KR20180031128A - Friction roller for conveyor - Google Patents

Abstract

The present invention provides a friction roller for a conveyor, which is installed on a conveyor shaft. The friction roller for a conveyor, which comprises: a pair of frames installed to be spaced apart at a predetermined interval; a drive motor installed on a lower part on one side of each frame; a plurality of shafts positioned in the frame; a sprocket installed on one side of the shaft to rotate a shaft by receiving a rotational force from a drive motor; and a chain connecting the sprocket with the drive motor and transferring the rotational force generated from the drive motor to the sprocket, comprises: a plurality of bearings installed at the outer circumference of the shaft; a first fixed ring and a second fixed ring positioned on the outer diameters of the bearings, respectively; a retainer fixing ring installed on the outer circumference of the bearing where the first fixed ring is positioned; a retainer inserted into and fixed to one side of the retainer fixing ring; a plurality of rotary balls installed along the circumference of the retainer; an inner wheel body rotationally installed on the inner circumference of the retainer; an outer wheel body rotationally installed on the outer circumference of the retainer; and a retaining ring installed on the outer circumference of the bearing where the second fixed ring is positioned to prevent the inner wheel body, the outer wheel body, and the retainer from being separated in an external direction.

Description

Friction roller for conveyor [0002]

The present invention relates to a friction roller for a conveyor. More particularly, the present invention relates to a friction roller for a conveyor that effectively prevents an overload from being transmitted to a drive motor and a shaft while maintaining the braking force constant, The present invention also relates to a friction roller for a conveyor which is easy to assemble and repair with a simple structure in which the bearing itself acts as a roller without a separate roller without a separate roller, and the manufacturing cost is reduced.

Generally, a conveyor is used for conveying a part such as a part or an article, a pallet for loading, or the like in a manufacturing factory, a warehouse or the like, and the conveyor is conveyed by a driving motor and a plurality of conveying rollers or conveyance belts connected to the shaft, do.

A stopper is provided on the conveying path to convey the conveyed objects one by one to the destination of the conveyed objects, and the conveyor is controlled so as to be in a standby state when the conveyed objects are sensed.

However, when the conveying drive motor is stopped every time the conveyed object reaches the end point, power consumption is high at the time of re-starting, resulting in inefficiency and severe wear and damage of the apparatus. A continuously rotating friction roller is applied.

A conventionally disclosed conveyor having a friction roller is disclosed in Korean Patent Publication No. 10-1241077. The friction roller includes a bevel gear to which rotational power is transmitted, a shaft fixedly coupled to the bevel gear, A bush formed on an end surface of the roller, a spring for applying a pushing force to the bush, a level block for adjusting an elastic force of the spring, As shown in FIG.

In the case of the friction roller, the spring is pushed by the level block and the bush is pushed by the elastic force of the spring to transmit the rotational force of the shaft toward the roller. However, the roller is rotated by the rotation of the spring and its adjacent bush As the spring force is manually controlled by using the level block as well as the bush and spring are damaged due to the friction, the spring force is constantly reset according to the degree of abrasion of the bush and the weight of the object. There is a problem in that it takes much time and time to set up.

Korean Registered Patent No. 10-1241077 (Mar. 03, 2013)

SUMMARY OF THE INVENTION The present invention has been made in order to solve the problems of the prior art as described above, and it is an object of the present invention to provide an apparatus and a method for controlling a conveying apparatus in which, when a load such as a stop of a conveyed object is applied during conveyance by a conveyor, The present invention also provides a friction roller for a conveyor which can be assembled and repaired with ease and can be manufactured at a reduced manufacturing cost by a simple structure in which the bearing itself acts as a roller without a separate roller, There is a purpose.

In order to achieve the above object, the present invention provides a motorcycle comprising a pair of frames spaced apart from each other at a predetermined interval, a driving motor provided at a lower side of the frame, a plurality of shafts provided in the frame, A friction roller for a conveyor comprising a sprocket which rotates by receiving a rotational force from a driving motor, and a shaft of a conveyor which is connected to the sprocket and the driving motor so as to transmit a rotational force generated from the driving motor to a sprocket A plurality of bearings installed at an outer diameter of the shaft; First and second retaining rings provided at outer diameters of the bearings; A retainer retaining ring provided at an outer diameter of the bearing provided with the first retaining ring; A retainer adapted to be fitted and fixed to one side of the retainer retaining ring; A plurality of rotating balls installed along the circumference of the retainer; An inner ring body rotatably installed on the inner diameter of the retainer; An outer ring body rotatably installed at an outer diameter of the retainer; And a release preventing ring provided at an outer diameter of the bearing provided with the second retaining ring so that the inner and outer ring bodies and the retainer are not released outwardly.

