DE2557567B1 - CARRYING ROLLER FOR ROLLER TRACKS - Google Patents

Description

The invention relates to a support roller for roller conveyors, consisting of a support roller shell with to the Front ends arranged, provided with a central bore support roller floors, through which one with Sprocket-equipped idler shaft engages through it, the sprocket by means of a drive chain drivable and the driving force can be transmitted via a slip clutch.

Support rollers for roller conveyors are generally with fixed axes and within the support roller shell horizontal bearings built In the case of driven rollers of a roller conveyor, the driving force is known to feed the individual rollers via a serial chain drive, which in turn is driven by a central motor It is between a driven, loosely seated sprocket on the fixed axle and the This adjacent roller bottom a slip clutch is arranged, the frictional connection manually is adjustable When setting the drive torque, the sprocket is locked by means of screw nuts axially on the fixed axis more or less firmly shifted against the slip clutch to the required surface pressure of the slip clutch

lages against the support roller base and against the chain wheel. Doing so is for carriage Heavy goods have a relatively large drive torque and for the transport of light goods a relatively small drive torque on the slip clutch due to a corresponding change the effective axial force. The setting of the drive torque is usually done so that the preload is increased until the support rollers continue to transport goods that are lying on top and no longer slip through. As a rule, a higher drive torque than for the Transport of the goods required set, which leads to the fact that the roles are on the roller conveyor jammed transport goods instead of stopping, continue to rotate and thus damage the Bring the goods to be transported. Setting the required drive torque is extremely time-consuming. and labor-intensive, since the slip clutch of each support roller of a roller conveyor has to be adjusted individually The known support rollers with slip clutch are particularly disadvantageous when they are used to transport Goods of different weights are used. In this case, the drive torque must be appropriate the weight of the heavier goods to be transported in order to be able to transport them, what but inevitably leads to the fact that the support rollers on which are light in a transport jam Transport goods are located, turn further and damage these transport goods.

The invention is based on the object of providing a support roller equipped with a slip clutch for To create roller conveyors that are easy and economical to manufacture that do not require adjustment of the drive torque and which stops its conveying movement when light or heavy goods are stowed.

This object is based on a support roller for roller conveyors of the type mentioned according to the invention solved in that the support roller axle at its free end bearing housing with roller bearings carries, the sprocket firmly between one of the bearing housing and a support roller base on the The idler axle is seated and the slip clutch consists of at least one annular friction body, which connects the support roller axis with the support roller bases By this embodiment according to the invention a support roller, the drive torque is advantageously regulated completely automatically, namely due to the weight of the goods being transported on the conveyor roller. Of special The advantage is that the transport roller needs only one sprocket to drive and that the The carrier roller is nevertheless taken along at both of its end areas by means of a drive chain coupled sprocket is the idler axle of a idler roller when a roller conveyor is in operation Rotation is offset as a result of the dead weight of the conveyor roller casing with the conveyor roller bases The rotation is transmitted through the ring-shaped friction body to the conveyor roller shell. With increasing The weight of the goods to be transported is the contact pressure of the support roller bases on the ring-shaped friction body and proportional thereto the frictional force between the support roller bases and the annular friction body sizes This means that the time-consuming and costly setting of the required target torque is no longer necessary Completely.

Each support roller base can advantageously be made from a deep-drawn sheet metal part with a bearing seat for consist of an annular friction body. The bearing seat advantageously has a cup-shaped one Training with a central through opening in the cup base for the idler axle. Through the cup-shaped design, the support roller bases receive sufficient stiffening, so that they are relatively thin Starting material can be used. There is also a relatively large friction surface for the achieved annular friction body.

It is preferably also provided that the annular friction bodies engage in the annular opening between the support roller axis and the bowl wall. Alternatively, the ring-shaped friction bodies seated on the drive axle can also encompass the outer cup wall with an enlarged stepped bore. In both cases, sufficiently large contact and friction surfaces between the ring-shaped friction bodies and the cup-shaped bearing seats of the support roller bases are ensured and the support roller casing is precisely centered on the support roller axis.
It is particularly advantageous that the ring-shaped friction bodies are seated in a torsion-proof manner on the carrier roller axis, the carrier roller axis having a preferably hexagonal cross-sectional profile at least in the receiving area of the ring-shaped friction body and the ring-shaped friction body having a through opening corresponding to this profile. Thus there is a slip-free entrainment for the annular friction bodies and the drive torque can only be applied by the surface friction between the annular friction bodies and the deep-drawn bearing seats of the support roller bases.

