CN210026430U - Feeding mechanism for pop-top can flatting mill - Google Patents

Abstract

The utility model relates to a zip-top can flattens machine feed mechanism, the fixed seat of pressing that has set up in the frame, set up on pressing the seat and press the chamber, one side setting pressing the chamber is used for placing the work or material rest of zip-top can, the discharge gate department of work or material rest remains ejection of compact station, so that realize zip-top can flattens can be reinforced in succession, waiting ejection of compact station department to set up and dial the frame, dial the frame and be U type structure, dial and can be more stable under drive mechanism's drive treat that the chamber is placed to orderly the dialling into of extruded zip-top can in the work or material rest, set up the gear box in the frame and realize that mechanical motion drives drive mechanism and then drive and dial the frame and realize automatic material of dialling.

Description

Feeding mechanism for pop-top can flatting mill

Technical Field

The utility model relates to a zip-top can flattens machine feed mechanism.

Background

At present, the recovered pop cans are mainly stepped on manually or knocked one by one, more time is needed for workers, the efficiency is lower, if a large-sized edge pressing machine is adopted to crush hundreds of pop cans, the cost is higher, and the operation is difficult, so that a machine capable of quickly flattening the pop cans in a miniaturized mode is needed, the pop cans need to be continuously fed into the machine to be flattened, and therefore a feeding mechanism of the pop cans needs to be designed.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is: the defects of the prior art are overcome, the feeding mechanism for the pop can flattening machine is provided, and the problem that continuous feeding is needed in the pop can flattening machine is solved.

The utility model provides a technical scheme that its technical problem adopted is: a feeding mechanism for a zip-top can flattening machine comprises a rack, wherein a pressing seat is arranged on the rack, a pressing cavity is formed in the pressing seat, a material rack for placing zip-top cans is arranged on one side of the pressing cavity, and a material discharging port of the material rack forms a station to be discharged;

the easy open can automatic feeding device is characterized in that the material waiting and discharging station is provided with a poking frame used for poking an easy open can of the material waiting and discharging station into the pressing cavity, the poking frame is of a U-shaped structure, material racks at two ends of the poking frame are rotatably connected, the poking frame swings left and right on the material racks, and 2 arc plates used for supporting the easy open can are formed in the U-shaped opening of the poking frame.

Further, press to be provided with on the seat and be used for driving and dial the frame and do the drive mechanism of horizontal hunting, drive mechanism includes first transfer line, angular form transfer line and second transfer line, the corner portion of angular form transfer line with press the seat to rotate and be connected, first transfer line one end is connected in the rotation of one end of angular form transfer line, the first transfer line other end with dial frame one side and rotate and be connected, the angular form transfer line other end rotates and connects second transfer line one end.

Further, be provided with the gear box in the frame, be provided with rotatable left vertical axis and right vertical axis in the gear box, the rotary rod is connected to right vertical axis upper end, the connection of rotary rod one end right vertical axis upper end, the second transfer line is connected to the rotary rod other end.

Furthermore, a first cross shaft and a second cross shaft are arranged in the gear box, one end of the first cross shaft is in transmission connection with the motor, the other end of the first cross shaft is connected with a first bevel gear, a second bevel gear is arranged at the lower end of the left vertical shaft, a third bevel gear is arranged at the left end of the second cross shaft, a fourth bevel gear is arranged at the right end of the second cross shaft, a fifth bevel gear is arranged at the lower end of the right vertical shaft, the second bevel gear is respectively meshed with the first bevel gear and the third bevel gear, and the fourth bevel gear is meshed with the fifth bevel gear.

The utility model has the advantages that:

the utility model relates to a feed mechanism for easy open can flatting mill can be through pressing the work or material rest of placing on chamber one side to treat that the orderly work or material rest passageway of putting of extruded easy open can, just so can let in the work or material rest treat that the extrusion easy open can forms the putting of pipelined and place the chamber, form the continuity of feeding.

Then the U-shaped poking frame formed at the position of the material frame to be discharged can poke the pop can to be extruded into the placing cavity and is in transmission connection with a transmission mechanism arranged on the pressing seat, so that the transmission mechanism drives the poking frame to poke the pop can into the placing cavity more stably.

The gear box arranged on the rack can realize the automation of the transmission mechanism, so that the pull rack can automatically pull the pop can to be extruded and the pop can is pulled into the placing cavity.

The synchronous rotation of the 5 bevel gears ensures that the two vertical shafts rotate synchronously, and provides stable power output for the transmission mechanism so as to ensure the continuity of shifting the rack to shift the pop can and improve the efficiency.

