GB1586549A

GB1586549A – Bi-directional hinged conveyor
– Google Patents

GB1586549A – Bi-directional hinged conveyor
– Google Patents
Bi-directional hinged conveyor

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Publication number
GB1586549A

GB1586549A
GB3376/78A
GB337678A
GB1586549A
GB 1586549 A
GB1586549 A
GB 1586549A
GB 3376/78 A
GB3376/78 A
GB 3376/78A
GB 337678 A
GB337678 A
GB 337678A
GB 1586549 A
GB1586549 A
GB 1586549A
Authority
GB
United Kingdom
Prior art keywords
link
axis
conveyor
sprocket
links
Prior art date
1977-02-14
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)

Expired

Application number
GB3376/78A
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)

Laitram LLC

Original Assignee
Laitram LLC
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
1977-02-14
Filing date
1978-01-27
Publication date
1981-03-18

1978-01-27
Application filed by Laitram LLC
filed
Critical
Laitram LLC

1981-03-18
Publication of GB1586549A
publication
Critical
patent/GB1586549A/en

Status
Expired
legal-status
Critical
Current

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Classifications

B—PERFORMING OPERATIONS; TRANSPORTING

B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL

B65G—TRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS

B65G17/00—Conveyors having an endless traction element, e.g. a chain, transmitting movement to a continuous or substantially-continuous load-carrying surface or to a series of individual load-carriers; Endless-chain conveyors in which the chains form the load-carrying surface

B65G17/06—Conveyors having an endless traction element, e.g. a chain, transmitting movement to a continuous or substantially-continuous load-carrying surface or to a series of individual load-carriers; Endless-chain conveyors in which the chains form the load-carrying surface having a load-carrying surface formed by a series of interconnected, e.g. longitudinal, links, plates, or platforms

B65G17/08—Conveyors having an endless traction element, e.g. a chain, transmitting movement to a continuous or substantially-continuous load-carrying surface or to a series of individual load-carriers; Endless-chain conveyors in which the chains form the load-carrying surface having a load-carrying surface formed by a series of interconnected, e.g. longitudinal, links, plates, or platforms the surface being formed by the traction element

B65G17/086—Conveyors having an endless traction element, e.g. a chain, transmitting movement to a continuous or substantially-continuous load-carrying surface or to a series of individual load-carriers; Endless-chain conveyors in which the chains form the load-carrying surface having a load-carrying surface formed by a series of interconnected, e.g. longitudinal, links, plates, or platforms the surface being formed by the traction element specially adapted to follow a curved path

B—PERFORMING OPERATIONS; TRANSPORTING

B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL

B65G—TRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS

B65G2201/00—Indexing codes relating to handling devices, e.g. conveyors, characterised by the type of product or load being conveyed or handled

