CN219295803U - Short angle bead collection device - Google Patents

Abstract

The utility model discloses a short angle bead collecting device, which comprises: the device comprises a finishing machine (10), a first conveying unit (20), an arrangement unit (30), a second conveying unit (40), a first high-frequency vibration module (50), a second high-frequency vibration module (60), two photoelectric sensors (70, 80) and a PLC controller. The utility model can collect short angle bead rapidly and improve collection efficiency.

Description

Short angle bead collection device

Technical Field

The utility model relates to the technical field of paper corner protector manufacturing equipment, in particular to a short corner protector collecting device.

Background

The short corner protector 90 shown in fig. 1 and 2 is formed by cutting a paper corner protector by 30-50mm or less, and because of the short, the short corner protector is irregularly dropped onto a table after cutting, a worker needs to manually pick up the short corner protector and rearrange and bind the short corner protector, and in the process, too much time is occupied during picking up and arranging, taking 50mm as an example, when a speed line is cut to 12 m/min, 240 short corner protectors are dropped every min, so that one person is difficult to finish the workload, three persons are generally required to pick up, arrange, count and wrap one person. Such a workload can be accomplished only in such a cooperation, and thus, the efficiency is low.

Disclosure of Invention

The utility model aims to solve the technical problem of low efficiency of the existing manual collection of the short angle bead, and provides a short angle bead collection device with high collection efficiency.

In order to achieve the above object, a short corner protector collecting device of the present utility model includes:

the finishing machine is provided with a cylinder, a concave notch is arranged at the bottom of the cylinder, a rotary stirring mechanism is arranged in the cylinder, and the rotary stirring mechanism sends out the short angle bead in the cylinder from the concave notch in a correct posture;

the feeding side of the first conveying unit is in butt joint with the concave notch and is used for receiving a short angle bead sent out by the concave notch;

the feeding port of the arrangement unit is in butt joint with the discharging side of the first conveying unit;

the feeding side of the second conveying unit is in butt joint with the discharging port of the arranging unit;

the first high-frequency vibration module is arranged in the arrangement unit and is used for vibrating and arranging the short angle bead entering the arrangement unit;

the second high-frequency vibration module is arranged in the second conveying unit and is used for vibrating and arranging the short angle bead entering the second conveying unit;

two photoelectric sensors vertically arranged above the arrangement unit, wherein the photoelectric sensor positioned above is used for counting and judging the height of the collected short angle bead position in the arrangement unit; the photoelectric sensor positioned below is used for closing the functions of the first high-frequency vibration module and the second high-frequency vibration module;

and the PLC is in signal connection with the two photoelectric sensors and is in control connection with the first high-frequency vibration module and the second high-frequency vibration module.

In a preferred embodiment of the present utility model, the arrangement unit is composed of three movable backup plates, and the first dither module is disposed on a side of the arrangement unit where the movable backup plates are not disposed; the three movable leaning plates can be adjusted according to the size of the short angle bead.

In a preferred embodiment of the utility model, the first conveying unit is arranged obliquely and the second conveying unit is arranged in an arc.

In a preferred embodiment of the present utility model, the first dither module is disposed at a position where the arrangement unit short angle bead just falls, and the second dither module is disposed at a junction of the second conveying unit and the arrangement unit.

In a preferred embodiment of the utility model, the transport speed of the first transport unit is greater than the transport speed of the second transport unit.

In a preferred embodiment of the utility model, the distance between the two photosensors is 10mm-15mm.

Due to the adoption of the technical scheme, the utility model can quickly collect the short angle bead and improve the collection efficiency.

Drawings

Fig. 1 is a schematic view of a short corner protector.

Fig. 2 is a side view of fig. 1.

Fig. 3 is a schematic structural view of the short angle bead collecting device of the present utility model.

Detailed Description

The utility model is further described below with reference to the drawings and detailed description.

Referring to fig. 3, the short angle bead collection device shown in the figure comprises: the finishing machine 10, the first conveying unit 20, the arranging unit 30, the second conveying unit 40, the first dither module 50, the second dither module 60, the two photoelectric sensors 70, 80, and the PLC controller (not shown in the drawing)

The finishing machine 10 is provided with a cylinder 11, a concave notch 12 is arranged at the bottom of the cylinder 11, a rotary stirring mechanism 13 is arranged in the cylinder 11, and the rotary stirring mechanism 13 sends out a short corner protector 90 in the cylinder 11 from the concave notch 12 in a correct posture; the short corner protector 90 is sent out from the notch 12 to slide on the first conveying unit 20 at a predetermined angle, and the first conveying unit 20 conveys to the alignment unit 30 at a speed slightly faster than the linear speed of the rotary stirring mechanism 13.

