CN112777264A

CN112777264A - Automatic feeding and sorting device and method for sliding rails

Info

Publication number: CN112777264A
Application number: CN202011625566.5A
Authority: CN
Inventors: 潘林
Original assignee: Jiangsu Wode Furniture Co ltd
Current assignee: Jiangsu Wode Furniture Co ltd
Priority date: 2020-12-31
Filing date: 2020-12-31
Publication date: 2021-05-11
Anticipated expiration: 2040-12-31
Also published as: CN112777264B

Abstract

The invention provides a sliding rail automatic feeding and sorting device and method, which comprises a storage frame, a magnetic steel lifting and sorting mechanism, a turnover mechanism and a layout and sorting mechanism, wherein the magnetic steel lifting and sorting mechanism is arranged on the storage frame, a material taking end is connected with a material outlet of the storage frame, the turnover mechanism is arranged on the layout and sorting mechanism, and a material discharging end of the magnetic steel lifting and sorting mechanism is connected with the turnover mechanism. The magnetic steel lifting and sequencing mechanism automatically identifies four forms of the U-shaped slide rail, and is provided with the threaded air cylinder and the material pushing air cylinder, so that the current form of the U-shaped slide rail can be changed in real time, the automatic sequencing and conveying of the forms are unified, the whole process does not need manual operation, and the convenience, the rapidness and the high efficiency are realized; one operator can simultaneously have a plurality of devices, and labor cost is greatly reduced.

Description

Automatic feeding and sorting device and method for sliding rails

Technical Field

The invention belongs to the technical field of automatic feeding and sorting of clothes hanger sliding rails, and particularly relates to an automatic feeding and sorting device and method for sliding rails.

Background

The existing automatic feeding and sequencing devices are all products with regular shapes, and the feeding and sequencing of irregular clothes hanger sliding rails are still carried out manually, which wastes time and labor and is low in efficiency.

Disclosure of Invention

The invention provides a sliding rail automatic feeding and sorting device and a method thereof, which are used for solving the technical problems in the background technology.

The technical scheme adopted by the invention for solving the technical problems is as follows:

the utility model provides a slide rail automatic feeding sequencing unit, includes storage frame, magnet steel promotion sequencing mechanism, tilting mechanism and overall arrangement sequencing mechanism, magnet steel promotes sequencing mechanism and sets up on the storage frame, the end of getting material is connected with the discharge gate of storage frame, tilting mechanism sets up on the overall arrangement sequencing mechanism, magnet steel promotes the discharge end of sequencing mechanism and connects tilting mechanism.

Further, the storage frame includes the frame, install out the workbin in the frame, the discharge gate position that goes out workbin (12) is open structure and is provided with striker plate, plectrum fixed plate, plectrum and sensor assembly, the diapire that goes out the workbin sets up for the slope.

Further, the sensor assembly comprises a detection sensor, a material pushing sensor and an incoming material sensor.

Furthermore, the magnetic steel lifting and sequencing mechanism comprises a first stepping motor, a first speed reducer, a sliding rail, a threaded cylinder, a first sensor, a pulling cylinder, a magnetic steel device, a conveying chain and a pushing cylinder, wherein the first speed reducer is arranged on the first stepping motor, a rotating shaft of the first stepping motor is connected with the conveying chain, the magnetic steel device is arranged on the conveying chain, and the upper end of the conveying chain is provided with the threaded cylinder, the first sensor and the pulling cylinder which are used for pushing and pulling the U-shaped sliding rail.

Further, tilting mechanism includes step motor two, reduction gear two, shaft coupling one, bearing, the material of getting, transmission shaft and fixed mounting board, fixed mounting board passes through the bolt fastening and is in on the overall arrangement sequencing mechanism, the transmission shaft is installed fixed mounting board is last, the material of getting is provided with two at least, sets up on the transmission shaft, step motor is last to be provided with the reduction gear, the pivot of step motor (31) is connected shaft coupling, bearing and transmission shaft.

Furthermore, the mounting position of the material taking block is matched with the position of a conveying chain in the magnetic steel lifting and sequencing mechanism.