Drawings

The present invention will be further explained with reference to the accompanying drawings.

FIG. 1 is a schematic view of a flattening mill mounted on a frame;

FIG. 2 is a schematic view of a feed mechanism for a flatting mill;

FIG. 3 is a schematic illustration of a transmission mechanism;

the automatic material pushing and conveying device comprises a pressing seat 1, a pressing cavity 1A, a pressing cavity 1B, a discharging hole 2, a pressing rod 3, a gear box 31, a right vertical shaft 32, a rotating rod 4, a pushing rod 5, a guide cylinder 6, a rack 7, a material rack 8, a transmission mechanism 81, a stirring rack 82, a first transmission rod 83, an angular transmission rod 84 and a second transmission rod.

Detailed Description

The invention will now be further described with reference to the accompanying drawings. The drawings are simplified schematic diagrams only illustrating the basic structure of the present invention in a schematic manner, and thus show only the components related to the present invention.

As shown in fig. 1 to 3, a feeding mechanism for a pop can flattening machine comprises a frame 6, wherein a pressing seat 1 is arranged on the frame 6, a pressing cavity 1A is formed in the pressing seat 1, a rack 7 for placing pop cans is arranged on one side of the pressing cavity 1A, and a discharging position of the rack 7 forms a station for discharging.

In order to enable the pop cans waiting to be extruded in the material rack 7 to enter the placing cavity in a production line manner, a shifting rack 81 is arranged at a station to be discharged, and the pop cans at the station to be discharged are shifted into the pressure cavity 1A by the shifting rack 81 through rotation; it becomes U type structure to dial frame 81, dials frame 81 both ends work or material rest 7 and rotates the connection, dials frame 81 and does the horizontal hunting on work or material rest 7, dials and forms 2 arcs that are used for holding the easy open can in the frame 81U-shaped mouth, and the effect of arc lies in promoting the stability of easy open can in the U-shaped mouth of dialling frame 81.

In order to mechanically drive the material shifting frame 81, a transmission mechanism 8 for driving the material shifting frame 81 to swing left and right is arranged on the pressing seat 1, the transmission mechanism 8 comprises a first transmission rod 82, an angular transmission rod 83 and a second transmission rod 84, a corner part of the angular transmission rod 83 is rotatably connected with the pressing seat 1, one end of the angular transmission rod 83 is rotatably connected with one end of the first transmission rod 82, the other end of the first transmission rod 82 is rotatably connected with one side of the material shifting frame 81, and the other end of the angular transmission rod 83 is rotatably connected with one end of the second transmission rod 84. In the transmission mechanism 8, the second transmission rod 84 drives the angle-shaped transmission rod 83 to rotate, the angle-shaped transmission rod 83 rotates to drive the first transmission rod 82 to move, and the first transmission rod 82 drives the poking frame 81 to rotate, so that material poking is realized.

In order to enable the transmission mechanism 8 to move automatically and further realize automatic material shifting of the shifting frame 81, a gear box 3 is arranged on the rack 6, a left vertical shaft and a right vertical shaft 31 which can rotate are arranged in the gear box 3, the upper end of the right vertical shaft 31 is connected with a rotating rod 32, one end of the rotating rod 32 is connected with the upper end of the right vertical shaft 31, and the other end of the rotating rod 32 is connected with a second transmission rod 84. The second transmission rod 84 is driven to reciprocate back and forth by the continuous rotation of the right vertical shaft 31.

The left vertical shaft and the right vertical shaft 31 move synchronously in the gear box 3, and the structure of the left vertical shaft and the right vertical shaft is that a first cross shaft and a second cross shaft are arranged in the gear box 3, one end of the first cross shaft is in transmission connection with a motor, the other end of the first cross shaft is connected with a first bevel gear, the lower end of the left vertical shaft is provided with a second bevel gear, the left end of the second cross shaft is provided with a third bevel gear, the right end of the second cross shaft is provided with a fourth bevel gear, the lower end of the right vertical shaft 31 is provided with a fifth bevel gear, the second bevel gear is respectively meshed with the first bevel gear and the third bevel gear. The motor drives the first transverse shaft to rotate, the first transverse shaft drives the second transverse shaft to rotate through the first bevel gear, the second bevel gear and the third bevel gear, and the right end of the second transverse shaft drives the right vertical shaft 31 to rotate through the fourth bevel gear and the fifth bevel gear.

