KR101035773B1 - Roller structure - Google Patents

Abstract

The present invention relates to a roller structure to prevent the degradation of the roller bearing by improving the structure of the roller employed in the belt conveyor or the like by the air circulation method.

The roller shaft 20 is axially coupled and rotatable by receiving the driving force of the belt that is orbitally rotated by the drive pulley and the driven pulley, the roller body is formed in the space portion and the bearings are installed at both ends, respectively; When the roller body is rotated, the air circulation means is provided with a through hole communicating the outside and the inside at both ends of the roller body so that the outside air circulates inside the space of the roller body.

According to the present invention, by inducing external air to flow in one direction only when the roller is rotated, it is useful to cool the bearings by air cooling to prevent the deterioration of the bearings, thereby prolonging the parts replacement cycle and improving productivity. Has an effect.

Description

Roller structure {ROLLER STRUCTURE}

The present invention relates to a roller structure, and in particular, in order to prevent deterioration of the roller bearing for supporting the roller rotation of the belt conveyor, the structure of the roller is improved so that air is circulated inside the roller body to cool the bearing part during the rotation of the roller. It is about a structure.

In general, the conveying roller is rotated at a high speed by receiving a rotational force to have a function of conveying the object.

Although some of the existing rollers have been applied to various fields, a description will be given of the transfer roller employed in the belt conveyor.

Conventionally, the belt conveyor is composed of a plurality of transfer rollers for rotating the belt by the drive pulley and the driven pulley spaced apart from each other, supporting the rotation of the belt between the drive / driven pulley and supporting a heavy material conveying.

Among them, the conveying roller (hereinafter, abbreviated as roller) has a structure in which the roller shaft is in direct contact with the belt and axially coupled to the rotatable roller body, and a bearing is interposed between both ends of the roller shaft and the contact portion of the roller body.

However, as the existing roller is rotated at a high speed, heat is generated, and this heat degrades the bearings, thereby deteriorating the durability of the parts. As a result, the bearings may be frequently damaged, and the replacement cycle of the parts may be shortened. There is a problem.

In addition, due to the short replacement cycle of the roller bearing there is a problem that the operation is frequently interrupted when replacing the bearing and the productivity is lowered.

The present invention has been proposed to solve the above problems in consideration of the above problems, and its object is to have an air cooling method in which air is circulated into the rollers during rotation of the rollers, thereby preventing deterioration of the roller bearings and reducing the replacement cycle of parts. It is to provide a roller structure whose structure is improved so that it can be extended to improve productivity.

The present invention for achieving the above object is a roller body is axially coupled to the rotatable rotatable roller bearing body is installed on each side end;

It characterized in that the air circulation means having a through-hole formed in both ends of the roller body so that outside air circulates inside the roller body when the roller body is rotated.

The air circulation means is further provided with a valve which is disposed on the edge portion of the through holes to open the through holes only when the roller body is rotated.

The valve has a structure in which one end is fixed to both ends of the roller body and the other end, except for one end, is in close contact with the through hole so as to be able to be folded.

The air circulation means further comprises an impeller disposed on the inner circumferential surface of the roller body and composed of a plurality of blades.

The present invention is to improve the structure of the roller employed in the belt conveyor, etc. in the air circulation method to prevent degradation of the roller bearing, according to the present invention, the outside air in one direction to the outside of the roller body only when the roller is rotated By inducing flow, the bearing is cooled by air-cooling to prevent deterioration of the bearing, which has a useful effect of prolonging the parts replacement cycle and improving productivity.

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

1 to 4, the roller structure according to the present invention is configured such that the roller shaft 20 is axially coupled and orbitally rotated by a pair of pulleys (not shown: driven / driven pulleys). The roller body 10 is rotatable by receiving the driving force of the belt, and the space 12 is formed therein, and the roller body 10 having the bearings 30 interposed therebetween at both ends thereof, and external air is rotated when the roller body 10 rotates. In order to circulate the inside of the space portion 12 of the main body 10 is provided with air circulation means formed with the through-hole 50 in communication with the outside and the inside at both ends of the roller main body 10.

In more detail, the air circulation means has a plurality of through holes 50 are formed at both ends of the roller body 10 in close proximity to the bearing 30 so that the outside air through the through holes 50 when the roller body 10 rotates. Is passed through the space portion 12 of the roller body 10 is composed of an air circulation system to exit out again.