B65G2201/02—Articles

Description

( 21)
( 31) ( 32)
PATENT SPECIFICATION
Application No 3376/78 ( 22) Filed 27 Jan 1978 Convention Application No 768531 Filed 14 Feb 1977 in ( 33) United States of Am ( 44) Complete Specificati ( 51) INT CL 3 B 65 G 171 ( 52) Index at acceptance B 8 A LA R 12 erica (US) on published 18 March 1981 ( 54) BI-DIRECTIONAL HINGED CONVEYOR ( 71)We, THE LAITRAM CORPORATION, a corporation of the State of Louisiana, United States of America, of 220 Laitram Lane, Harahan, Louisiana 70123, United States of America, do hereby declare the invention for which we pray that a patent may be granted to us, and the method by which it is to be performed, to be particularly described in and by the following statement:-
This invention relates to a multiple link conveyor capable of movement along straight or curved paths.
Conveyors formed of interconnected links are well known and have been constructed in many different forms to provide movement along an intended path.
One type of known conveyor, as shown for example in U S Patents 3,144,124 and 3,706,200, employs a plurality of links having knuckles interconnected by pivot pins to provide relative movement of the rinks in a normally vertical plane transverse to the conveyor plane Another type of multiple link conveyor, known as a laterally flexible or sideflexing conveyor, is shown in U S Patents 3,512,627 and 3,776,349, composed of links interconnected by pivot pins, each pin being disposed through a knuckle joint with an enlarged opening to permit lateral angular movement of the links, as well as pivotal movement of the links about the pivot pin axis A further conveyor structure is shown in U S Patent 3,768,631 and which is composed of a series of molded plastic links each having a head portion which is coupled to a bifurcated leg portion of an adjacent link and hinged thereto by a pivot pin extending laterally through the links The opening through the head portion in which the pivot pin is disposed is configured to permit angular movement of adjacent links in the conveyor plane as well as angular movement of adjacent links about the pivot pin axis A further conveyor structure is the subject of U.S Patent 3,777,877 in which an array of palates are linked to underlying support plates by means of normally vertical pivots to provide for relative movement between palates and the support members about a normally horizontal axis to permit banking of the conveyor A further conveyor type employs a ball and socket interconnection for the links, examples being shown in U S.
Patents 3,344,905 and 3,730,331.
According to one aspect thereof, the present invention provides a bi-directly movable link conveyor comprising a plurality of links, each link having two sections, the link sections of each link being pivotable about a first axis, and adjacent links being pivotable about a second axis generally orthogonal to the first axis.
Preferably, each said link is modular, and each said link section is integral In a specific embodiment each said link has:
a first said link section having first and second linking ends disposed along a conveyor axis; a second said link section has third and fourth linking ends disposed along said conveyor axis; said links having an upper surface defining a conveyor surface; the second linking end being pivotally coupled to the third linking end for pivotal movement of said first and second link sections about a first axis generally orthogonal to the conveyor axis; and the first linking end of each of said links being pivotally coupled to the fourth linking end of an adjacent said link for pivotal movement of adjacent said links about a second axis generally orthogonal to said conveyor axis and to said first axis.
According to another aspect thereof, the present invention provides a bidirectionally movable link conveyor having a conveying surface and comprising a plurality of modular links each link having:
a first integral link section terminating in first and second linking ends disposed along a conveyor axis; a second integral link section terminating in third and fourth linking ends disposed along said conveyor axis; ( 11) 1 586 549 qo U 1 Z 2 1586549 2 first and second arms extending with reference to the accompanying outwardly along a first axis transverse to drawings in which:
said conveyor axis and being integrally Fig 1 is a top view of a conveyor formed with said first link section; according to the invention; third and fourth arms extending Fig 2 is a cutaway exploded pictorial outwardly along said first axis and being view of the link sections of the conveyor; integrally formed with said second link Fig 3 is an exploded pictorial view of the section; link sections of Fig2; a plurality of spaced ribs defining a Fig 4 is a cutaway pictorial view of the conveyor surface and transversely disposed interconnected link sections; on and upstanding from said arms of one said Fig 5 is an elevation view of the link section of each said link, the ribs interconnected links; extending outwardly from the sides of the Fig 6 is an elevation view illustrating the associated arms substantially along said cooperation of the conveyor with a vertical conveyor axis; and sprocket wheel; said second linking end of said first link Fig 7 is a sectional bottom view section being pivotally coupled to said third illustrating the cooperation of the conveyor linking end of said second link section for with a horizontal sprocket wheel; pivotal movement of said first and second Fig 8 is a