DE102010005474A1 - Conveyor for conveying e.g. materials, along conveying path, has rollers arranged along conveying path, where surface areas of rollers are provided with varying coefficients of friction along rotating axis - Google Patents

Abstract

The conveyor (1) has rollers (3) arranged along the conveying path, where rotating axis (2) of the rollers is arranged transverse to the conveying path, where surface areas (5) of the rollers are provided with varying coefficients of friction (Rk, Rk1, Rk2) along the rotating axis. Materials (4) to be conveyed are directly transported by the rollers, and coefficients of friction at edge areas (6, 7) of the rollers are higher than at a central portion (8) of the rollers. The coefficients of friction are adjusted by a surface area patterning of the rollers.

Description

Field of the invention

The invention relates to a conveying device for conveying conveyed material along a conveying path with a plurality of rollers arranged along the conveying path and arranged with its axis of rotation substantially transverse to the conveying path.

Background of the invention

Such conveyors are used for the transverse displacement of conveyed such as discrete items such as workpieces, glass, Waver, chip products, packages and the like, rolled products such as rolled steels, viscous masses such as food, mortar, plastic materials and the like along a predetermined conveyor line. In this case, depending on the nature of the conveyed material, rollers which are rotatable around one another about an axis of rotation are arranged at a distance from one another along the conveying path, their axes of rotation being arranged essentially transversely to the conveying path. In this case, at least one roller can be driven. Depending on the type of material to be conveyed, for example in the case of objects which occasionally overlap a plurality of rollers, the transport can take place directly by displacing the latter by means of a transfer along the rollers. If the objects are small relative to the roller spacing or if a low-viscous mass is to be transported, an endless conveyor belt can be provided between the rollers and the material to be conveyed, which wraps around the first and the last roller and is moved on the rollers.

In order to position the conveyed material or the conveyor belt in the desired manner on the rollers, for example to center them centrally, the rollers may be conical, double-conical or formed in a similar manner along their axis of rotation. The DE 10 2006 040 883 A1 shows roles with appropriately trained cross-section. The loads acting on the roller are unequal along their axis of rotation, so that increased wear can occur. Alternatively, to limit the conveyed to the extent of the conveyed or the conveyor belt to the axial length of the rollers side shelters proposed. These cause an increased parts cost of the conveyor.

Object of the invention

The object of the invention is the development of a conveyor, in particular for simplifying and improving the positioning and centering of the conveyed or conveyor belt on the rollers.

Description of the invention

The object is achieved by a conveying device for conveying conveyed material along a conveying path with a plurality of rollers arranged along the conveying path and arranged with its axis of rotation substantially transverse to the conveying path, the surfaces of the rollers being provided with a varying coefficient of friction along their axis of rotation.

The positioning and possibly centering of conveyed or a conveyor belt according to the invention is determined by the surface properties of the rollers and not by their geometric cross-sectional shape so that a simple roll geometry of the rollers can be selected. It is understood that to achieve special properties, a variation of the geometric cross section of the rollers along its axis of rotation is not excluded. Due to the cylindrical design of the rollers a more uniform distribution of force is achieved, whereby the rollers, their storage and optionally drive are less stressed and thus less susceptible to wear.

It can be provided conveyors in which the conveyed material is transported directly from the rollers or in which an endless, the conveyed receiving conveyor belt is displaced along the conveying path of the rollers. In both cases, formed between the rollers and their varying coefficients of friction over the axis of rotation of the roller, so axially variable liability. Here, in one case the conveyed and in the other case the conveyor belt friction partner for the roles.

By adjusting a along the axis of rotation of the roller so axially varying coefficient of friction a positioning effect is achieved, which is effected by a on the surface areas with increased friction coefficient by means of a stronger frictional force and thus stronger adhesion, so that the coming into contact with these friction partners - conveyed or Conveyor belt - is pulled stronger at these surface areas.

