CA1065782A - Endless conveyor - Google Patents

Abstract

ENDLESS CONVEYOR

ABSTRACT OF THE DISCLOSURE
An endless conveyor and belt where the conveyor belt is made from a plurality of laterally extending rods linked together at the edges of the belt to form a fixed pitch driv-ing chain on one edge of the belt and a variable pitch chain on the other edge of the belt. The driving chain is formed of links extending upstream from rods and surrounding the adjacent upstream rods. The links in the variable pitch chain loosely surround the adjacent rod ends to permit relative movement between the adjacent rods. The rods rest on fixed supports which, during movement of the belt along the path of the conveyor, exert drag forces on the rods tending to rotate the upstream-extending links of the fixed pitch chain against seats on adjacent upstream links, thereby locking the links one to another and supporting the rods against drag forces with-out column loading. Drive forces are not transmitted across the belt. The ends of the rods at the variable pitch chain float with respect to each other.

Description

The invention relates to endless conveyors and belts for endless conveyors and particularly to improved endless conveyors and belts of the type shown in Ballenger United States Patent Number 3,664,487. This patent discloses a double helical conveyor with a belt having a fixed pitch outer chain and a variable pitch inner chain. Drive members engage spaced links of the inner chain to move the belt along the conveyor path. A number of difficulties have been ex-perienced with this type of conveyor, including uneven belt motion, tiping up of the outer chain of the belt, buckling ~
of conveyor belt rods, and undue belt wear. - -According to the present invention there is pro-vided an endless conveyor including a closed path for a continuous conveyor belt having at least one arcuate section,;
a support rail running along the path at the section and a continuous belt on the path, the belt including a number of ;`
rods extending laterally across the width of the path from the inner side of the belt to the outer side of the belt so -that the rods rest on the support rail as the belt is moved ~-past the section, links being provided at the ends of the rods defining a taut inner chain of links on the inner side of the belt and an outer chain of links on the outer side of the belt. Each link of the outer chain extends from its respective rod along the path and around the next adjacent xod. Drive members on the engaging links of the inner chain move the belt downstream along the section of the path. In the present invention each link of the inner chain extends from its respective rod upstream with respect to the direction of movement of the belt and around the adjacent upstream rod to define a link recess and thereby secure the adjacent rods together and fix the pitch of the inner chain. The interior opening of the links of the outer chain has `A

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10657~32 sufficient width and length alon~ the path to permit limited free movement of the adjacent rods toward and away from each other to permit change in the pitch of the outer chain and adjustment of the belt to changes in curvature of the path. The drag forces exerted on the rods by the support rail as the belt is moved downstream past the ~ -section tend to pivot the rods upstream with respect to the inner chain and bias the inner links against the link re-cesses of the respective upstream rods so that the rods and the outer links are supported~against relatively upstream ;-movement by the inner chain and the inner chain is biased .
against the drive members. ~
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According to the method of the present invention, ~ ~ -the belt is moved downstream past the arcuate portion of the -path with the rods being supported against movement below the path and the inner chain being maintained taut at a constant pitch and the outer chain being maintained loose at a variable pitch to permit the outer ends of the rods to float with respect to each other and thereby vary the pitch of the outer chain in xesponse to change in the curvature of -the path. At the same time there is exerted an upstream -directed force on the rods outwardly of the inner chain to thereby bias the rods in an upstream direction about the respective links of the inner chain and to lock the inner links about adjacent links of the inner chain to support the rods against relative upstream bending and bias the inner chain against the drive members to improve the drive connection with the belt.
The problems of the prior art are avoided or reduced by the use of an improved belt formed of laterally extending rods with inner and outer link chains, the inner or driven link chain having a fixed pitch maintained by the driving ~ . ,-.