Further, overall arrangement sequencing mechanism includes servo motor, side shield, reduction gear three, shaft coupling two, conveying chain, slide rail, sensor support, sensor two, slide rail fixing base and support, servo motor and slide rail fixing base are installed on the support, be provided with sensor support, conveying chain and slide rail on the slide rail fixing base, be connected with on the sensor support sensor two, the last reduction gear three that is provided with of servo motor, servo motor's pivot with shaft coupling two is connected, the transmission shaft is connected to shaft coupling two, the conveying chain is connected with the transmission shaft, the slide rail fixing base is close to the servo motor side is provided with the side shield.

An automatic feeding and sorting method for sliding rails comprises the following steps:

placing a certain number of U-shaped slide rails in the material storage frame, starting a magnetic steel lifting and sequencing mechanism, adsorbing the U-shaped slide rails by a magnetic steel device fixed on a conveying chain, taking materials from the U-shaped slide rails when the conveying chain moves, wherein the U-shaped slide rails in a material taking state are in four forms of a, b, c and d, and when the U-shaped slide rails are in an a state, the conveying chain directly conveys the materials; when the detector detects that the U-shaped slide rail is in a b state, the detector controls the threaded air cylinder to act, the threaded air cylinder extends out of the push rod, and the U-shaped slide rail can be changed in shape by the extended air rod when moving on the conveying chain; when the detector detects that the U-shaped slide rail is in a c state, the pushing cylinder pushes out the U-shaped slide rail, and the U-shaped slide rail falls back into the material storage frame again through the plectrum fixing plate; when the detector detects that the U-shaped slide rail is in an e state, the U-shaped slide rail is scraped off by the poking sheet in the moving process of the conveying chain, so that the risk of conveying a plurality of U-shaped guide rails simultaneously is avoided;

step two, after the U-shaped rail is sent to a specified position, a first sensor senses a signal and controls a material pulling cylinder to act, the material pulling cylinder sends the workpiece to the next specified position, and after the workpiece is sent to the next specified position, the first sensor controls a turnover mechanism to act, and the U-shaped sliding rail is moved to a layout sorting mechanism;

and step three, when the U-shaped slide rail is placed on the layout sorting mechanism by the turnover mechanism, the sensor II sends a signal to control the layout sorting mechanism to work, a slide rail fixing seat is installed on a conveying chain of the layout sorting mechanism, and the size of the slide rail fixing seat is matched with that of the U-shaped slide rail, so that the U-shaped slide rail cannot fall off in the conveying process.

Compared with the prior art, the invention has the beneficial effects that:

the magnetic steel lifting and sequencing mechanism automatically identifies four forms of the U-shaped slide rail, and is provided with the threaded air cylinder and the material pushing air cylinder, so that the current form of the U-shaped slide rail can be changed in real time, the automatic sequencing and conveying of the forms are unified, the whole process does not need manual operation, and the convenience, the rapidness and the high efficiency are realized; the magnetic steel lifting and sequencing mechanism is arranged on the storage frame, the material taking end is connected with a material outlet of the storage frame, the magnetic steel lifting and sequencing mechanism is started, the magnetic steel device fixed on the conveying chain adsorbs the U-shaped sliding rail through magnetic force, material taking of the U-shaped sliding rail is realized when the conveying chain moves, the structure is simple, and the operation is convenient; the PLC is adopted for control, the control is simple and reliable, and meanwhile, the stepping motor and the servo motor are adopted as driving devices, so that the conveying speed is high, the positioning progress is accurate, and the feeding efficiency is greatly improved; one person can simultaneously operate a plurality of devices, and labor cost is greatly reduced.

