CN219057726U

CN219057726U - Special conveyor of magnet carrier

Info

Publication number: CN219057726U
Application number: CN202223306657.XU
Authority: CN
Inventors: 邓勇; 黄文进
Original assignee: Jiangsu Langxun Industrial Intelligent Equipment Co ltd
Current assignee: Jiangsu Langxun Industrial Intelligent Equipment Co ltd
Priority date: 2022-12-09
Filing date: 2022-12-09
Publication date: 2023-05-23
Anticipated expiration: 2032-12-09

Abstract

The utility model relates to the technical field of assembly of tablet computers, and particularly discloses a special conveying device for a magnet carrier, which comprises a streamline component, a dispensing positioning component, a magnet carrier, a carrier base, a magnet feeding level positioning component, a magnet carrier taking and placing block and first connecting plates, wherein the dispensing positioning component is arranged on one side of the streamline component, the carrier base is arranged above the streamline component, the magnet carrier is fixedly connected with the carrier base, the magnet feeding level positioning component is arranged above the streamline component, the magnet carrier taking and placing block is arranged above the streamline component, and the two first connecting plates are respectively fixedly connected with the streamline component and are respectively positioned below the streamline component. The arrangement of the structure can save human resources, the yield is controllable, and the placement state of the 5G magnet can be judged due to the fact that the camera is arranged on the manipulator, so that the problems of north-south pole inversion and front-back direction errors existing when the 5G magnet is manually placed on the magnet carrier are avoided.

Description

Special conveyor of magnet carrier

Technical Field

The utility model relates to the technical field of tablet personal computer assembly, in particular to a special conveying device for a magnet carrier.

Background

At present, in the production process of each large assembly factory, a purely manual operation mode is adopted on a 5G magnet and a magnet carrier carrying substrate, an operator is required to manually and correctly place the 5G magnet on the magnet carrier, then the whole magnet carrier is taken to a designated station of a dispensing machine for dispensing, and after dispensing is completed, the magnet carrier is taken out of the dispensing machine and then taken to an operation process on the 5G magnet assembly machine.

However, in the prior art, human resources are wasted, mistakes are easy to occur, the yield is uncontrollable, the 5G magnet is placed on the magnet carrier, the north and south poles are required to be not reversed, the front and back directions are correct, manual operation is often easy to be affected by the environment, and the problem of distraction and misplacement occurs.

Disclosure of Invention

The utility model aims to provide a special conveying device for a magnet carrier, and aims to solve the problems of human resource waste, easy error, uncontrollable yield and the like in the prior art, and the technical problems that 5G magnets are placed on the magnet carrier, so that the north and south poles cannot be reversed, the front and rear directions are correct, manual operation is often easily influenced by environment, and the distraction and the error occur.

In order to achieve the above purpose, the special conveying device for the magnet carrier comprises a streamline component, a dispensing positioning component, a magnet carrier, a carrier base, two magnet carrier taking and placing blocks and first connecting plates, wherein the dispensing positioning component is arranged on one side of the streamline component, the carrier base is arranged above the streamline component, the magnet carrier is arranged above the carrier base, the magnet carrier taking and placing blocks are arranged above the streamline component, the number of the first connecting plates is two, and the two first connecting plates are fixedly connected with the streamline component and are respectively positioned below the streamline component.

The streamline assembly comprises a first streamline, a second streamline, a first servo motor, a second servo motor, a first cylinder and a second cylinder, wherein the first streamline and the second streamline are respectively fixedly connected with the first connecting plate and are respectively located above the first connecting plate, the first cylinder and the second cylinder are respectively arranged between the first streamline and the second streamline, the first servo motor is arranged between the first streamline and the second streamline, and the second servo motor is arranged between the first streamline and the second streamline.

The dispensing positioning assembly comprises a small flat plate, right-angle brackets, a linear guide rail, a second connecting plate, a clamping cylinder and clamping blocks, wherein the number of the right-angle brackets is two, and the small flat plate is connected with the clamping blocks; the two right angle brackets are fixedly connected and are positioned above the two right angle brackets, the linear guide rail is fixedly connected with the small flat plate and is positioned above the small flat plate, the second connecting plate is in sliding connection with the linear guide rail and is positioned above the linear guide rail, the clamping block is fixedly connected with the second connecting plate and is positioned above the second connecting plate, and the clamping cylinder is arranged on one side of the second connecting plate.

The special conveying device for the magnet carrier has the beneficial effects that: the manual labor resource can be saved, the manual labor is liberated by the mechanical equipment to complete the operations of carrying, taking and discharging of a simple machine, meanwhile, the operation is difficult to make mistakes, the yield is controllable, and the problem that the north and south poles are reversed and the front and back directions are wrong when the 5G magnet is manually placed to the magnet carrier is avoided due to the fact that the camera is arranged on the manipulator to judge the placement state of the 5G magnet.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic structural view of a conveyor device dedicated for a magnet carrier according to the present utility model.

Fig. 2 is a schematic structural view of the dispensing positioning assembly of the present utility model.

The device comprises a 1-first streamline, a 2-second streamline, a 3-dispensing positioning assembly, a 4-second servo motor, a 5-magnet carrier, a 6-carrier base, a 7-magnet feeding level positioning assembly, an 8-first cylinder, a 9-magnet carrier taking and placing block, a 10-first servo motor, an 11-second cylinder, a 12-first connecting plate, a 13-small plate, a 14-right angle bracket, a 15-linear guide rail, a 16-second connecting plate, a 17-clamping cylinder and an 18-clamping block.