,, . . - . - .:. -; . . -106S71~2 members and by tensioning devices on the conveyor and the pitch of the outer link chain being variable with the outer rod ends floating with respect to each other. The links of the inner link chain extend from each rod upstream and around the next upstream rod so that the frictional drag forces on the rods pivot the upstream-extending links against the links extending upstream from the next upstream rod and in that way lock the links of the driven chain to-gether and secure the rods against collapse. The inner links lock together to form an arcuate configuration extending between the spaced drive members and conforming to the ~ ~ ;
curvature of the conveyor path. The ends of the rods at the outer side of the belt float with respect to each other, thereby permitting movement of the belt around sprockets and -along segments of the conveyor path where the curvature of the path varies. The stresses exerted on the rods are reduced since the driving force is transmitted directly to the rods from the fixed links on the driven link chain, in contrast ;
to the prior art where the driving force is transmitted from the driven inner link of the variable pitch inner chain through the length of a rod to the link of the outer fixed pitch chain . .
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l~6s.7ez and along the outer chain to the rods.
Accordingly, an object of the invention is to ,~ , provide an improved conveyor and belt. Another object '-is to provide an endless conveyor and belt where the belt is driven smoothly from one side and rod bowing and excessive wear are eliminated, correspondingly increasing ,l , the useful life and reliability of the conveyor and belt. ~ - -Other objects and features of the invention will become apparent as the description proceeds, especially ,' - , 10 when taken in con~unction with the accompanying drawings '~
illustrating the invention, of which there are two sheets. - -`
IN THE DRAWINGS:
Figure 1 is a perspective view of the conveyor belt of an endless helical conveyor;
Figure 2 is a view taken along line 2-2 of Figure 1 -illustrating the product infeed and outfeed units of the conveyor;
Figure 3 is a top view of-a section of the belting and drive as used in the conveyor; -Figures 4 and 5 are views taken along lines 4~4 and 5-5 respectively of Figure 3 illustrating inner and outer chains of the conveyor belting; and ~"
Figure 6 is a view illustrating the drive and belting when stressed by,frictional drag. ;-Figures 1 and 2 are representational of the conveyor ' path of an endl,e,ss helical conveyor disclosed more fully in Ballenger United States Patent Number 3~664~487r The Ballenger endless conveyor includes a continuous belt moving , along an outer upwardly moving helical conveyor path 12, an inner downwardly moving helical conveyor path 14 surrounded by path 12, an upper transition portion 16 joining the end of path 12 with the beginning of path 14 and a lower transition ';' kh/'~

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portion 18. The first loop of h~lical path 12 includes a pair of vertical sections 20 and 22 where the conveyor belting passes over pairs of spaced sprocket gears. The sections 20 and 22 provide tension of the conveyor belting.
Articles to be carried by conveyor 10 are moved by infeed -conveyor 24 located at the step provided by vertical section 22 so that the articles are transferred from conveyor 24 onto the first loop of the outer helical path 12. Articles carried to the bottom of the inner helical path 14 and along the transition portion 18 are carried away from the conveyor 10 by outfeed conveyor 26 located at the step defined by vertical portion 20. The frame, drive mechanism and other structural features of conveyor 10 are disclosed in the Ballenger patent which is incorpor- -;
ated herein by reference.
Figure 3 illustrates a portion of the endless conveyor belt 28 used in conveyor 10 which traverses the entire double helical path and transition portions illustrated in Figure 1. Belt 28 includes a number of like rods 30 formed of uniform cross-section material extending laterally across the width of the belt and resting on spaced support rails 32 which are attached to the frame of the conveyor. Links 34 are provided on the inner ends of rods 30 and links 36 are provided on the outer ends of the rods. As illustrated in Figure 4, each link 34 includes an upstream bend portion 38 `
and a hook portion 40 extending around t`he end of the adjacent upstream rod 30. The bends 38 extend through an angle greater than 90 deg~ees so that the hook 40 is located laterally inwardly of the edge of the belt and the bends 38 from~adjacent rods cooperate to define drive recesses 42 between adja~ent links. The chain formed by the inner links 34 is maintained taut by the conveyor drive and by the kh/~

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tensioning sections 20 and 22 so that the pitch of this side of the belt is fixed. The ends of hooks 40 are bent - ;
back toward the links to prevent opening of the chain. - , The outer links of ~elt 28 are illustrated at Figures 3 and 5 and each include an upstream extending bend 44 and a hook 46 surrounding the end of the adjacent up-stream rod 30. The interior recess 48 of the hook 46 loosely confines the surrounded rod while permitting limited move- -ment of the rods toward and away from each other. In this way, the pitch of the outer chain of links is free to vary ~ -as the belt traverses the conveyor path illustrated in ;
Figure 1. Figure 5 illustrates the outer chain with a -median pitch, the upstream rods extendihg through the centers ;
of the recesses 48. The free end of each hook 46 is bent back toward the link sufficiently to prevent opening of the ~-chain.
Belt 28 is driven along the conveyor path by a drive illustrated in detail in the Ballenger patent. The drive includes a number of spaced drive angles 50 secured to a movable drive support so that the angles are driven along one side of the helical loops l2 and 14. One such angle 50 is illustrated in Figure 3 and includes a drive corner 52 -extending into a drive recess 42 to engage the bends 38 of the adjacent belt rods. The support 54 carrying corner 50 is driven along the inner side of the conveyor path in the direction of arrow 58 to move the belt along rails 32 in the direction of arrow 58` The inner link chain is maintained in tension with the upstream rods held tightly against hooks 40.
During movement of the belt along the conveyor path, frictional forces between the rods 30 and the supporting rails 32 impart drag forces on the rods which tend to restrain _ 5 _ /kh : ~.. - - .. .. , . ,: . : . .:

