KR20120001427U - Conveyor roller - Google Patents

Abstract

The present invention relates to a conveyor roller, looking at the features of the configuration, the drive shaft 10 is provided to be linked to the motor operation; An outer ring roller 20 installed to rotate on the drive shaft 10; And a magnetic clutch 30 installed at a position in which the outer ring roller 20 and the drive shaft 10 face each other, and are frictionally driven by the magnetic force of the magnet 32 to transmit power.
Accordingly, the present invention, the friction clutch is kept constant as the flow clutch plate is rubbed to the fixed clutch plate by the magnetic force and the driving force of the drive shaft is transmitted to the outer ring roller, and the friction force is easily adjusted according to the number of magnets installed. When the outer shaft roller is stopped due to the high load, the floating clutch plate slips on the fixed clutch plate when the drive shaft is idle, thereby preventing the occurrence of vibration, thereby improving transport safety and accuracy of the conveyed material.

Description

Conveyor roller

The present invention relates to a conveyor roller, and more particularly, to a conveyor roller that is conveyed at regular intervals, and conveys the goods while being driven in conjunction with the driving force of the motor.

Conventionally, conveyors are mechanical devices for continuously conveying conveyances, and are widely applied in industrial fields including assembly lines and production sites in order to promote efficient space utilization and automation of manufacturing processes.

For example, the conveyor may be arranged such that the rollers are arranged at regular intervals, and the shaft supporting each roller is connected to the motor by means of power transmission means including gears, chains, sprockets, and belts. However, as the driving force of the motor has a power cutting structure for directly driving the rollers through the shaft, even after the load reaches the target point, it is forcedly transferred by the driving force of the rollers and collides with each other, causing damage and line breakage. Due to the vibration caused by the semiconductor manufacturing process, various LCD manufacturing process, such as the situation is not suitable for the production site.

Accordingly, in Utility Model Registration No. 20-365189, a magnet is provided in an inner ring portion interlocked by a motor rotating shaft and an outer ring portion that rotates in contact with a feed object, and the outer ring portion is rotated by the magnet force of the inner ring portion when the inner ring portion rotates. It allows to transport the goods.

However, the above-described prior art is for efficiently transferring the conveyed object by using the outer ring portion which is driven in a contactless manner by magnetic force, but many problems have been raised in use.

First, as the power of the inner ring is transferred to the outer ring depending only on the magnetic force of the magnet, the power loss is so severe that the outer ring cannot be driven when transporting heavy loads, and the conveyor is installed at an inclination angle to transport the transport. Regardless of the driving speed, the outer ring part idles, resulting in a loss of feed capacity.

Second, the external force cannot be driven by the external force, and when the inner ring is idle, the attraction or repulsive force of the outer ring magnet and the inner ring magnet which are opposed to each other is intermittently generated. Followed by the damage that caused water damage.

Accordingly, the present invention has been conceived to solve the above problems, and more specifically, the power transmission of the motor by the magnetic force is smooth to ensure the transport safety and precision of the conveyed material, the vibration generated when the roller is stopped by the conveyed material It is an object of the present invention to provide a conveyor roller for preventing damage to the conveyed material.

Features of the present invention to achieve this purpose, the drive shaft 10 is provided to be linked with the motor; An outer ring roller 20 installed to rotate on the drive shaft 10; And a magnetic clutch 30 installed at a position in which the outer ring roller 20 and the drive shaft 10 face each other, and are frictionally driven by the magnetic force of the magnet 32 to transmit power.

At this time, the magnetic clutch 30 is coupled to the fixed clutch plate 34 installed on the outer ring roller 20 and the drive shaft 10 facing the fixed clutch plate 34 in the axial direction. It is characterized in that the transfer clutch plate 36 is provided with a driving force is transmitted, a plurality of magnet holder (36a) is accommodated to accommodate the magnet (32).

In addition, the flow clutch plate 36 is characterized in that the friction pad 38 is detachably provided on one surface that is rubbed with the fixed clutch plate (34).

According to the above configuration and action, the present invention, the friction clutch is fixed to the fixed clutch plate by the magnetic clutch, the frictional force is kept constant as the driving force of the drive shaft is transmitted to the outer ring roller, and the frictional force is easily adjusted according to the number of magnets installed. Particularly, when the outer shaft roller is stopped due to the high load, the floating clutch plate slips on the fixed clutch plate when the drive shaft is idle, thereby preventing vibration from being generated, thereby improving transport safety and accuracy of the conveyed material.

1 is a schematic view showing a conveyor roller according to the present invention as a whole.
FIG. 2 is an enlarged view of the main portion of FIG. 1. FIG.
Figure 3 is a block diagram showing an enlarged flow clutch plate of the conveyor roller according to the present invention.
Figure 4 is a block diagram showing a flow clutch plate of the conveyor roller according to a modification of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The present invention relates to a conveyor roller, wherein the conveyor roller is provided at a predetermined interval to rotate automatically by the driving force of the motor to continuously transport the conveyed material, the drive shaft (10) to improve the transport safety and precision of the conveyed material during operation ), The outer ring roller 20, the magnetic clutch 30 is made of a main configuration.