A particularly useful embodiment of the invention is characterized in that between the adjacent surfaces of the annular friction body and the bearing seats of the support roller base there is a play of 0.1 to 0.4, preferably 0.2 mm. On the one hand, this game makes the Production of a conveyor roller simplified because no tight tolerances are required and on the other hand nevertheless a sufficient contact surface between the bearing seats and the annular friction bodies ensured, the contact area of the difference between the diameters of the bearing It has been found to be particularly dependent on the areas of the annular friction body and the bearing seat proven to be useful that the annular frictional

^: body according to the invention has a coefficient of friction of 0.35 to 0.80 compared to the bearing seat material that

. in particular may consist of steel, because as a result, a frictional force is generated that is large enough on the one hand to transport goods and on the other hand is not so large that the idler roller continues to rotate when the conveyor jams

Furthermore, it has proven advantageous that the ratio of the lever arms between the radius of the annular friction body to the radius of the supporting roll shell from 0.8 to 2.5, preferably 1: 2.23, is. In a further embodiment of the invention it is provided that the annular friction bodies consist entirely or partially of plastic, the plastic preferably being polyacetal (POM) or a copolymer of polyformaldehyde

Support rollers is increased significantly. The annular friction bodies can alternatively according to the invention also consist entirely or partially of a known brake lining material, for example Jurit, it is expedient that the annular friction body only consists of a friction lining own this extremely resistant material.

In a further structural embodiment of the invention it can be provided that the ring-shaped friction bodies are supported at one end by retaining rings _{arranged on the support roller axis! 0} and at the other end by the bottoms of the cup-shaped bearing seats of the support roller bases, the latter being positively and positively connected to the latter by indentations at the end of the support roller jacket are. By _{! 3} this simple measure, an axial fixation of the support roller jacket on the support roller axis is given. Henceforth may be provided according to the invention, that the bearing housings for the bearings are loosely fitted on the ends of the support roller axis and the support roller ^ ₀ axis has at its ends lathed pin for receiving the rolling bearings. According to the invention, the bearing housings for the roller bearings can also have an integrally formed flange for screwing or welding connection of the support roller to the longitudinal spars of a conveyor track.

The advantages achieved with the invention are essentially that the slip clutch engages the two end regions of the support roller and thus effects an optimal distribution of the frictional forces acts on the friction surfaces of the slip clutch. This in turn has the particular advantage that the respective target torque regulates itself automatically without any manual setting. The conveyor roller according to the invention further has a high durability and is characterized by a low manufacturing cost and simple assembly because only a ^ ₀ plugging together of the supporting roller items is required for assembly.

The subject matter of the invention is explained below using an exemplary embodiment shown in the drawing explained in more detail.

The drawing shows a longitudinal section through one between the longitudinal bars of a support roller frame arranged conveyor roller. This consists of a support roller axle 1, a support roller jacket 2, on the end connected support roller floors 3 and a slip clutch, which consists of two, the support roller axis 1 with the support roller bases 3 interconnecting annular friction bodies 4 is formed.

At its free end regions, the idler axle carries bearing housings 5 pushed onto it, as well as roller bearings 6, which sit on turned pins 7 at the ends of idler axle 1. The bearing housings 5 have an integrally formed flange 8 for fastening, preferably by screwing, to the longitudinal spars 9 of a support roller frame, which in the exemplary embodiment shown have a C-profile. Tongues 10 are punched out and bent down from the longitudinal spars 9 with a C-profile, which serve as supports for the bearing housing.

The support roller axle 1 has end regions 11 with a hexagonal cross-sectional profile. On this Profile are the annular friction bodies 4, which have a corresponding central through opening, pushed on and supported by retaining rings 12. The ring-shaped friction bodies are frictionally engaged with the support roller bases 3 in engagement. The support roller floors 3 have a cup-shaped Basic training with walls 13 which run parallel to the support roller shell 2 in the starting position. From the Cup profile bottoms 14 are each a cup profile-shaped bearing seat 15 for the annular friction body 4 in the Deep-drawing process worked out, the open side of which faces the inside of the support roller. The bottom 16 of the cup-shaped Bearing seats 15 has a punched-out opening 17 for the passage of the support roller axis 1. Through a annular indentation 18, the support roller bottoms 3 receive a resilience.

During assembly, the annular friction bodies are against the retaining rings 12 on the support roller axis

1 postponed. Then the support roller bases 3 are pushed on and with the support roller casing 2 through simply pressing in the end areas of the support roller casing positively and non-positively connected to it. The annular friction body 4 thus have in the annular receiving opening between Support roller axis 1 and the bearing seat 15. Between the bearing seat 15 and the jacket of the annular Friction body can have a play of preferably

2 mm exist. On the right-hand side of the drawing there is an annular friction body with dash-dotted lines 4 'is indicated, which is provided with an enlarged stepped bore and the cup-shaped bearing seat 15 the support roller base engages around the outside In this case, the support is provided by the annular friction body 4 'to be provided by a retaining ring 18 seated on the outside.