In the friction roller for conveyor according to the present invention, when a load such as a stop of the conveyed object is applied during conveyance of the conveyed material by the conveyor, the sprocket is connected to the driving motor while keeping the braking force constant, So that it is possible to effectively prevent the overload from being transmitted to the drive motor and the sprocket.

In addition, the outer ring member, which is a bearing type without a separate roller, is a simple structure in which the roller acts as a roller, thereby facilitating assembling and repairing, and also reducing manufacturing costs.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view of a friction roller for a conveyor according to the present invention,
2 is an exploded perspective view of a conveyor for a conveyor according to the present invention,
3 is a side sectional view of a friction roller for a conveyor according to the present invention,
FIG. 4 is a perspective view of the friction roller for a conveyor according to the present invention,
5 and 6 are cross-sectional perspective views of the friction roller for a conveyor according to the present invention,
7 is a side sectional view showing another embodiment of a friction roller for a conveyor according to the present invention.

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

1 to 6, the friction roller for a conveyor according to the present invention includes a bearing 60, a first retaining ring 70, a second retaining ring 80, a retainer retaining ring 90, a retainer 100, A rotary ball 200, an inner ring member 300, an outer ring member 400, and a release preventing ring 500.

1, the conveyor includes a pair of frames 10 spaced apart from each other at a predetermined interval, a drive motor 20 is installed on one side of the frame 10, a shaft 30 is mounted on the frame 10, .

A sprocket 40 is provided at one side of the shaft 30 to receive a rotational force from the driving motor 20 and a chain 50 for transmitting rotational force generated from the driving motor 20 to the sprocket 40 The sprocket 40 and the drive motor 20 are connected to each other.

A friction roller that rotates by the rotational force of the sprocket 40 is formed on the shaft 30 of the conveyor so that the conveyed matter conveyed by the conveyor configured as described above is smoothly conveyed.

As shown in FIGS. 2 and 3, the friction roller is provided with a plurality of bearings 60 at the outer diameter of the shaft 30, and each of the bearings 60 has first and second Fixing rings 70 and 80 are provided.

A retainer retaining ring 90 for retaining a retainer 100 described later is provided on the outer diameter of the bearing 60 provided with the first retaining ring 70. [ The retainer retaining ring 90 has a first body 91 formed in an outer diameter of the bearing 60 in a donut shape.

A first fixing key 92 for fixing the first body 91 to the first fixing ring 70 is formed on the inner side of the other inner side of the first body 91 by a first fixing ring 70 A plurality of first protrusions 93 are formed along the circumference of the first body 91 at one side of the first body 91 and a first fitting groove 94 is formed at the end of the first protrusions 93 do.

And a retainer 100 is fitted on one side of the retainer retainer ring 90 so as to be inserted and fixed. The retainer 100 has a second body 101 formed in a donut shape on the end side of a plurality of first protrusions 93 fitted to the retainer retaining ring 90.

A plurality of supports 102 are formed along the circumference of the second body 101 so that a plurality of rotating balls 200 installed along the second body 101 are rotatably supported. A fitting protrusion 103 which is fitted in the fitting groove 94 of the retainer retaining ring 90 is formed on each side surface of the second body 101 between the first retaining ring 90 and the retainer ring 102.

A plurality of rotating balls 200 are provided along the circumference of the retainer 100 and the inner ring body 300 is rotatably mounted on the inner diameter of the retainer 100. The outer ring body 400 are rotatably installed.

A release preventing ring 500 is provided on the outer diameter of the bearing 60 provided with the second retaining ring 80 so that the inner and outer ring members 300 and 400 and the retainer 100 are not deviated outwardly.

The release preventing ring 500 has a third body 501 formed in the outer diameter of the bearing 60 in a donut shape and a second retaining ring 70 fitted in the other inner diameter of the second body 501, A second fixing key 502 for fixing the third body 501 to the first fixing ring 70 is formed.

A plurality of second protrusions 503 are formed along the circumference of the third body 501 at one side of the third body 501 and a second fitting groove 504 is formed at the end of the second protrusions 503 .

The operation description of the present invention configured as above will be described as follows.

4 to 6, the sprocket 40 is rotated by receiving the rotational force generated from the drive motor 20 when the conveyed object is conveyed by the conveyor.