Drawings

FIG. 1 is a general view of a slide rail automatic feeding and sorting device;

FIG. 2 is a schematic view of a magazine;

FIG. 3 is a schematic view of a magnetic steel lifting and sorting mechanism;

FIG. 4 is a schematic view of the turnover mechanism;

FIG. 5 is a schematic view of a layout sequencing mechanism;

FIG. 6 shows four forms of the U-shaped slide rail in the material taking state;

FIG. 7 is a schematic view of a threaded cylinder changing the form of a U-shaped slide rail;

FIG. 8 is a schematic view of the turnover mechanism moving the U-shaped slide rail to the layout sorting mechanism;

FIG. 9 is a schematic view of a slide rail fixing seat;

in the figure, 1, a storage box, 11, a frame, 12, a discharge box, 13, a striker plate, 14, a plectrum fixing plate, 15, a detection sensor, 16, a material pushing sensor, 17 and an incoming material sensor;

2. the device comprises a magnetic steel lifting and sequencing mechanism 21, a first stepping motor 22, a first speed reducer 23, a sliding rail 24, a threaded cylinder 25, a first sensor 26, a material pulling cylinder 27, a magnetic steel device 28, a conveying chain 29 and a material pushing cylinder;

3. the device comprises a turnover mechanism 31, a second stepping motor 32, a second speed reducer 33, a coupler 34, a bearing 35, a material taking block 36, a transmission shaft 37 and a fixed mounting plate;

4. layout sequencing mechanism 41, servo motor 42, side baffle 43, speed reducer three, 44, coupling 45, conveying chain 46, slide rail 47, sensor support 48, sensor two, 49, slide rail fixing seat 50 and rack.

Detailed Description

In order to facilitate an understanding of the invention, the invention will now be described more fully hereinafter with reference to the accompanying drawings, in which several embodiments of the invention are shown, but which may be embodied in different forms and not limited to the embodiments described herein, but which are provided so as to provide a more thorough and complete disclosure of the invention.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may be present, and when an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present, as the terms "vertical", "horizontal", "left", "right" and the like are used herein for descriptive purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs, and the knowledge of the terms used herein in the specification of the present invention is for the purpose of describing particular embodiments and is not intended to limit the present invention, and the term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.

In an embodiment, referring to fig. 1 to 5, an automatic feeding and sorting device for a slide rail includes a storage frame, a magnetic steel lifting and sorting mechanism, a turnover mechanism, and a layout sorting mechanism, wherein the magnetic steel lifting and sorting mechanism is disposed on the storage frame, a material taking end is connected to a material outlet of the storage frame, the turnover mechanism is disposed on the layout sorting mechanism, and a material discharging end of the magnetic steel lifting and sorting mechanism is connected to the turnover mechanism.

It should be noted that the storage frame includes the frame, install out the workbin in the frame, the discharge gate position that goes out the workbin is open structure and is provided with striker plate, plectrum fixed plate, plectrum and sensor assembly, the diapire that goes out the workbin sets up for the slope. The sensor assembly comprises a detection sensor, a material pushing sensor and an incoming material sensor.

The magnetic steel lifting and sequencing mechanism comprises a first stepping motor, a first speed reducer, a sliding rail, a threaded cylinder, a first sensor, a pulling cylinder, a magnetic steel device, a conveying chain and a pushing cylinder, wherein the first speed reducer is arranged on the first stepping motor, a rotating shaft of the first stepping motor is connected with the conveying chain, the magnetic steel device is arranged on the conveying chain, and the upper end of the conveying chain is provided with the threaded cylinder, the first sensor and the pulling cylinder which are used for pushing and pulling the U-shaped sliding rail.

It should be noted that tilting mechanism's effect is exactly to promote the U-shaped slide rail that sorting mechanism promoted with the magnet steel and remove to overall arrangement sorting mechanism on, plays the effect of moving the year, including step motor two, reduction gear two, shaft coupling one, bearing, material fetching block, transmission shaft and fixed mounting board, fixed mounting board passes through the bolt fastening on the overall arrangement sorting mechanism, the transmission shaft is installed on the fixed mounting board, the material fetching block is provided with two at least, sets up on the transmission shaft, be provided with on the step motor the reduction gear, step motor's pivot is connected shaft coupling, bearing and transmission shaft. Preferably, the mounting position of the material taking block is matched with the position of a conveying chain in the magnetic steel lifting and sequencing mechanism.

