SUPPORT SYSTEM FOR GOODS CONVEYOR BELTS

Abstract

A support system (10) for goods conveyor belts includes a supporting frame and conveyor (30) fixed to the supporting frame and designed for defining a curved path upon which goods are handled. The support system (10) has a plurality of connection brackets (23) among the supporting frame and the conveyor (30).

Description

This application claims benefit of Serial No. TO 2009 A 001031, filed 23 Dec. 2009 in Italy and which application is incorporated herein by reference. To the extent appropriate, a claim of priority is made to the above disclosed application.

BACKGROUND OF THE INVENTION

The present invention relates to the field of devices for conveying goods of small size and in particular relates to a support system for goods conveyor belt.

It is known that goods of small size are usually conveyed on goods conveyor means which comprise conveyor belts which are moved along fixed guides.

Furthermore, it is known that where these conveyor belts are curved, supporting frames whose size varies according to the radius of curvature are used.

As it is shown in FIG. 1, support systems 1 of known kind for goods conveyor belts comprise a metal frame 1 which is shaped with a peripheral portion defining a circumferential arch having radius R, to which are fixed goods conveyors 2, substantially orthogonally oriented for their height 2h with respect to the plane on which lies the above-said metal frame 1.

Conveyor 2 is fixed to metal frame 1 by means of locking screws arranged around the perimeter within holes made on an external border of the frame itself.

The metal frame is equipped with at least a passing holes 3, centered on the center of the circumferential arch having radius R, adapted to permit the positioning of a rotating shaft 4, operated for example by an electric motor, which is pivoted on one or more rotating discs 5, upon which it is then positioned the goods to be conveyed.

While goods conveyor 2 is positioned on an external part of the support system curve, in the internal part of the curve itself is instead positioned a protection case 6, which purpose is to prevent from accidents to people who unwary enter into contact with discs 5 or with other moving parts of the support system. Rotating discs 5 are then moved by lying them upon supporting and/or locking rings 7, which purpose is for example to insulate discs 5 from the non-moving parts, thus realizing a low friction.

However, support systems of the known kind have some disadvantages: in particular, depending on the radius of curvature which the goods conveyor belt has to do, it is needed that metal frame 1 has size and shape such as to adapt to the different radii of curvature.

Therefore, a support systems manufacturer, in order to offer a range of products adapted to cover all the reasonable radii of curvature for a goods conveyor belt, has to provide for producing metal frames 1 in multiple size, with considerable costs linked to the design, production and storage of them.

SUMMARY OF THE INVENTION

The purpose of the present invention is then to describe a support system for goods conveyor belts which is free from the above described problems.

BRIEF DESCRIPTION OF THE PREFERRED EMBODIMENTS

The invention will be now described with reference to the attached drawings, which illustrate a non-limiting example m of embodiment, wherein:

FIG. 1 shows an exploded view of a part of a support system of known kind;

FIG. 2 shows an exploded view of a part of a support system for goods conveyor belts according to the present invention;

FIG. 3 shows an exploded view of a detail of part of FIG. 2.

DETAILED DESCRIPTION

With reference to FIG. 2, a support system for goods conveyor belts is generally indicated with 10.

Support system 10 comprises:

• • a plurality of angular elements 20 in metal material and positioned on respective planes staggered and parallel between them which have a substantially plane surface (possibly equipped with reinforcement ribs) having a central hole 20a and forming a supporting frame; and
  • conveying means 30, in particular a conveying bended beam, fixed to said angular elements 20 and which realize a curved path within which goods positioned on a rotating disc (not illustrated) are handled.

Conveying means 30 form a curved path having the shape of circumferential arch having radius R; this circumference has a center which corresponds to a pair of central holes 20a upon angular elements 20. Upon this path are developed the translations of goods positioned on the conveying belt.

Support system 10 comprises also a plurality of protection carters 50, adapted to prevent that a user unwary enters in contact with rotating parts of the system itself. Protection carters 50 have a first and a second ending upon which there are locking notches; these notches insert on respective vertical supporting surfaces of angular elements 20; then, through joint locking means 20b they provide for pushing and locking carters 50 against these supporting surfaces.

Each of angular elements 20 is provided of a guide 21 upon one of its ending designed to connect with a plurality of brackets 23 which separate and rigidly connect said conveying means 30 with said angular elements 20. In particular, guide 21 is a dovetail guide, oriented along a direction parallel to the plane upon which angular element 20 is positioned and substantially tangentially oriented with respect to the circumferential arch formed by conveying means 30.

