DE9308409U1 - Stand roller, in particular for use in a sorting machine - Google Patents

Description

53 EN 219

Description

Standing roller,' especially for use in a

Sorting machine

The invention relates to a stationary roller, in particular for use in a sorting machine, with a fixed axle and a rolling body as well as ball bearings between the fixed axle and the rolling body.

Sorting machines use freely rotating stationary rollers that are driven by the material being sorted and are subject to heavy loads. The rollers rotate around a stationary axis using ball bearings. A stationary roller is known in which two ball bearings are used, with each of the two ball bearings being assigned a locking ring (circlip) that is positively guided on the inner surface of the rolling body to secure its position. Each locking ring sits in an annular groove provided on the inner surface of the rolling body.

The disadvantage of this positional locking of the ball bearings is both the complex manufacturing of the rolling element, because the ring grooves have to be created using a specially shaped turning tool, and the complex assembly, because the insertion of the locking rings requires a precise procedure. Greater attention is required during assembly to ensure that each locking ring really sits in the ring groove intended for it all the way around.

53 EN 219 2

Because the stationary rollers in sorting machines are subject to high levels of stress, the rollers of conventional stationary rollers are nickel-plated. Nickel plating is usually done by electrolytic or chemical deposition in a galvanizing process. This process has the disadvantage that galvanizing baths require very complex measures to avoid environmental pollution, and it also leads to later disposal problems for the worn stationary rollers when they have to be replaced with new ones.

The invention is based on the object of creating a standing roller that is easier to manufacture and easier to assemble than known rollers while avoiding environmental problems

According to the invention, the object is achieved by the features listed in claim 1.

The invention has the advantage over the known that the rolling body of the new standing roller is easier to manufacture. The standing roller consists of fewer individual parts than the known roller. The assembly of the new standing roller is easier and requires less precision than with the known roller. The material used for the new standing roller does not cause any problems either in the manufacture of the rolling body or in the disposal of the standing roller.

Further advantageous embodiments of the invention emerge from the subclaims and the following description.

The invention is explained using an embodiment based on a drawing. It shows a longitudinal section through the standing roller according to the invention.

The standing roller 1 essentially comprises a fixed, stationary axle 2 with a base part 15, ball bearings 3, 4 and a rolling body 5.

53 EN 219

The outer surface 6 of the rolling body 5 is barrel-shaped in a manner known per se.

The inner surface 9 of the rolling element 5 is provided with a circumferential ring shoulder 10 protruding from the inner surface 9. Its lateral flanks serve to accommodate a first ball bearing 3 and a second ball bearing 4.

The axle 2 is essentially tubular and has a central, axially extending bore 12 that extends over the entire length of the axle 2. At its free end, which faces away from the base part 15 of the axle 2, the bore is designed as a hexagon socket 13. From its base part 15, an internal thread 14 is let into the bore 12 of the axle 2.

When the stationary roller 1 is assembled, the first ball bearing 3 rests on one side flank of the ring shoulder 10, while the second ball bearing 4 rests on the other side flank of the ring shoulder 10.

To produce the inner surface 9 of the rolling element 5, the circumferential annular shoulder 10 is formed by turning it out of the material of the rolling element. The seats for the ball bearings 3, 4 are produced using a rolling process.

The assembly of the stationary roller 1 is carried out without special tools by hand or by robot action simply by first pressing the first ball bearing 3 and the second ball bearing 4 into the rolling body from both sides of the ring shoulder 10 and then securing them there.

The axle 2 is then pushed through the ball bearings 3, 4 until a ring shoulder 11 on the foot part 15 of the axle 2 rests against the second ball bearing 4. A compression spring 8 is then placed on the free end of the axle 2 -

53 EN 219 4

Example of a disc compression spring - pushed on and then a locking ring 7 is inserted into a corresponding groove on the axis 2 while compressing the compression spring 8.

On the one hand, the annular shoulder 11 on the base part 15 of the axle 2 and, on the other hand, the compression spring 8 in conjunction with the locking ring 7 ensure the axial securing of the axle relative to the ball bearings 3, 4 and thus relative to the rolling element 5.

Conveniently, the rolling element 5 is made of stainless steel.

According to one embodiment of the invention, the rolling body 5 is made of a nitridable material.

According to a further embodiment of the invention, the rolling body 5 is nitrocarburized. This achieves very high surface hardness and optimal corrosion protection.

The axle 2 is preferably made of stainless steel.

According to one embodiment of the invention, the axis 2 is made of a nitridable material.

According to a further embodiment of the invention, the axle 2 is nitrocarburized. This also results in very high surface hardness and optimal corrosion protection for the axle 2.

Claims (10)

53 DE 219 Claims 1. Stationary roller, in particular for use in a sorting machine, with a fixed axle and a rolling body as well as ball bearings between the fixed axle and the rolling body, characterized in that the inner circumferential surface (9) of the rolling body (5) has a circumferential annular shoulder (10) protruding from the inner circumferential surface (9) for the application of a ball bearing (3, 4) on both sides. 2. Standing roller according to claim 1, characterized in that the axle (2) is essentially tubular and has a central, axially extending bore (12) extending over the entire longitudinal extent of the axle (2). 3. Standing roller according to one of claims 1 or 2, characterized in that the axle (2) has a hexagon socket (13) at one end. 4. Standing roller according to claim 3, characterized in that an internal thread (14) is embedded in the bore (12) at the end of the axle (2) facing away from the hexagon socket (13). 5. Standing roller according to one of claims 1 to 4, characterized in that the rolling body (5) is made of stainless steel. 6. Stand roller according to one of claims 1 to 5, characterized in that the rolling body (5) consists of a nitridable material. 7. Stand roller according to one of claims 1 to 6, characterized in that the rolling body (5) is nitrocarburized. 53 EN 219 6 8. Standing roller according to one of claims 1 to 7, characterized in that the axle (2) is made of stainless steel. 9. Stand roller according to one of claims 1 to 8, characterized in that the axle (2) consists of a nitridable material. 10. Stand roller according to one of claims 1 to 9, characterized in that the axle (2) is nitrocarburized.