step one, a certain number of U-shaped slide rails are placed in the material storage frame, a magnetic steel lifting and sequencing mechanism is started, a magnetic steel device fixed on a conveying chain adsorbs the U-shaped slide rails through magnetic force, material taking of the U-shaped slide rails is achieved when the conveying chain moves, the U-shaped slide rails in a material taking state are in four forms of a, b, c and d (as shown in figure 6), and when the U-shaped slide rails are in an a state, the conveying chain is directly conveyed; when the detector detects that the U-shaped slide rail is in a b state, the detector controls the threaded air cylinder to act, the threaded air cylinder extends out of the push rod, and the U-shaped slide rail can be changed in shape by the extended air rod when moving on the conveying chain (as shown in fig. 7); when the detector detects that the U-shaped slide rail is in a c state, the pushing cylinder pushes out the U-shaped slide rail, and the U-shaped slide rail falls back into the material storage frame again through the plectrum fixing plate; when the detector detects that the U-shaped slide rail is in an e state, the U-shaped slide rail is scraped off by the poking sheet in the moving process of the conveying chain, so that the risk of conveying a plurality of U-shaped guide rails simultaneously is avoided;

step two, after the U-shaped rail is sent to a designated position, a first sensor senses a signal and controls a material pulling cylinder to act, the material pulling cylinder sends a workpiece to the next designated position, and after the U-shaped rail is sent to the next designated position, the first sensor controls a turnover mechanism to act, and the U-shaped slide rail is moved to a layout sorting mechanism (as shown in figure 8);

and step three, when the U-shaped slide rail is placed on the layout sorting mechanism by the turnover mechanism, the sensor II sends a signal to control the layout sorting mechanism to work, a slide rail fixing seat is installed on a conveying chain of the layout sorting mechanism, the size of the slide rail fixing seat is matched with that of the U-shaped slide rail as shown in a figure (as shown in figure 9), and the U-shaped slide rail cannot fall off in the conveying process.

The invention is described above with reference to the accompanying drawings, it is obvious that the invention is not limited to the above-described embodiments, and it is within the scope of the invention to adopt such insubstantial modifications of the inventive method concept and solution, or to apply the inventive concept and solution directly to other applications without modification.

Claims

1. The utility model provides a slide rail automatic feeding sequencing unit, its characterized in that, promotes sequencing mechanism (2), tilting mechanism (3) and overall arrangement sequencing mechanism (4) including storage frame (1), magnet steel promote sequencing mechanism (2) and set up on storage frame (1), the material taking end with the discharge gate of storage frame (1) is connected, tilting mechanism (3) set up on overall arrangement sequencing mechanism (4), the discharge end that magnet steel promoted sequencing mechanism (2) is connected tilting mechanism (3).

2. The automatic sliding rail feeding and sequencing device according to claim 1, wherein the storage frame (1) comprises a frame (11), a discharge box (12) is mounted on the frame (11), a discharge hole of the discharge box (12) is of an open structure and is provided with a striker plate (13), a poking piece fixing plate (14), a poking piece (16) and a sensor assembly, and the bottom wall of the discharge box (12) is arranged in an inclined manner.

3. The automatic feeding and sequencing device for the sliding rail as claimed in claim 2, wherein the sensor assembly comprises a detection sensor (15), a material pushing sensor (17) and a material feeding sensor (18).

4. The automatic slide rail feeding and sorting device according to claim 3, wherein the magnetic steel lifting and sorting mechanism (2) comprises a first stepping motor (21), a first speed reducer (22), a slide rail (23), a threaded cylinder (24), a first sensor (25), a pulling cylinder (26), a magnetic steel device (27), a conveying chain (28) and a pushing cylinder (29), the first speed reducer (22) is arranged on the first stepping motor (21), a rotating shaft of the first stepping motor (21) is connected with the conveying chain (28), the magnetic steel device (27) is arranged on the conveying chain (28), and the threaded cylinder (24), the first sensor (25) and the pulling cylinder (26) for pushing and pulling the U-shaped slide rail are arranged at the upper end of the conveying chain (28).