The drive shaft 10 according to the present invention is provided to be linked with the motor. The drive shaft 10 is installed together with the bearing so as to be rotatable on a support frame (not shown) of the conveyor apparatus as shown in FIG. 1, and a power transmission means including a gear, a chain, a sprocket, and a belt at one end thereof is connected to the motor. .

In addition, the outer ring roller 20 according to the present invention is installed to rotate on the drive shaft (10). The outer ring roller 20 is formed in the form of a hollow tube and is rotatably installed on the drive shaft 10 by a plurality of bearings.

In addition, the outer ring roller 20 carries the conveyed material while being driven in association with the drive shaft 10 by the magnetic clutch 30. At this time, the conveyed material is damaged or slip due to friction with the outer ring roller 20. In order to prevent the driving force loss due to, it is preferable to coat a soft pad including rubber on the outer circumferential surface of the outer ring roller 20.

In addition, the magnetic clutch 30 according to the present invention is installed at a position in which the outer ring roller 20 and the drive shaft 10 face each other, and are frictioned by the magnetic force of the magnet 32 to transmit power. As shown in FIG. 2, the magnetic clutch 30 has a fixed clutch plate 34 installed on the outer ring roller 20 and a key 11 coupled to the drive shaft 10 facing the fixed clutch plate 34. Is transferred in the axial direction and the driving force is transmitted, the flow clutch plate 36 is provided with a plurality of magnet holder (36a) is accommodated.

At this time, the fixed clutch plate 34 is installed on the inner circumferential surface of the outer ring roller 20, is formed of a metal containing iron to act the attraction force of the magnet 32 is provided so that the flow clutch plate 36 is in close contact by the magnetic force. .

In FIG. 3, the flow clutch plate 36 is axially moved on the drive shaft 10 by the combination of the key 11 and the key groove including the spline and is installed to transmit the rotational force. In addition, the movable clutch plate 36 is provided with a plurality of magnet holders 36a at an isometric position with respect to the drive shaft 10, where the magnet holders 36a are magnets to facilitate replacement of the worn magnets 32 during use. (32) is formed to be screwed in the inserted state or to be fitted in a yin-yang relief structure.

As the magnet 32 is detachably installed in the magnet holder 36a, the magnetic force is varied according to the amount of magnet 32 installed, so that the friction force between the fixed clutch plate 34 and the floating clutch plate 36 can be easily adjusted. do.

In addition, the floating clutch plate 36 is detachably provided with a friction pad 38 on one surface that is rubbed with the fixed clutch plate 34. The friction pad 38 is formed of a material having excellent friction performance with low noise including copper plate, nonferrous metal, and asbestos as shown in FIG. 4, and is screwed onto the flow clutch plate 36 to facilitate replacement when worn.

In operation, first, the installation quantity of the magnet 32 is determined in consideration of the use conditions of the conveyor. Subsequently, when the drive shaft 10 is driven in conjunction with the driving force of the motor, the flow clutch plate 36 is brought into close contact with the fixed clutch plate 34 by the magnetic force of the magnet 32 to convert the rotational force of the drive shaft 10 to the outer ring roller ( 20) will be delivered to the phase.

At this time, as the friction force between the flow clutch plate 36 and the fixed clutch plate 34 is kept constant by the magnetic force of the magnet 32, there is an advantage that the power transmission is stable and precise.

In addition, when an external force of high load acts on the outer ring roller 20 during use, the flow clutch plate 36 slides on the fixed clutch plate 34, and the outer ring roller 20 is stopped. Water damage and breakage are prevented.

10: drive shaft 20: outer ring roller 30: magnetic clutch

Claims (3)

A drive shaft 10 provided to operate in conjunction with a motor;
An outer ring roller 20 installed to rotate on the drive shaft 10; And
The outer ring roller 20 and the drive shaft 10 is installed in a position facing each other, the magnetic force clutch 30 is frictionally driven by the magnetic force of the magnet 32 to transfer power; conveyor rollers characterized in that it comprises a . The method of claim 1,
The magnetic clutch 30 is axially coupled to the fixed clutch plate 34 installed on the outer ring roller 20 and the drive shaft 10 opposite to the fixed clutch plate 34 and axially conveyed. Conveyor roller, characterized in that the driving force is transmitted, the flow clutch plate 36 is provided with a plurality of magnet holder (36a) is accommodated. The method of claim 2,
The flow clutch plate (36) is a conveyor roller, characterized in that the friction pad 38 is detachably provided on one surface that is rubbed with the fixed clutch plate (34).

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