frame 1 bottom and conveying pipeline 3 left end intercommunication, conveying pipeline 3's right-hand member bottom fixedly connected with discharging pipe 4, fixed frame 1 is the solid square, fixed frame 1 upper and lower opening, rotate between fixed frame 1's the front and back inner wall and be connected with two guide shafts 5, guide shaft 5 runs through fixed frame 1's front and back inner wall and with fixed frame 1 rotation connection, the outer wall fixedly connected with of two guide shafts 5 a plurality of driving levers 6 of crisscross distribution, fixed frame 1's front side wall fixedly connected with speed reducer one 7 and motor one 8, the output shaft of motor one 8 and the input shaft fixedly connected with of speed reducer one 7, the output shaft of speed reducer one 7 and the front end fixedly connected with one of them guide shaft 5, the rear end of two guide shafts 5 all fixedly connected with gear 9, two gear 9 mesh, gear 9 is located fixed frame 1 rear side wall outside, the reamer 3's left and right sides end fixedly connected with a plurality of motor 12, the output shaft 12 fixedly connected with two speed reducer two output shafts 11 and two input shaft 10 of speed reducer one end of speed reducer 1, the inside the speed reducer one of two output shaft 10 are connected with two speed reducer 10, the output shaft of speed reducer one end is fixedly connected with two output shaft 11 of speed reducer one of speed reducer 3.

The alloy material is put into the feeding hopper 2, the motor I8 and the motor II 11 are started, the motor I8 drives one of the material guide shafts 5 to rotate through the speed reducer I7, the two material guide shafts 5 rotate in opposite directions under the action of the two gears 9, the driving lever 6 drives the alloy material into the material conveying pipe 3 at a constant speed in sequence, and the motor II 11 drives the reamer 12 to rotate through the speed reducer II 10 to push the alloy material into the material conveying pipe 3 in a rotating manner until the alloy material is discharged from the material discharging pipe 4.

According to the utility model, the first motor 8 and the first speed reducer 7 are adopted to drive the material guide shafts 5 to rotate, the two material guide shafts 5 rotate in opposite directions through the gears 9, alloy materials are fed into the material conveying pipe 3 at a constant speed in batches through the deflector rod 6, and then the reamer 12 is used for conveying the materials, so that uneven falling of the materials caused by material accumulation is avoided, and the material conveying speed is maintained while the normal operation of the equipment is ensured.

Claims (1)

1. The utility model provides an at uniform velocity automatic feeding device for aluminum alloy ingot casting, a serial communication port, including fixed frame (1), fixed frame (1) top fixedly connected with goes into hopper (2), go into hopper (2) and fixed frame (1) top intercommunication, fixed frame (1) bottom fixedly connected with conveying pipeline (3) of transversely extending, fixed frame (1) bottom and conveying pipeline (3) left end intercommunication, conveying pipeline (3) right-hand member bottom fixedly connected with discharging pipe (4), fixed frame (1) are three-dimensional square, fixed frame (1) upper and lower opening, fixed frame (1) front and back inner wall between rotate and be connected with two guide shafts (5), guide shaft (5) run through fixed frame (1) front and back inner wall and with fixed frame (1) rotation connection, fixed frame (1) front and back lateral wall fixedly connected with a plurality of guide shafts (5) a plurality of crisscross conveying pipeline (6), fixed frame (1) front lateral wall fixedly connected with speed reducer one (7) and motor one (8), the output shaft of motor one (8) and the fixed gear (7) of speed reducer one (7) are connected with two guide shafts (9) of which are connected with the front and back gear (9) of them, two guide shafts (9) are fixed and are connected with one another, the gear (9) is located the outside of the rear side wall of the fixed frame (1), the reamer (12) is rotationally connected between the left end and the right end of the conveying pipe (3), the reamer (12) is located inside the conveying pipe (3), the outer wall of the left end of the conveying pipe (3) is fixedly connected with a second speed reducer (10) and a second motor (11), an output shaft of the second motor (11) is fixedly connected with an input shaft of the second speed reducer (10), and an output shaft of the second speed reducer (10) is fixedly connected with the left end of the reamer (12).