5. The automatic feeding and sorting device for the sliding rails as claimed in claim 4, wherein the turnover mechanism (3) comprises a second stepping motor (31), a second speed reducer (32), a first shaft coupler (33), a bearing (34), a material taking block (35), a transmission shaft (36) and a fixed mounting plate (37), the fixed mounting plate (37) is fixed on the layout sorting mechanism (4) through bolts, the transmission shaft (36) is mounted on the fixed mounting plate (37), at least two material taking blocks (35) are arranged on the transmission shaft (36), the speed reducer (32) is arranged on the stepping motor (31), and the shaft coupler (33), the bearing (34) and the transmission shaft (36) are connected through a rotating shaft of the stepping motor (31).

6. The slide rail automatic feeding and sequencing device according to claim 5, characterized in that the mounting position of the material taking block (35) is matched with the position of a conveying chain (28) in the magnetic steel lifting and sequencing mechanism (2).

7. The automatic feeding and sorting device for the sliding rails as claimed in claim 1, wherein the layout sorting mechanism comprises a servo motor (41), a side baffle (42), a speed reducer three (43), a coupler two (44), a conveying chain (45), a sliding rail (46), a sensor bracket (47), a sensor two (48), a sliding rail fixing seat (49) and a bracket (50), the servo motor (41) and the sliding rail fixing seat (49) are mounted on the bracket (50), the sliding rail fixing seat (49) is provided with the sensor bracket (47), the conveying chain (45) and the sliding rail (46), the sensor bracket (47) is connected with the sensor two (48), the servo motor (41) is provided with the speed reducer three (43), a rotating shaft of the servo motor (41) is connected with the coupler two (44), and the coupler two (44) is connected with a transmission shaft, conveying chain (45) are connected with the transmission shaft, slide rail fixing base (49) are close to servo motor (41) side is provided with side shield (42).

8. An automatic slide rail feeding and sorting method is based on the automatic slide rail feeding and sorting device according to any one of claims 1 to 7, and is characterized by comprising the following steps of:

step one, a certain number of U-shaped slide rails are placed in a storage frame (1), a magnetic steel lifting and sorting mechanism (2) is started, a magnetic steel device (27) fixed on a conveying chain (28) adsorbs the U-shaped slide rails through magnetic force, material taking of the U-shaped slide rails is achieved when the conveying chain (28) moves, the U-shaped slide rails in a material taking state are in four forms of a, b, c and d, and when the U-shaped slide rails are in an a state, the conveying chain (28) is directly conveyed; when the detector detects that the U-shaped slide rail is in a b state, the threaded air cylinder (24) is controlled to act, the threaded air cylinder (24) extends out of the push rod, and the U-shaped slide rail can be changed in shape by the extending air rod when moving on the conveying chain (28); when the detector detects that the U-shaped slide rail is in a c state, the pushing cylinder (29) pushes out the U-shaped slide rail, and the U-shaped slide rail falls back into the storage frame (1) again through the plectrum fixing plate (14); when the detector detects that the U-shaped slide rail is in an e state, the U-shaped slide rail is scraped off by the poking sheet (16) in the moving process of the conveying chain (28), so that the risk of conveying a plurality of U-shaped guide rails at the same time is avoided;

step two, after the U-shaped rail is sent to the appointed position, the sensor I (25) senses a signal and controls the material pulling cylinder (26) to act, the material pulling cylinder (26) sends the workpiece to the next appointed position, and after the U-shaped rail is sent to the next appointed position, the sensor I (25) controls the turnover mechanism to act, and the U-shaped sliding rail is moved to the layout sorting mechanism (4);

and step three, when the U-shaped slide rail is placed on the layout sorting mechanism (4) by the turnover mechanism (3), the sensor II (48) sends a signal to control the layout sorting mechanism (4) to work, a slide rail fixing seat (49) is installed on a conveying chain (45) of the layout sorting mechanism (4), and the size of the slide rail fixing seat (49) is matched with that of the U-shaped slide rail, so that the U-shaped slide rail cannot fall off in the conveying process.