Between a bearing housing 5 and a support roller base 3 sits a sprocket 19 on the support roller axis, the sprocket having a hexagonal shape, the cross-sectional profile of the idler axis in area 11 The sprocket 19 is in engagement with a chain 20, which is on a Plastic profile strip 21 is guided and driven by a motor, not shown. The plastic strip 21 is supported by an angle iron 22 attached to a longitudinal spar 9 of the support roller frame

When driving the chain 20, the sprocket 19 and above this the support roller axis with the annular Friction bodies 4 set in rotation Since the support roller bases 3 on the annular friction bodies 4 rest, becomes a force due to its own weight and the weight of the support roller jacket 2 exercised, which acts perpendicular to the axis of rotation on the annular friction body 4 The thereby resulting tangential frictional forces are sufficiently large to affect the rotational movement Transfer roller casing. When the goods to be transported are lying on the support rollers, the contact pressure increases and proportional thereto the frictional force of the annular friction bodies 4,4 '. The ratio of the Lever arm Hi between the center of the roller axis 1 and the outer diameter of the annular friction body 4 to the lever arm H2 between the middle of the support roller axis 1 and the support roller jacket 2 is preferably 1: 2.23. Thus, in the case of relatively large support rollers, there are relatively large friction bodies and in the case of small ones in diameter Carrying rollers provide small friction bodies.

1 sheet of drawings

Claims (18)

Patent claims: 1. Support roller for roller conveyors, consisting of a support roller shell with at the front ends arranged with central bore provided S support roller floors, through which one with chain wheel equipped idler shaft engages through it, the sprocket being drivable by means of a drive chain and the drive force can be transmitted to the idler roller via a slip clutch, which means that it is ίο indicates that the idler shaft (1) has bearing housing (5) at its free end regions Rolling bearings (6) carries the sprocket (19) fixed between a bearing housing (5) and a Support roller base (3) sits on the support roller axle (1) and the slip clutch consists of at least one ring-shaped friction body (4,4 ') consists of the support roller axis (1) with a support roller base (3) connects. 2. Support roller according to claim 1, characterized in that that each support roller base (3) consists of a deep-drawn sheet metal stamping part with a bearing seat (15) for an annular friction body (4). 3. Support roller according to claim 1 or 2, characterized in that the bearing seat (15) has a cup-shaped Training with a central through hole (17) in the cup base (16) for the idler axle (1) owns. 4. Support roller according to one or more of claims 1 to 3, characterized in that the annular friction body (4) in the annular opening between the support roller axis (1) and Engage the bowl wall. 5. Support roller according to one or more of claims 1 to 3, characterized in that the on the drive shaft (1) seated annular friction body (4 ') with an enlarged stepped bore grip around the outer wall of the bowl. 6. Support roller according to one or more of claims 1 to 5, characterized in that the ring-shaped friction body (4,4 ') sit on the idler axle (1) so that they cannot rotate. 7. Support roller according to one or more of claims 1 to 6, characterized in that the Support roller axis (1) at least in the receiving area of the annular friction body (4,4 ') preferably hexagonal cross-sectional profile and the annular friction body (4, 4 ') one this Have a corresponding passage opening. 8. Support roller according to one or more of claims 1 to 7, characterized in that between the adjacent surfaces of the annular friction bodies (4, 4 ') and the Bearing seats (15) of the support roller bases (3) have a play of 0.1 to 0.4, preferably 0.2 mm. 9. Support roller according to one or more of claims 1 to 8, characterized in that the annular friction body (4,4 ') has a coefficient of friction of 0.35 to 0.80 compared to the Own bearing seat material. 10. Support roller according to one or more of claims 1 to 9, characterized in that the Ratio of the lever arms between the radius of the annular friction body to the radius of the Support roller jacket from 0.8 to 2.5, preferably 1: 23 11. Conveyor roller after one or more of the Claims 1 to 10, characterized in that the annular friction body (4, 4 ') wholly or partly made of plastic. 12. Carrying roller according to claim 11, characterized in that that the plastic is polyacetal (POM) or a copolymer of polyformaldehyde is. 13. Support roller according to one or more of claims 1 to 10, characterized in that the annular friction body (4, 4 ') wholly or partially made of a brake lining known per se, z. B. Jurit exist. 14. Support roller according to one or more of claims 1 to 13, characterized in that the annular friction body (4,4 ') have a friction lining on Jurit. 15. Support roller according to one or more of claims 11 to 14, characterized in that the bearing seats (15) are made of metal, preferably steel. 16. Support roller according to one or more of claims 1 to 15, characterized in that the annular friction body (4, 4 ') at one end of retaining rings arranged on the support roller axis (1) (12) and at the other end of the bases (16) of the cup-shaped bearing seats (15) of the support roller bases (3) are supported, the latter being supported by the end-side indentations of the support roller jacket with this are non-positively and positively connected. 17. Support roller according to one or more of claims 1 to 16, characterized in that the Bearing housing (5) for the roller bearings (6) are loosely attached to the ends of the roller axle (1) and the support roller axle (1) has turned pins (7) at its ends to accommodate the roller bearings (6) 18. Support roller according to one or more of claims 1 to 17, characterized in that the Bearing housing (5) for the roller bearings (6) an integrally formed flange (8) for screwing Have the support roller connected to the longitudinal spars (9) of a conveyor track.