pictorial view of a pivot pin link sections about said first axis; useful in the conveyor; said first linking end of each of said links Fig 9 is an exploded pictorial view of a being pivotally coupled to said fourth link section of an alternative embodiment linking end of an adjacent link for pivotal of the invention; movement about a second axis orthogonal Fig 10 is a bottom pictorial view of one to said conveyor axis and said first axis of the link sections of Fig 9; In one embodiment of the invention the Fig 11 is an exploded partially pictorial In setions em pivotay inedtfon the and partially elevation view of the link sections are pivotally joined for relative altedrnaptive embodimeant of Fig 9; movement therebetween about a normally alt 1 ra ive e imt of Fi 9; horizontal axis, while adjacent links are alternative embodiment showing the links pivotally joined for relative movement interneted; about a normally vertical axis In another Fig 1 iaba d embodiment the link sections are pivotally l Flg 13 is a bottom pictorial view joined for relative movement about a illustrating the cooperation of the normally vertical axis, the adjacent links alternative embodiment with a vertical being pivotally joined for relative srk we el; movement about a normally horizontal Fig 14 is a pictorial view illustrating the axis Sprocket engagable teeth are wih oeraizonofthealternacktiv wembdien integrally formed with the modular links for with a horizontal sprocket wheel; cooperation with vertical or horizontal f t 5-17 baren v of varatins sprocket wheels for transport of the of the embodiment of Fig 9 illustrating conveyor in either plane A vertically successively flared side portions of the disposed sprocket tooth of each modular modiuar link and link is disposed intermediate a pair of of interconnected link sections pivotally horizontal pivots, while a horizontally interconineted linkec disposed sprocket tooth of each link is Joined by an integral hinge.
disposed intrmcedite atpair of verticali Referring to Fig 1, there is shown a plan disposed intermediate a pair of vertical view of the cooperative links of the pivots conveyor which are pivoted about two The modular links may include a spaced mutually orthogonal axes to provide array of upstanding ribs the upper surface conveyor movement in a curved path of which defines a conveying surface The within the plane of the conveyor and within rib array of each link can be in planes transverse to the conveying plane.
interdigitated relationship to a like array of The interconnected links are each shown ribs on adjacent links to provide an generally at 10 and are each composed of effectively continuous flat conveying two sections 12 and 14 hinged for pivotal surface even during movement of the movement about a pin 16 Normally, the conveyor through a curved path in the links 10 of the conveyor are horizontally conveyor plane The links are preferably disposed for conveying purposes and for molded of a high strength plastics material, convenience pin 16 will be referred to as while the interconnecting pins pivotally the horizontal pin while pin 18 will be joining the links and link sections can also referred to as the vertical pin An array of be of the same or a compatible plastic spaced ribs 20 are provided along each link material 10 and are upstanding therefrom to define a Specific embodiments of the invention conveying surface These ribs 20 are will now be described, by way of example, cooperative with like arrays of ribs on 1,586,549 1,586,549 adjacent links 10 such that the ribs remain substantially in interdigitated relationship during curved movement of the conveyor in the conveying plane thereby to provide an effectively continuous conveying surface without gaps in the conveying surface between the links through which articles can fall or become lodged The sections 12 and 14 of links 10 are preferably molded of a high strength plastics material The pivot pins 16 and 18 can be of the same material.
The hinged portions of the interconnected links are of a construction to be described providing substantial strength while permitting intended pivotal movement.
The construction of cooperative link sections 12 and 14 are shown more particularly in Figs 2-5 Section 12 includes a central linking portion 22 and outwardly extending arms 24 and 26 oppositely extending from linking portion 22 and lying along a first axis 28 about which sections 12 and 14 are pivotable and which axis is transverse to the conveyor axis 30 about which sections 12 and 14 are symmetrically disposed A horizontal sprocket engagable plate 32 is disposed below arms 24 and 26 and is cooperative with a similar sprocket engagable plate on section 14 to mate with a horizontally disposed sprocket wheel for driving of the links in a plane parallel to the plane of the sprocket wheel and conveying surface, usually a horizontal plane Linking portion 22 includes a plurality of spaced parallel fingers 34 extending along axis 28 and cooperative with similar spaced fingers on sections 14.
Arms 24 and 26 include along the side confronting section 14 a plurality of notches 36 which are cooperative with mating portions of the confronting side of section 14 Openings 38 are provided in fingers 34 and the notched side of arms 24 and 26 to define an opening aligned with axis 28 and for receiving a horizontal pin 16 for the pivotable interconnection of sections 12 and 14 Linking portion 22 also includes a plurality of spaced parallel plates 40 extending along a second axis 42 which is orthogonal to conveyor axis 30 and first axis 28 The spaced plates 40 are cooperative with a similar array of space plates of section 14 of an adjacent link to provide pivotable movement about the second axis 42, normally the vertical axis An opening 44 is provided through plates 40 of linking portion 22 aligned with axis 42 and adapted for receiving a vertical pivot pin 18 about which adjacent links 10 are movable.