Brackets 23 comprise a first and a second piece, identical between them, each of which has a substantially rectangular central surface 24, to which are put side by side a pair of symmetrical and parallel lateral wings 25. The two pieces of each bracket 23 are such that they can combine together in such a way as to lock on guide 21.

In particular, lateral wings 25 are positioned on a height staggered with respect to central surface 24 and each one has a first upper surface 25a and a second lower surface 25b. Upper surface 25a is plane whereas the lower one 25b has a section having a profile substantially equal to half of the section of guide 21. Therefore, half of the dovetail section of guide 21 is taken up—in hollow—on the first piece of bracket 23 and the other half (indeed, symmetrical) is instead taken up on the second piece of bracket 23.

The height difference among central surface 24 and lateral wings 25 is such that, when the two pieces of the bracket are coupled, the recess formed by surfaces 25a, 25b of lateral wings 25 has the same size and shape of the dovetail of guide 21 in a play-less way.

Furthermore, on central surface 24 is positioned a plurality of passing holes 28 adapted to permit the docking of the two pieces of bracket 23, preferably through bolts or screws 29. The passing holes 28 are aligned on a straight line.

A distance D between the two lateral wings 25 can be freely varied, thus realizing brackets 23 having higher or lower width.

The conveying curved beam has a first lateral surface 30a and a second lateral surface 30b opposed between them and respectively directed towards the internal and external side of the curve created by the conveying beam; the first lateral surface is too equipped with a guide 32 having a dovetail section, designed in such a way as to permit to couple with the recess created by lateral wings 25.

In particular, this beam has guide 32 positioned on the second lateral surface 30b (i.e. the internal one) in correspondence to half of height 30h of the beam itself.

Upon the first lateral surface 30a, there is instead an external guide 33 of interface with the conveyor and of accessories locking, positioned in correspondence of half of height 30h of the beam too, which develops upon a groove embedded into lateral surface 30a and which has a rectangular section.

The advantages of the support system for goods conveyor belts are known in the light of the previous description. In particular, it is flexible to the variation of the radius of curvature which can be found in the various models produced by a manufacturer, because with a single realization of supporting frame 10 it is possible to realize curved paths having different radius simply varying distance D between lateral wings 25 of brackets 23.

Therefore, in this way, most of the components comprised in the system object of the present invention can be realized in a unique shape and size (obviously except from the conveying means, which the greater is the path of the curve, inevitably the longer); the only components whose size varies for adapting to different radii R of curvature are precisely brackets 23.

Therefore, the system object of the present invention brings to huge advantages from the point of view of production cost containment.

Supporting frame 10 can be realized in a unique swage of a single dimension, which defines a minimal radius R of curvature; all the radii of curvature of the path of the conveyor belt which are to be obtained as bigger with respect to the previous minimum radius, will be easily obtainable using brackets 23 having lateral wings 25 positioned at a distance D proportionally higher.

Furthermore, the asymmetry of lateral wings 25 of brackets 23 is such that they do not have a unique mounting direction, but respectively, they can be indistinctly installed by orienting them upon one of lateral wings 25. Therefore, another advantage of the system according to the present invention is to lead to a greater mounting ease.

To the device up to here described can be applied some variant obvious for a person skilled in the art without departing from the protective scope of the attached claims.

Claims

1) Support system for goods conveyor belts, said system comprising: a supporting frame and conveying means; said conveying means being fixed to said supporting frame and being configured to define a curved path upon which goods are handled;a plurality of connection brackets among said supporting frame and said conveying means; said brackets presenting a width, said width being variable from bracket to bracket and defining curved paths of different amplitude.

2) System according to claim 1, said supporting frame comprising a plurality of angular elements having a guide designed for coupling with said brackets.

3) Support system according to claim 2, wherein said guide presents a profile having a dovetail section.

4) Support system according to claim 1, wherein said brackets comprise a first piece and a second piece identical to the first piece, the first piece and second piece being configured for being coupled.

5) Support system according to claim 3, wherein each of said first pieces and second pieces presents a central surface and a couple of symmetrical lateral wings; each of said lateral wings defining a section that when said first piece, and said second piece are coupled, form recesses taking up the section of said guide.

6) Support system according to claim 3, wherein said lateral wings comprise a first surface and a second surface and wherein said second surface presents a profile equal to a half section of said guide.

7) Support system according to claim 1, wherein said conveying means comprise a first surface and a second surface, and a central guide configured for coupling with said brackets on a said second surface.

8) Support system according to claim 1, wherein said curved path is a circumferential arch having a radius.

9) Support system according to claim 2, wherein each of said angular elements has a respective central hole.

10) Support system according to claim 8, wherein said central hole is made in correspondence with said circumferential arch having a radius.