For example, a centering effect on the friction partner can be achieved if the friction coefficient at the two edge regions of the rollers is higher than at a central region lying between them. An advantageous positioning of a friction partner, for example, isolated Fördergut, takes place at one of the two edge regions of the rollers along the conveyor line, when along the axis of rotation, a coefficient of friction is set, which is higher at one of the edge regions of the rollers than at the other and decreases along the axis of rotation , For example, objects, such as sheet metal parts with different Surface structure, along the conveying path over the axial extent of the conveyor, so are sorted transversely to the conveyor line, which differ in their friction from each other, so that at least a rough separation due to the quality of the objects can be done.

The device for varying the coefficient of friction across the axial extent of the rollers along the axis of rotation may be provided continuously, for example by a variation of the coefficient of friction along the axis of rotation being constant, whereby a linear or wavy change may be provided. Alternatively, the coefficients of friction can be stepped, for example set in the form of a jump function, wherein in the simplest case several zones or areas with different coefficients of friction are set.

The varying coefficients of friction can be adjusted by means of coatings of the surface of the rollers varying along the axis of rotation. Here, the type of coating or its density on the surface can be changed. The coatings can thereby increase or decrease the coefficient of friction of the original surface, for example steel. For example, in the central region of the rollers friction reducing materials can be applied, for example fluorohydrocarbon polymers such as PTFE, PVDF and the like, lubricants such as molybdenum sulfide (MoS ₂ ), organic lubricants such as resins and the like. Alternatively, for example, the edge regions of the rollers may be coated with friction linings. It is understood that when using a conveyor belt alternatively or additionally, the conveyor belt may be coated or treated with lubricant, so that overall the coefficient of friction decreases to the surface areas accordingly contacted by the thus treated conveyor belt.

As an alternative or in addition to a coating, the surface for changing the coefficient of friction along the axis of rotation of the rollers may be provided with a surface structuring varying along the axis of rotation. Such a surface structuring can be achieved microscopically, for example, by a surface roughness, for example a correspondingly varying roughness depth or macroscopically, for example by embossing or grinding in a macroscopic surface structure.

Alternatively or additionally, a surface provided for contacting the friction partner - material to be conveyed or conveyor belt - may be set varying with respect to their contact surface along the axis of rotation. By this is meant that contact surface portions of the roll vary along the axis of rotation so that greater adhesion is achieved with larger contact area. For this purpose, the surfaces of the rollers along the axis of rotation may have varying recesses which do not contact the friction partner and thereby build up no friction therewith. As a result, decreases in recessed areas with surface areas of the average friction coefficient.

Brief description of the drawings

The invention is based on the in the 1 to 3 illustrated embodiments explained in more detail. Showing:

1 a cross section through a conveyor with a stepped change of the friction coefficient and a middle region with a lower coefficient of friction than in the edge regions,

2 a cross section through a conveyor with continuously adjusted transition from edge regions with large on a central region with lower coefficients of friction
and

3 a cross section through a conveyor with a decreasing coefficient of friction from one edge region to another.

Detailed description of the drawings

1 schematically shows the structure of the conveyor 1 in cross-section with the course of the coefficient of friction Rk shown below against the axial length s of the about the axis of rotation 2 rotatable roller 3 , The conveyor 1 consists of several consecutively arranged along the conveyor line, recorded on a frame, not shown, rollers 3 , which are at least partially driven by motors and thus the conveyed 4 move along the conveyor line. This is a frictional contact between the surfaces 5 the roles 3 built up. About the length s of the rolls 3 along the axis of rotation 2 is the surface 5 provided with varying coefficients of friction Rk, which are step-shaped. In this case, the edge areas 6 . 7 The roller over its axial length in each case a constant friction coefficient Rk1, in the central region 8th between the border areas 6 . 7 falls to the smaller coefficient of friction Rk2.

Due to the stronger pull of the rollers 3 at the edge areas 6 . 7 due to the higher friction at the edge areas 6 . 7 occurs opposite the conveyed goods 4 a Zentrierungseffekt on which the conveyed 4 For example, rolled with the same width sheet metal parts, in the central area 8th stops and one Dodge the conveyed material 4 over the border areas 6 . 7 prevented.

In contrast to the conveyor 1 of the 1 shows the conveyor 1a of the 2 a continuous course of the friction coefficient Rk of the surface 5a the role 3a along the axial length s of the roll 3a , It starts in the edge areas 6a . 7a the coefficient of friction Rk with the coefficients of friction Rk1, the two sides continuous over the length s to the lowest coefficient of friction Rk2 in the central region 8a run.