Section 14 also includes a central linking portion 50 and outwardly extending arms 52 and 54 which in turn support a plurality of spaced raised ribs 20, the upper surfaces of which define the conveyor surface A horizontal sprocket engagable plate 56 is disposed below arms 52 and 54 and cooperative with sprocket engagable plate 32 of section 12 as described above A vertical sprocket engagable plate 58 is disposed below horizontal sprocket engagable plate 56 and is cooperative with a vertically disposed sprocket wheel to provide movement of the links 10 along conveyor axis 30 Arms 52 and 54 include a plurality of spaced flanges 60 cooperative with respective notches 36 of arms 24 and 26 of section 12 and including openings 62 for accommodation of horizontal pivot pin 16 The linking portion 50 includes a plurality of spaced parallel fingers 64 extending along axis 28 and constructed for meshing relationship with fingers 34 of section 12 Openings are also provided through fingers 64 for receipt of pivot pin 16 The linking portion 50 also includes a plurality of spaced parallel plates 64 ‘ extending along the vertical axis 42 and cooperative with the spaced plates 40 of section 12 of the adjacent link 10 An opening 66 is provided through plates 64 ‘ and through which vertical pin 18 is disposed with plates 64 ‘ in mesh with plates of the adjacent link 10.
It will be appreciated that each section 12 and 14 of each link 10 includes a linking end for pivotal cooperation with an adjacent member Thus, for section 14, plates 64 ‘ are part of a first linking end, while fingers 64 are part of a second linking end For section 12, fingers 34 are part of a third linking end, while plates 40 are part of a fourth linking end.
Each of the link sections 12 and 14 are of integral constuction, preferably molded of high strength plastics material The pivot pins 16 and 18 are also preferably of plastics material and can be as shown in Fig 8 having a head 100 and a latching end portion 102 for retention of the pin in the links The link sections are pivotable about the horizontal axis while adjacent links are pivotable about the vertical axis such that the conveyor formed of interconnected links can be transported through a path which can include curves in the horizontal and vertical planes as well as providing movement along inclined planes Thus, the construction of the conveyor provides extremely versatile operation employing conveyor links of a single standardized form There is by virtue of the invention no necessity for employing different conveyors for different conveyor movements, such as one type of conveyor for movement through curves in a horizontal plane and another type for movement through curves in a vertial plane.
The movement of the conveyor in a 4 1 78,4 4 circular path in the vertical plane is shown in Fig 6 A vertically disposed sprocket wheel 70 is rotatable about a horizontal axle 72 and includes sprocket teeth 74 which mesh with the forward and rearward surfaces of sprocket plates 58 More particularly, each sprocket plate 58 includes forward and rearward surfaces 76 which are of curved configuration to mate with the confronting surfaces of sprocket teeth 74 Each sprocket plate 58 is dimensioned and configured between the forward and rearward surfaces 76 for disposition between adjacent teeth 74 of wheel 70 and serves as a cog or meshing gear tooth by which the conveyor is transported through a curved path.
A transfer plate of comb-like configuration can be disposed in association with the conveyor as it moves around sprocket wheel 70 As shown in Fig.
6, the transfer plate includes a support member 73 having a spaced array of parallel fingers 71 which extend between the array of ribs 20 The upper surfaces of fingers 71 lie in or just below the plane of the upper surfaces of ribs 20 when in a straight path As the conveyor curves downward, a product 75 is smoothly transferred onto fingers 71 for removal from the conveyor There is no gap between the conveyor and the transfer plate which could cause tipping or jamming of the product during transfer off of the conveyor.
Movement of the conveyor in a circular path in the horizontal plane is depicted in Fig 7 The sprocket plate 32 of a section 12 and the sprocket plate 56 of a section 14 of an adjacent link have respective confronting curved surfaces 78 and 80 which are cooperative with a tooth 82 of a horizontally disposed sprocket wheel 84 which is rotatable about an axle 86 The plates 32 and 56 of the same link 10 are configured to be disposed between adjacent teeth 82 of wheel 84 and in gear meshing engagement therewith Thus, the plates 32 and 56 provide a multiple tooth configuration which is adapted to mesh with the sprocket teeth 82 of wheel 84 It will be appreciated that the specific configuration of the meshing surfaces of plates 32, 56 and 58 can be of different known gear tooth forms to provide intended meshing relationship with the associated sprocket wheel.
A substantially continuous conveyor surface is provided by the interdigitated ribs 20 of the interconnected links 10.