movement of the rods. ~rhe drag forces are increased by the weight of articles carried by the conveyor. Because the pitch of the inner chain of links is fixed and the pitch of the outer chain of links is variablé, the rods are canti-levered with respect to the inner chain and the drag forces flex or rotate the individual rods upstream through a shallow angle about the connection between the rod and the link 34 on the adjacent downstream rod. Such rotation seats the link 34 of each rod in the recess 62 of the bend 38 on the next upstream rod so that the rods become locked together ~ -without excessive column loading as illustrated in Figure 6.
The links 34 are locked together in an arcuate configuration conforming to the curvature of the conveyor path and con-tribute to smooth movement of the belt along the path.
As the belt passes over the transition portions 16 and 18, the curvature of the path changes and the pitch of the outer chain varies to provide the required foreshortening or lengthening of the outer side of the belt. The rods 30 remain on the support rails 32 and are not excessively stressed while passing over the transition portions.
While I have illustrated and described a preferred embodiment of my invention, it is understood that this is capable of modification, and I therefore do not wish to be limited to the precise details set forth, but desire to avail myself of such changes and alterations as fall within the purview of the following claims. ~: -kh/~

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Claims (2)

THE EMBODIMENTS OF THE INVENTION IN WHICH AN EXCLUSIVE
PROPERTY OR PRIVILEGE IS CLAIMED ARE DEFINED AS FOLLOWS:

1. An Endless Conveyor including a closed path for a continuous conveyor belt having at least one arcuate section;
a support rail running along the path at the section; a continuous belt on the path; said belt including a number of rods extending laterally across the width of the path from the inner side of the belt to the outer side of the belt so that the rods rest on the support rail as the belt is moved past the section, links at the ends of the rods defining a taut inner chain of links on the inner side of the belt and an outer chain of links on the outer side of the belt, each link of the outer chain extending from its respective rod along the path and around the next adjacent rod, drive members on the engaging links of the inner chain to move the belt downstream along the section of the path; wherein the improvement comprises each link of said inner chain extending from its respective rod upstream with respect to the direction of movement of the belt and around the adjacent upstream rod to define a link recess and thereby secure the adjacent rods together and fix the pitch of the inner chain; the interior opening of the links of the outer chain having sufficient width and length along the path to permit limited free movement of the adjacent rods toward and away from each other to permit change in the pitch of the outer chain and adjustment of the belt to changes in curvature of the path, whereby drag forces exerted on the rods by said support rail as the belt is moved downstream past the section tend to pivot the rods upstream with respect to the inner chain and bias the inner links against the link recesses of their respective upstream rods so that the rods and outer links are supported against relative upstream movement by the inner chain and the inner chain is biased against the drive members.

2. In an endless conveyor of the type including a closed path having an arcuate portion, a continuous belt on the path, the belt having a number of closely spaced transversely extending rods joined at opposite sides of the belt to form inner and outer chains of links, the conveyor including drive members engageable with the inner chain, including the steps of:
A. Moving the belt downstream past the arcuate portion of the path, supporting the rods against movement below the path and maintaining the inner chain taut at a constant pitch and the outer chain loose at a variable pitch to permit the outer ends of the rods to float with respect to each other and thereby vary the pitch of the outer chain in response to change in the curvature of the path while B. Exerting in an upstream directed force on the rods outwardly of the inner chain to thereby bias the rods in an upstream direction about their respective links of the inner chain and lock said inner links about adjacent links of the inner chain to support the rods against relative upstream bending and bias the inner chain against the drive members to improve the drive connection with the belt.