Detailed Description

Referring to fig. 1 and 2, the utility model provides a special conveying device for a magnet carrier 5, which comprises a streamline component, a dispensing positioning component 3, the magnet carrier 5, a carrier base 6, a magnet feeding level positioning component 7, a magnet carrier taking and placing block 9 and a first connecting plate 12, wherein the dispensing positioning component 3 is arranged on one side of the streamline component, the carrier base 6 is arranged above the streamline component, the magnet carrier 5 is arranged above the carrier base 6, the magnet feeding level positioning component 7 is arranged above the streamline component, the magnet carrier taking and placing block 9 is arranged above the streamline component, the number of the first connecting plates 12 is two, and the two first connecting plates 12 are fixedly connected with the streamline component and are respectively arranged below the streamline component.

Further, the streamline assembly comprises a first streamline 1, a second streamline 2, a first servo motor 10, a second servo motor 4, a first cylinder 8 and a second cylinder 11, wherein the first streamline 1 and the second streamline 2 are respectively fixedly connected with the first connecting plate 12 and are respectively located above the first connecting plate 12, the first cylinder 8 and the second cylinder 11 are respectively arranged between the first streamline 1 and the second streamline 2, the first servo motor 10 is arranged between the first streamline 1 and the second streamline 2, and the second servo motor 4 is arranged between the first streamline 1 and the second streamline 2.

Further, the dispensing positioning assembly 3 comprises a small flat plate 13, right-angle brackets 14, a linear guide rail 15, a second connecting plate 16, a clamping cylinder 17 and a clamping block 18, wherein the number of the right-angle brackets 14 is two, and the small flat plate 13 and the small flat plate 18 are connected with each other; the two right angle brackets 14 are fixedly connected and located above the two right angle brackets 14, the linear guide rail 15 is fixedly connected with the small flat plate 13 and located above the small flat plate 13, the second connecting plate 16 is slidably connected with the linear guide rail 15 and located above the linear guide rail 15, the clamping block 18 is fixedly connected with the second connecting plate 16 and located above the second connecting plate 16, and the clamping cylinder 17 is arranged on one side of the second connecting plate 16.

In the present utility model,

the operator manually places the magnet carrier 5 without the 5G magnet on the carrier base 6 at the magnet carrier taking and placing block 9, and then presses a complete machine starting button;

the first air cylinder 8 is ventilated to convey the magnet carrier 5 at the magnet carrier picking and placing block 9 to the left side of the second flow line 2, and the 5G magnet at the dispensing positioning assembly 3 is waited for dispensing;

after dispensing is completed, the second cylinder 11 is ventilated to convey the magnet carrier 5 at the dispensing positioning assembly 3 to the right side of the first streamline 1;

the first servo motor 10 rotates forward to convey the magnet carrier 5 with the dispensed magnet 5G on the right side of the first flow line 1 to the left side of the first flow line 1, and simultaneously, the second servo motor 4 also rotates forward to convey the magnet carrier 5 at the transition position of the second flow line 2 to the dispensing position, at this time, because the empty magnet carrier 5, the feeding position magnet carrier 5 and the transition position magnet carrier 5 on the left side of the second flow line 2 are arranged at equal intervals, when the magnet carrier 5 at the original transition position advances one station, the magnet carriers 5 at other two positions also advance one station at the same time;

the magnet feeding level positioning assembly 7 and the clamping cylinder 17 on the dispensing positioning assembly 3 extend out simultaneously, and a convex structure at the front end of the clamping block 18 clamps the magnet carrier 5 to finish positioning;

at this time, three operations are simultaneously executed, including that a person manually takes down the magnet carrier 5 with the dispensing at the position of the magnet carrier taking and placing block 9 completed, places a 5G magnet on the empty magnet carrier 5 at the position of the magnet feeding position by a manipulator, and places curing glue on the 5G magnet of the magnet carrier 5 by a glue dispensing position glue dispenser;

and repeating the second step to the sixth step, and continuously completing the process of placing the 5G magnet on the magnet carrier 5 and dispensing.

The above disclosure is only a preferred embodiment of the present utility model, and it should be understood that the scope of the utility model is not limited thereto, and those skilled in the art will appreciate that all or part of the procedures described above can be performed according to the equivalent changes of the claims, and still fall within the scope of the present utility model.

Claims

1. A special conveying device for a magnet carrier is characterized in that,

including streamline subassembly, point gum positioning component, magnet carrier, carrier base, magnet material loading position positioning component, magnet carrier get put piece and first connecting plate, point gum positioning component set up in one side of streamline subassembly, the carrier base set up in the top of streamline subassembly, magnet carrier set up in the top of carrier base, magnet material loading position positioning component set up in the top of streamline subassembly, magnet carrier get put the piece set up in the top of streamline subassembly, the quantity of first connecting plate is two, two first connecting plate respectively with streamline subassembly fixed connection, and be located respectively the below of streamline subassembly.

2. A transport device for a magnet carrier according to claim 1, wherein,

3. A transport device for a magnet carrier according to claim 2, wherein,

the glue dispensing positioning assembly comprises a small flat plate, right-angle brackets, linear guide rails, a second connecting plate, clamping cylinders and clamping blocks, wherein the number of the right-angle brackets is two, the small flat plate is fixedly connected with the two right-angle brackets and is positioned above the two right-angle brackets, the linear guide rails are fixedly connected with the small flat plate and are positioned above the small flat plate, the second connecting plate is slidably connected with the linear guide rails and is positioned above the linear guide rails, the clamping blocks are fixedly connected with the second connecting plate and are positioned above the second connecting plate, and the clamping cylinders are arranged on one side of the second connecting plate.