The first conveying unit 20 is obliquely arranged, the position of the feeding side is higher than that of the discharging side, and the feeding side is in butt joint with the concave notch 12 and is used for bearing a short corner protector 90 sent out by the concave notch 12;

the feed inlet of the arrangement unit 30 is in butt joint with the discharge side of the first conveying unit 20; the quality condition of the material can be observed by a conveying worker, and if the material is damaged, the material can be taken out.

The arrangement unit 30 is composed of three movable backup plates 31, and the first dither module 50 is arranged on the surface of the arrangement unit 30 where the movable backup plates 31 are not arranged; the three movable fence plates 31 are adjustable according to the size of the short corner protector 90.

The first dither module 50 vibrates to arrange the positive electrode by the short corner protector 90 in the arranging unit 30, and then the positive electrode is sent out from the discharge port of the arranging unit 30.

The second conveying units 40 are arranged in an arc shape, and the feeding side of the second conveying units is in butt joint with the discharging holes of the arranging units 30; a second dither module 60 is installed in the second conveying unit 40, and the second dither module 60 functions to convey out the short corner protector 90 entered into the second conveying unit 40.

In order to count the short corner protectors 90 entering the arrangement unit 30 and limit the height of the short corner protectors 90 in the arrangement unit 30, two photoelectric sensors 70 and 80 are vertically arranged above the arrangement unit 30, the photoelectric sensor 70 positioned above is used for counting, and the photoelectric sensor 80 positioned below is used for judging the height of the collected short corner protectors in the arrangement unit 30; the two photoelectric sensors 70, 80 are in signal connection with a PLC controller which is in control connection with the first dither module 50 and the second dither module 60. The two photoelectric sensors 70 and 80 adopt laser photoelectricity, have light-gathering visual detection points, have small range and can be accurately adjusted to the position to be detected. The photoelectric sensor 70 positioned at the high position is used for counting and judging the height of the collected short angle bead position in the arrangement unit; the photoelectric sensor 80 located below is used to turn off the roles of the first dither module 50 and the second dither module 60. The first dither module 50 is disposed at a position just below the short corner protector of the alignment unit 30, and the second dither module 60 is disposed at a junction of the second conveying unit 40 and the alignment unit 30.

The conveying speed of the first conveying unit 20 is greater than that of the second conveying unit 40, and the short corner protector 90 is arranged at the last section of the second conveying unit 40 and conveyed slowly, so that the short corner protector 90 can be conveyed smoothly.

Claims (6)

1. A short angle bead collection device, comprising:

the finishing machine is provided with a cylinder, a concave notch is arranged at the bottom of the cylinder, a rotary stirring mechanism is arranged in the cylinder, and the rotary stirring mechanism sends out the short angle bead in the cylinder from the concave notch in a correct posture;

the feeding side of the first conveying unit is in butt joint with the concave notch and is used for receiving a short angle bead sent out by the concave notch;

the feeding port of the arrangement unit is in butt joint with the discharging side of the first conveying unit;

the feeding side of the second conveying unit is in butt joint with the discharging port of the arranging unit;

the first high-frequency vibration module is arranged in the arrangement unit and is used for vibrating and arranging the short angle bead entering the arrangement unit;

the second high-frequency vibration module is arranged in the second conveying unit and is used for vibrating and arranging the short angle bead entering the second conveying unit;

two photoelectric sensors vertically arranged above the arrangement unit, wherein the photoelectric sensor positioned above is used for counting and judging the height of the collected short angle bead position in the arrangement unit; the photoelectric sensor positioned below is used for closing the functions of the first high-frequency vibration module and the second high-frequency vibration module;

and the PLC is in signal connection with the two photoelectric sensors and is in control connection with the first high-frequency vibration module and the second high-frequency vibration module.

2. The short angle bead collecting device according to claim 1, wherein the arrangement unit is composed of three movable backup plates, and the first high-frequency vibration module is arranged on the side of the arrangement unit where the movable backup plates are not arranged; the three movable leaning plates can be adjusted according to the size of the short angle bead.

3. A short corner protector collecting device as claimed in claim 1, characterized in that the first conveying unit is arranged obliquely and the second conveying unit is arranged in an arc.

4. The short angle bead collecting device according to claim 1, wherein the first dither module is provided at a position where the short angle bead of the arrangement unit just falls, and the second dither module is provided at a junction of the second conveying unit and the arrangement unit.

5. A short angle bead collector as defined in claim 1, wherein the first conveyor unit has a conveyor speed greater than the conveyor speed of the second conveyor unit.

6. A short corner protector collecting device as claimed in claim 1, characterized in that the distance between the two photosensors is 10mm-15mm.

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