Referring particularly to Figs 1 and 2, the ribs 20 are affixed to arms 52 and 54 of section 14 of each link and are disposed in a spaced array along axis 28 across the full width of link section 14 The ribs 20 are each of skewed configuration having end portions 90 and 92 parallel to one another and orthogonal to axis 28 of the associated link, and joined by an intermediate diagonally disposed portion 94 The ribs on each arm of an associated link are in a parallel array skewed toward the central linking portion of the associated link The end portions 92 of the ribs 20 are disposed intermediate the end portions 90 of the ribs of an adjacent link to provide an interdigitated array Even during movement of the links in a horizontal plane, the ribs 20 remain substantially interdigitated to provide an effectively continuous conveying surface.
The link sections 14 each include a spaced array of ramps 96 which slope downwardly toward the edge of arms 24 and 26 These ramps provide clearance for rib portions 92 of an adjacent link when adjacent links are disposed in a compound curve configuration, such as with adjacent links pivoted about pin 18 toward one another and with section 14 pivoted about pin 16 upward toward the conveying surface.
An alternative embodiment is shown in Figs 9-12 and includes section 200 and 202 hinged for pivotal movement about a horizontal axis defined by pin 204 extending through the meshing fingers 205 and 207 of the respective sections Section 200 includes a portion 206 cooperative with the portion 208 of section 202 to provide pivotal movement about a vertical axis defined by a rotatable coupling The coupling includes an annular ring 210 upstanding from the surface of portion 206 at an end thereof and having an opening 212 therethrough Portion 208 of section 202 includes a recess 214 into which ring 210 is rotatably disposed, and a plurality of retaining elements 216 which extend through opening 212 and detent under bottom surface of ring 210 to retain sections and 202 in rotatable engagement A part circular groove 207 can be provided in an upper surface of section 200 lying along the rotational axis of the coupling formed by ring 210 and retaining elements 216 A detent element 209 extending from the bottom surface of section 202 is operative upon assembly of link sections 200 and 202 to be retained under a lip of groove 207 to provide additional rotatable fastening of the two link sections A second part circular groove 211 is provided in an upper surface of section 200 concentric with groove 207 and cooperative with a part circular ridge 213 disposed from the bottom surface of section 202 The ridge 213 is movable within associated groove 211 during pivotal movement of sections 200 1,586,549 S 1,586,549 5 and 202 and provides further shear strength along the conveyor axis.
A sprocket tooth 218 is provided on each side of section 200 for engagement with a horizontal sprocket for driving a conveyor in a horizonal plane A vertical sprocket tooth 220 is also provided on section 200 for engagement with a vertical sprocket Tabs 222 outwardly extend from each side of section 200 for cooperation with guides (not shown) which are part of the conveyor transport apparatus to maintain the disposition without tipping of the conveyor links along the travel path The horizontal sprocket teeth 218 are disposed intermediate the horizontal axes of pivot pins 204, while the vertical sprocket tooth 220 is disposed intermediate the vertical axes of the rotatable coupling Cooperation of a vertical sprocket wheel 250 with tooth 220 is shown in Fig 13 Meshing of a horizontal sprocket wheel 252 with tooth 218 is depicted in Fig 14 It is evident that the links can be driven in either the vertical or horizontal plane to provide corresponding movement of the conveyor, as described above.
A plurality of upstanding ribs 224 are provided on section 200 and a plurality of upstanding ribs 226 are provided on section 202, these ribs being cooperative to define a conveying surface at the upper surfaces thereof As last seen in Fig 12, the ribs 224 are spaced from the aligned ribs 226 by an amount sufficient to permit relative movement of sections 200 and 202 about a horizontal axis without interference of the ribs The ribs are also of a length to not interfere with relative rotation between the link sections about the vertical axis It will be appreciated that ribs 224 and 226 need not be employed and for some applications it is desirable to provide a conveying surface directly on the upper surfaces of the link sections 200 and 202, as in Figs 15-17.
The portions 228 and 230 of section are flared at a greater angle than the flare of the side portions 232 and 234 of section 202 of an adjacent link such that the links are rotatable about the vertical axis to a predetermined extent The side portions 228 and 230 of section 200 can extend outwardly by an amount to provide an intended conveyor width As shown in Fig.
15, section 200 a includes side portions 228 a and 230 a flared outwardly to a greater extent than in the embodiment of Figs.
9-14 Still further extended side portions of link sections 200 b and 200 c are illustrated in respective Figs 16-17.
In place of a pivot pin, a flex joint can be provided by a thinned section of plastics formed with the links to serve as an integral hinge As shown in Fig 18, link section 200 and 202, illustrated diagrammatically, are hinged by an integral portion 260 of reduced thickness to be flexible about a horizontal axis.