The conveyor 1a allows, for example, a centering of the conveyed 4a , which is formed from isolated parts of different widths, for example, varying in width, rolled sheet metal plates.

The 3 schematically shows the conveyor 1b in cross section, in contrast to the rollers 3 . 3a of the 1 and 2 roll 3b contains, their surface 5b contains a friction coefficient Rk, along the axis of rotation 2 over the length s from the first edge region 6b falls continuously to the second edge region. Such with respect to their coefficient of friction asymmetric role 3b allows the separation of conveyed goods 4b depending on its coefficient of friction along the conveying path of the conveyor 1b , Due to the varying coefficient of friction Rk of the individual successive roles 3b along its axis of rotation 2 become the isolated conveyor parts 9 . 10 not only along the conveyor line moves but sorted depending on the friction occurring along the length s. The conveyor parts 9 with the smaller coefficient of friction, essentially so the smoother conveyor parts 9 , are located at the end of the conveyor line preferably in the edge region 6b with the larger friction coefficient Rk1, the rougher conveyor parts 10 at the edge 7b with the smaller coefficient of friction Rk2.

LIST OF REFERENCE NUMBERS

1

Conveyor

1a

Conveyor

1b

Conveyor

2

axis of rotation

3

role

3a

role

3b

role

4

conveyed

4a

conveyed

4b

conveyed

5

surface

5a

surface

5b

surface

6

border area

6a

border area

6b

border area

7

border area

7a

border area

7b

border area

8th

central area

8a

central area

9

conveying part

10

conveying part

Rk

Coefficient of friction

RK1

Coefficient of friction

Rk2

Coefficient of friction

s

length

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 102006040883 A1 [0003]

Claims (10)

Conveyor ( 1 . 1a . 1b ) for conveying conveyed goods ( 4 . 4a . 4b ) along a conveying path with a plurality of along the conveying path and arranged with its axis of rotation ( 2 ) arranged substantially transversely to the conveyor track rollers ( 3 . 3a . 3b ), characterized in that the surfaces ( 5 . 5a . 5b ) of the roles ( 3 . 3a . 3b ) along its axis of rotation ( 2 ) are provided with a varying coefficient of friction (Rk, Rk1, Rk2). Conveyor ( 1 . 1a . 1b ) according to claim 1, characterized in that the conveyed ( 4 . 4a . 4b ) from the roles ( 3 . 3a . 3b ) is transported directly. Conveying device according to claim 2, characterized in that of the rollers an endless, the conveyed receiving conveyor belt is displaced along the conveying path. Conveyor ( 1 . 1a ) according to one of claims 1 to 3, characterized in that the friction coefficient (Rk1) at edge regions ( 6 . 6a . 7 . 7a ) of the roles ( 3 . 3a ) higher than at a central area between them ( 8th . 8a ). Conveyor ( 1b ) according to one of claims 1 to 3, characterized in that the friction coefficient (Rk1) at one of the edge regions ( 6b ) of the roles ( 3b ) is higher than at the other and along the axis of rotation ( 2 ) decreases. Conveyor ( 1 . 1b ) according to claim 4 or 5, characterized in that the course of the friction coefficient (Rk) along the axis of rotation ( 2 ) is continuous. Conveyor ( 1 ) according to claim 4 or 5, characterized in that the course of the friction coefficient (Rk) along the axis of rotation ( 2 ) contains at least one stage. Conveyor ( 1 . 1a . 1b ) according to one of claims 1 to 7, characterized in that the friction coefficient (Rk) along the axis of rotation ( 2 ) by means of a varying coating of the surface ( 5 . 5a . 5b ) of the roles ( 3 . 3a . 3b ) is set. Conveyor ( 1 . 1a . 1b ) according to one of claims 1 to 8, characterized in that the friction coefficient (Rk) by means of a along the axis of rotation ( 2 ) varying surface structuring of the roll ( 3 . 3a . 3b ) is set. Conveying device according to one of claims 1 to 9, characterized in that a provided for contacting the conveyed surface is adjusted with respect to their contact surface along the axis of rotation varying.

Images