In addition, the air circulation means is preferably provided with valves (52, 54) to block the foreign matter, such as coolant, flowing through the through hole 50 into the space portion 12 of the roller body (10).

The valves 52 and 54 have a structure in which one end is fixed to both ends of the roller body 10, and the other end, except for one end, is in close contact with the through hole 50 so as to open the through hole 50 by the flipping operation. It is.

To this end, the valves 52 and 54 are made of a material whose other end can be flipped based on one end by the centrifugal force generated when the roller body 10 rotates and the pressure of air flowing into and out of the space 12. Rubber for example).

Here, the valves 52 and 54 are referred to as the first valve 52 disposed at one end of the roller body 10 and the second valve 54 disposed at the other end of the roller body 10.

The valves 52 and 54 are arranged to induce a one-way flow of air when the roller body 10 rotates, and the first valve 52 is attached to the inner side of the end of the roller body 10, and vice versa. 54 is attached to the outer side surface of the end of the roller main body 10, and has a function of a check valve.

That is, in the valves 52 and 54, the first valve 52 has a function of an intake valve, and the second valve 54 has a function of an exhaust valve.

More preferably, the air circulation means further includes an impeller 60 disposed on the inner circumferential surface of the roller body 10 and composed of a plurality of blades.

This is to increase the circulation efficiency of the air by inducing the flow of external air introduced into the impeller 60 disposed in the space 12 during the rotation of the roller body 10 in one direction.

Reference numeral 65 denotes a fixture for fixing the impeller to the inner circumferential surface of the roller body 10.

The operation of the present invention having such a configuration will now be described.

In the roller structure according to the present invention, when the roller body 10 rotates, through the air hole 50 formed at one end portion, outside air flows into the space 12, and the air hole 50 formed at the other end portion through the impeller 60. Is discharged to outside again.

The outside air circulated through the space 12 of the roller body 10 has a function of absorbing and cooling heat around the bearing 30 according to the flow thereof.

At this time, the outside air is bent through the other end of the first valve 52 in the process of flowing into the space 12 through the through hole 50 formed at one end of the roller body 10 based on one end of the through hole ( 50 is opened and guided to the other side of the roller body 10 while passing through the impeller 60, and then discharged to the outside while passing through the through hole 50 formed at the other end of the roller body 10.

The second valve 54 opens the through hole 50 while the other end is flipped down by the pressure from which the outside air is discharged to the outside to discharge the outside air.

The impeller 60 is interlocked and rotated as the roller body 10 rotates to guide the air flow in the space 12 in one direction and has a function of doubling the air flow.

Accordingly, as the outside air is circulated to the outside through the space 12 during the rotation of the roller body 10, the bearings 30 disposed on both sides of the roller body 10 are cooled to prevent deterioration. .

On the other hand, the first and second valves (52, 54) when the roller is not rotated by closing the other end blocking the through hole 50, thereby performing a function to block the foreign matter.

1 is a schematic view showing a roller structure according to the present invention.

2 is a side view of FIG. 1;

Figure 3a, 3b is a schematic diagram showing a coupling structure of the first and second valves of the present invention.

4 is a state diagram used in the present invention.

Explanation of symbols on the main parts of the drawings

10 roller body 12 space part

20: roller shaft 30: bearing

50: through hole 52, 54: valve

60 impeller

Claims (4)

The roller main body 10 is rotatably coupled to the roller shaft 20, and bearings 30 are interposed between the end portions of the roller main body 10, and external air is rotated when the roller main body 10 rotates. Is provided with air circulation means formed in the through hole 50 at both ends of the roller body 10 to circulate the inside, The air circulation means further comprises a valve (52, 54) disposed on the rim portion of the through holes 50 to open the through holes 50 only when the roller body 10 is rotated. . delete The method according to claim 1, The valves 52 and 54 have a structure in which one end is fixed to both ends of the roller body 10, and the other end except the one end is in close contact with the through hole 50 to enable the folding operation. Roller structure. The method according to claim 1 or 3, The air circulation means further comprises an impeller (60) disposed on the inner circumferential surface of the roller body (10) and composed of a plurality of blades.

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