Claims (1)

WHAT WE CLAIM IS:-
1 A bi-directionally movable link conveyor comprising a plurality of links, each link having two sections, the link sections of each link being pivotable about a first axis, and adjacent links being pivotable about a second axis generally orthogonal to the first axis.
2 A conveyor according to Claim I wherein each said link has:
a first said link section having first and second linking ends disposed along a conveyor axis; a second said link section has third and fourth linking ends disposed along said conveyor axis; said links having an upper surface defining a conveyor surface; the second linking end being pivotally coupled to the third linking end for pivotal movement of said first and second link sections about a first axis generally orthogonal to the conveyor axis; and the first linking end of each of said links being pivotally coupled to the fourth linking end of an adjacent said link for pivotal movement of adjacent said links about a second axis generally orthogonal to said conveyor axis and to said first axis.
3 A conveyor according to Claim 2 wherein each said link includes a first sprocket engageable means on at least one of said first and second link sections extending outwardly from the surface of said at least one section opposite to said conveyor surface and operative to mesh with a first sprocket wheel rotatable about an axis generally parallel to said conveyor surface, and wherein each said link includes a second sprocket engageable means on at least one of said first and second link sections extending outwardly from at least one side of said at least one section in a plane parallel to said conveyor surface and operative to mesh with a second sprocket wheel rotatable about an axis generally orthogonal to said conveyor surface.
4 A conveyor according to any one of Claims 1 to 3, wherein each said link is modular.
A conveyor according to any one of Claims 1 to 4, wherein each said link section is integral.
6 A conveyor according to any one of Claims 1 to 5 capable of movement in a curved path generally in the conveyor plane and in a curved path in a plane generally transverse to the conveyor plane, wherein 1,586,549 i 1,586,549 said second axis is displaced from said first axis along the conveyor axis.
7 A conveyor according to any one of Claims 1 to 6, wherein each of said links includes generally an array of spaced upstanding ribs having upper surfaces generally defining said conveyor surface.
8 A conveyor according to any one of Claims 1 to 6 wherein adjacent said links have a gap therebetween in the direction of the conveyor plane; and wherein each of said links includes generally an array of spaced upstanding ribs having upper surfaces generally defining said conveyor surface, the rib array of each said link extending across a said gap in interdigitated relation to the rib array of the adjacent said link to provide a substantially continuous conveyor surface.
9 A link conveyor capable of movement in a curved path in the conveyor plane and in a curved path in a plane transverse to the conveyor plane comprising:
a plurality of modular links each having an upper conveyor surface and each link including:
a first link section and a second link section pivotally interconnected for pivotal movement of said first and second sections about a normally horizontal axis; each modular link having first and second linking ends each pivotally connected to a linking end of an adjacent modular link for pivotal movement of adjacent links about a normally vertical axis; a first sprocket engageable tooth integral with at least one of said link sections at a position intermediate adjacent horizontal axes of said links and extending along a vertical axis; a second sprocket engageable tooth integral with at least one of said link sections at a position intermediate adjacent vertical axes of said links and extending along a horizontal axis.
A link conveyor capable of movement in a curved path in the conveyor plane and in a curved path in a plane transverse to the conveyor plane comprising a plurality of modular links each having an upper conveyor surface and each link including:
a first link section and a second link section pivotally interconnected for pivotal movement of said first and second sections about a normally vertical axis; each modular link having first and second linking ends each pivotally connected to a linking end of an adjacent modular link for pivotal movement of adjacent links about a normally horizontal axis; a first sprocket engageable tooth integral with at least one of said link sections at a position intermediate adjacent horizontal axes of said links and extending along a vertical axis; a second sprocket engageable tooth integral with at least one of said link sections at a position intermediate adjacent vertical axes of said links and extending along a horizontal axis.
A bi-directionally movable link conveyor having a conveying surface and comprising a plurality of modular links each link having:
a first integral link section terminating in first and second linking ends disposed along a conveyor axis; a second integral link section terminating in third and fourth linking ends disposed along said conveyor axis; first and second arms extending outwardly along a first axis transverse to said conveyor axis and being integrally formed with said first link section; third and fourth arms extending outwardly along said first axis and being integrally formed with said second link section; a plurality of spaced ribs defining a conveyor surface and transversly disposed on and upstanding from said arms of one said link section of each said link, the ribs extending outwardly from the sides of the associated arms substantially along said conveyor axis; and said second linking end of said first link section being pivotally coupled to said third linking end of said second link section for pivotal movement of said first and second link sections about said first axis; said first linking end of each of said links being pivotally coupled to said fourth linking end of an adjacent link for pivotal movement about a second axis orthogonal to said conveyor axis and said first axis.
