CN211812330U

CN211812330U - Non-contact magnetic drive conveying system

Info

Publication number: CN211812330U
Application number: CN201921025466.1U
Authority: CN
Inventors: 臧宝鼎
Original assignee: Suzhou Jinwei Enterprise Management Co ltd
Current assignee: Suzhou Jinwei Enterprise Management Co ltd
Priority date: 2019-07-03
Filing date: 2019-07-03
Publication date: 2020-10-30
Anticipated expiration: 2029-07-03

Abstract

A non-contact magnetic drive conveying system is characterized in that a streamline main body is built by using a profile, then a servo motor is used for driving a shaft, magnetic rings are fixed on the shaft at intervals, a carrier is arranged above the profile through a roller frame, bar magnets which are arranged at equal intervals and inclined at a certain angle are installed at the bottom of the carrier, the bar magnets which are inclined at a certain angle are generated to repel magnetic induction lines through the rotation of the magnetic rings, and the roller drives the carrier to slide on the profile, so that the purpose of conveying products is achieved; the application provides this kind of conveying system, simple structure, design benefit requires lowly to the accessory, preparation convenient and fast, low in manufacturing cost, and is easy and simple to handle, has fine practicality and economic benefits in the hundred grades of dust-free workshops of high requirement.

Description

Non-contact magnetic drive conveying system

Technical Field

The utility model relates to a hundred grades of dust-free workshops use magnetic drive transmission system.

Background

The streamline is used for transporting and transporting products, and can ensure that food, 3C and many industries can efficiently transport the products to a specified position. In the production process of high-precision products, strict dust-free grade requirements are met for production environments, and common conveying lines cannot meet conveying requirements.

That is to say, high-precision product production must have the equipment that is used for the dust-free workshop of supporting to produce, and ordinary transfer chain can lead to the belt wearing and tearing to produce the cuttings because of producing the friction between belt and the belt pulley, can not reach the requirement of dustless grade.

Therefore, high-precision production equipment needs a dust-free conveying system with a corresponding grade to ensure the dust-free grade of the equipment.

Disclosure of Invention

An object of the utility model is to provide a high-efficient hundred grades of dustless conveying system for above equipment.

In order to achieve the above object, the utility model provides a following technical scheme:

1. a magnetic drive conveying line uses a section bar to build a streamline main body, then uses a servo motor to drive a shaft, magnetic rings are fixed on the shaft at intervals, a carrier is arranged above the section bar through a roller frame, bar magnets which are arranged at equal intervals and inclined at a certain angle are installed at the bottom of the carrier, the bar magnets which are inclined at a certain angle are installed to generate repulsion of magnetic induction lines through rotation of the magnetic rings, and the roller drives the carrier to slide on the section bar, so that the purpose of conveying products is achieved;

2. the servo motor is connected with the driving shaft through a coupler, magnetic rings are arranged on the shaft at certain intervals, and the motor drives the shaft and the magnetic rings to rotate together;

3. bar magnets with N poles and S poles arranged at intervals are arranged on the carrier at equal intervals;

4. the corresponding number of friction-resistant rollers are arranged on the carrier and used for ensuring the height and the guide of the carrier;

5. when the carrier is erected above the streamline, a fixed gap is formed between the bar-shaped magnet and the magnetic ring, and the magnetic ring is ensured to be not in contact with the bar-shaped magnet on the carrier.

Drawings

Fig. 1 is a schematic diagram of a conveyor line structure.

Fig. 2 is a schematic view of a carrier.

Fig. 3 shows the carrier placed on the flow line.

FIG. 4 is an isometric view of the carrier being placed on the flow line.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

As shown in fig. 1 and 2:

FIG. 1 is a carrier, 1-1 is a guide roller, 1-2 is a transportation roller, 1-3 is an N-pole bar magnet, 1-4 is an S-pole bar magnet, 1-5 is a carrier roller and a bar magnet fixing platform, and 1-6 is a platform for placing transported products;

FIG. 2 is a flow line, 2-1 is a magnetic ring, 2-2 is a section bar, 2-3 is a servo motor driver, 2-4 is a servo motor, and 2-5 is a driving shaft.

In the working process, the carrier shown in the figure 1 is placed on the streamline shown in the figure 2, the servo motor on the streamline drives the magnetic ring to rotate, the magnetic ring and the N and S poles on the bar magnets generate repulsive force and thrust, the carrier can be conveyed, the carrier slides on the section bar through the roller frame, the contact area and friction are reduced, and the generation of dust particles is reduced, so that the requirement of a hundred-grade dust-free chamber is met.

Fig. 3 shows the carrier placed on the flow line.

Claims

1. A non-contact magnetic drive conveying system is characterized in that a streamline main body is built by using a profile, then a servo motor is used for driving a shaft, magnetic rings are fixed on the shaft at intervals, a carrier is erected above the profile through a roller frame, bar magnets which are inclined at a certain angle are arranged at the bottom of the carrier at equal intervals, repulsion of magnetic induction lines is generated by rotating the magnetic rings and installing the bar magnets which are inclined at a certain angle, and the roller drives the carrier to slide on the profile, so that the purpose of conveying products is achieved.

2. A contactless magnetic drive transfer system as in claim 1 wherein the servo motor is coupled to the drive shaft by a coupling, and wherein the shaft has a magnetic ring mounted thereon at spaced intervals, the motor carrying the shaft and the magnetic ring for rotation therewith.

3. The system of claim 1, wherein the carriers have magnetic strips disposed between the N-pole and S-pole, which are disposed at equal intervals.

4. A contactless magnetic drive transfer system according to claim 1, wherein a corresponding number of friction resistant rollers are mounted on the carrier for ensuring the height and guidance of the carrier.

5. The system of claim 1, wherein the magnetic strip is spaced from the magnetic ring by a fixed distance when the carrier is positioned over the flow line, thereby ensuring that the magnetic ring is not in contact with the magnetic strip on the carrier.