The pop can flatting mill is characterized in that a pressure seat 1 is fixedly arranged on a frame 6, a pressure cavity 1A is arranged on the pressure seat 1, a pressure rod 2 moves back and forth through the pressure cavity 1A, a gear box 3 is arranged on the frame 6 to realize mechanical movement, push rods 4 which are symmetrically arranged are arranged on two sides of the pressure rod 2, the two push rods 4 are connected with rotating rods 32 on two sides of the upper end of the gear box 3, the movement of the two push rods 4 is further reliable, so that the back and forth movement of the pressure rod 2 is more stable, a guide cylinder 5 is also arranged on the gear box 3, the rear end of the pressure rod 2 is inserted into the guide cylinder 5, so that the back and forth movement of the pressure rod 2 is more stable, a discharge hole 1B is also arranged in the pressure cavity 1A, so that the squeezed pop cans can automatically discharge, the manual taking out is avoided, but the work of continuously squeezing the pop cans cannot be carried out, this slows down the efficiency of the operation considerably.

The utility model discloses a so the utility model discloses a zip-top can flattens machine feed mechanism, fixed the pressure seat 1 that has set up on frame 6, set up on the pressure seat 1 and press chamber 1A, one side at pressure chamber 1A sets up the work or material rest 7 that is used for placing the zip-top can, the discharge gate department of work or material rest 7 remains ejection of compact station, so that realize the zip-top can flattens can continuous feed in raw material, waiting ejection of compact station department to set up group frame 81, group frame 81 is U type structure, group frame 81 can be more stable under drive mechanism 8's drive treat the orderly group of income of extruded zip-top can and place the chamber, it realizes that mechanical motion drives drive mechanism 8 and then drives group frame 81 and realize automatic group material to set up gear box 3 in frame 6, and then raises the efficiency.

In light of the foregoing, it will be apparent to those skilled in the art from this disclosure that various changes and modifications can be made without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (4)

1. A feeding mechanism for a pop can flattening machine is characterized by comprising a rack (6), wherein a pressing seat (1) is arranged on the rack (6), a pressing cavity (1A) is formed in the pressing seat (1), a material rack (7) for placing pop cans is arranged on one side of the pressing cavity (1A), and a material outlet of the material rack (7) forms a station to be discharged;

the pop can discharging device is characterized in that the to-be-discharged station is provided with a poking frame (81) used for poking pop cans to be discharged into the pressure cavity (1A), the poking frame (81) is of a U-shaped structure, material racks (7) at two ends of the poking frame (81) are rotatably connected, the poking frame (81) swings left and right on the material racks (7), and 2 arc-shaped plates used for supporting the pop cans are formed in the U-shaped opening of the poking frame (81).

2. The feeding mechanism for the pop can flatting mill according to claim 1, wherein the pressing base (1) is provided with a transmission mechanism (8) for driving the shifting frame (81) to swing left and right, the transmission mechanism (8) comprises a first transmission rod (82), an angular transmission rod (83) and a second transmission rod (84), the corner part of the angular transmission rod (83) is rotatably connected with the pressing base (1), one end of the angular transmission rod (83) is rotatably connected with one end of the first transmission rod (82) (4), the other end of the first transmission rod (82) is rotatably connected with one side of the shifting frame (81), and the other end of the angular transmission rod (83) is rotatably connected with one end of the second transmission rod (84).

3. The feeding mechanism for the pop can flattening machine according to claim 2, characterized in that a gear box (3) is arranged on the machine frame (6), a left vertical shaft and a right vertical shaft (31) which can rotate are arranged in the gear box (3), the upper end of the right vertical shaft (31) is connected with a rotating rod (32), one end of the rotating rod (32) is connected with the upper end of the right vertical shaft (31), and the other end of the rotating rod (32) is connected with a second transmission rod (84).

4. The feeding mechanism for the pop can flatting mill of claim 3, wherein a first cross shaft and a second cross shaft are arranged in the gear box (3), one end of the first cross shaft is in transmission connection with the motor, the other end of the first cross shaft is connected with a first bevel gear, a second bevel gear is arranged at the lower end of the left vertical shaft, a third bevel gear is arranged at the left end of the second cross shaft, a fourth bevel gear is arranged at the right end of the second cross shaft, a fifth bevel gear is arranged at the lower end of the right vertical shaft (31), the second bevel gear is respectively meshed with the first bevel gear and the third bevel gear, and the fourth bevel gear is meshed with the fifth bevel gear.

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