The retainer retaining ring 90 and the retainer 100, the rotating ball 200, the inner ring member 300, the outer ring member 400 and the escape prevention ring 500 are rotated together by the sprocket 40, The transported goods are transported.

A stopper (S) is provided at the end point of the conveyed object to align the conveyance distance of the conveyed object on the conveyance path to convey the conveyed objects one by one. When the conveyed object is sensed by a sensor (not shown), the stopper S moves upward to block the conveyance path of the conveyed object to stop the movement of the conveyed object.

At this time, the outer ring body 400 positioned at the lower side of the conveyed object is stopped due to the weight of the conveyed object. However, the retainer retaining ring 90, the retainer 100, and the inner ring member 300 rotate together with the sprocket 40 due to the rotating ball 200 rotatably installed in the retainer 100. [

Accordingly, when a load such as the stop of the conveyed object is applied during the conveyance, the sprocket 40 connected to the driving motor 20 is continuously rotated while keeping the braking force constant, It is possible to effectively prevent the overload from being transmitted to the sprocket 40 side, thereby preventing the conveyor from failing.

Since the retainer retaining ring 90 and the retainer 100, the rotating ball 200, the inner ring member 300, the outer ring member 400 and the release preventing ring 500 are formed in a bearing shape, So that it is very easy to assemble and repair, and the manufacturing cost is reduced.

7, a shaft 30 is provided between the pair of frames 10 so as to be rotatable by a drive motor 20, and a retainer ring 90 and a retainer 100 A plurality of rollers 800 are further provided on the outer diameter of the outer ring body 400 so as to be connected to various conveyors Can be used.

10: frame 20: drive motor
30: shaft 40: sprocket
50: chain 60: bearing
70: first fixing ring 80: second fixing ring
90: retainer retaining ring 100: retainer
200: rotating ball 300: inner ring body
400: outer ring body 500:

Claims (4)

A plurality of shafts 30 provided on the frame 10 and a plurality of shafts 30 mounted on the shafts 10, A sprocket 40 installed at one side of the driving motor 20 to rotate by receiving a rotational force from the driving motor 20 and a driving motor 20 connected to the sprocket 40 and the driving motor 20, 1. A friction roller for a conveyor comprising a shaft (30) of a conveyor comprising a chain (50) for transmitting rotational force to a sprocket (40)
A plurality of bearings 60 installed at an outer diameter of the shaft 30;
First and second retaining rings 70 and 80 provided at outer diameters of the bearings 60;
A retainer retaining ring 90 provided at an outer diameter of the bearing 60 provided with the first retaining ring 70;
A retainer (100) fitted to one side of the retainer retaining ring (90);
A plurality of rotating balls 200 installed along the circumference of the retainer 100;
An inner ring body (300) rotatably installed on the inner diameter of the retainer (100);
An outer ring body 400 rotatably installed at an outer diameter of the retainer 100;
A release preventing ring 500 installed at an outer diameter of the bearing 60 provided with the second retaining ring 80 so that the inner and outer ring bodies 300 and 400 and the retainer 100 are not deviated outwardly;
And a friction roller for conveying the conveyor. The method according to claim 1,
The retainer retaining ring (90)
A first body 91 provided at an outer diameter of the bearing 60 is formed in a donut shape,
A first fixing key 92 for fixing the first body 91 to the first fixing ring 70 is formed at the upper portion of the inner side of the first body 91 in the first fixing ring 70,
A plurality of first protrusions 93 are formed on one side of the first body 91 along the circumference of the first body 91,
And a first fitting groove (94) is formed at an end of the first protrusion (93). 3. The method according to claim 1 or 2,
The retainer (100)
A second body 101 provided on an end side of a plurality of protrusions 93 formed on the retainer retaining ring 90 is formed in a donut shape,
A plurality of supports 102 are formed along the circumference of the second body 101 so that a plurality of rotating balls 200 installed along the second body 101 are rotatably supported,
Wherein each of the side surfaces of the second body (101) between the support (102) and the support (102) is provided with an elongated protrusion (103) to be fitted into the fitting recess (94) of the retainer retaining ring (90) Friction roller. The method according to claim 1,
The anti-departure ring (500)
A third body (501) provided on the outer diameter of the bearing (60) is formed in a donut shape,
A second fixing key 502 for fixing the third body 501 to the first fixing ring 70 is formed on the other inner diameter upper portion of the second body 501,
A plurality of second protrusions 503 are formed on one side of the third body 501 along the circumference of the third body 501,
And a second fitting groove (504) is formed at an end of the second protrusion (503).

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