12 A conveyor according to Claim 11 wherein at each of said second and third linking ends a plurality of spaced planar fingers extend outwardly along said conveyor axis, said fingers at said second linking ends being disposed in offset interdigitated relationship with said adjacent fingers at said third linking ends to allow the pivotal movement about said first axis.
13 A conveyor according to Claim 12 wherein each of said fingers at said second and third linking ends has a longitudinal hole along said first axis, and a pivot pin is diposed along said first axis and through each of said longitudinal holes to provide secured pivotal support for the movement about said first axis.
14 A conveyor according to Claim 11 wherein at least one of said first and second arms includes a plurality of spaced planar fingers extending outwardly along said 1,586,549 conveyor axis and wherein at least one of said third and fourth arms includes a plurality of spaced fingers extending outwardly along said conveyor axis; said fingers of at least one of said first and second arms being disposed in offset interdigitated relationship with said fingers of at least one of said third and fourth adjacent arms to allow the pivotal movement about said first axis.
A conveyor according to Claim 14 wherein said fingers of said at least one of said first and second arms, and said fingers of said at least one of said third and fourth arms, each have a hole along said first axis; and a pivot pin is disposed along said first axis and through each of said holes to provide secured pivotal support for the movement about said first axis.
16 A conveyor according to Claim 11 wherein first linking ends of each of said links includes a plurality of spaced parallel plates extending outwardly along said conveyor axis; said fourth linking end of each of said links includes a plurality of spaced plates extending outwardly along said conveyor axis; and said plates of said first linking end of each of said links is disposed in offset interdigitated relationship with adjacent plates of said fourth linking end of a said adjacent link for pivotal movement about said second axis.
17 A conveyor according to Claim 16 wherein each of said plates of each said link has a hole along said second axis; and a pivot pin is disposed along said second axis and through each of said holes to provide secured pivotal support for the movement about said second axis.
18 A conveyor according to Claim 11 wherein said second link section of each of said links includes:
a first sprocket engageable plate disposed along said conveyor axis and below and intergral with said second link section; said first sprocket engageable plate having first and second sprocket engageable edges transverse to said conveyor axis and wherein said first sprocket engageable edge of each of said links is disposed in confronting spaced relation to said second sprocket engageable edge of an adjacent said link to define a predetermined sprocket engageable aperture therebetween adapted for reception of a sprocket tooth rotating in a plane generally perpendicular to said conveyor axis.
19 A conveyor according to Claim 18 wherein:
each of said first link sections of each said link includes a second sprocket engageable plate disposed along said conveyor axis below and integral with said first link section; said second sprocket engageable plate has a first sprocket engageable surface symmetrical about said conveyor axis and extending outwardly therefrom along said first axis, said first sprocket engageable surface terminating in first and second sprocket support ends; each of said second link sections of each said link includes a third sprocket engageable plate disposed along said conveyor axis and intermediate said first sprocket engageable plate and said second link section of that link; said third sprocket engageable plate has a second sprocket engageable surface symmetrical about said conveyor axis and extending outwardly therefrom along said first axis, said second sprocket engageable surface terminating in third and fourth sprocket support ends; said first sprocket support ends of said second sprocket engageable plate being disposed in confronting spaced relation to the adjacent third sprocket support ends of said third sprocket engageable plate to define therebetween a predetermined sprocket engageable aperture, this aperture being adapted for reception of a sprocket tooth rotatable in a plane generally parallel to said conveying surface; and said second sprocket support ends of said second sprocket engageable plate being disposed in confronting spaced relation to the adjacent fourth sprocket support ends of said third sprocket engageable plate to define therebetween a predetermined sprocket engageable aperture, this aperture being also adapted for reception of a sprocket rotatable in a plane generally parallel to said conveying surface.
A conveyor according to any one of Claims I to 11 wherein two link sections of each said link have each a respective portion of a rotatable coupling, the rotatable coupling portion of each said link section engaging a corresponding coupling portion of an adjacent link section of an adjacent said link to allow pivotal movement of adjacent said links.
21 A conveyor according to Claim 20 wherein one of the two interengaging coupling portions includes an annular ring upstanding from the surface of said link section, and the other coupling portion includes a recess for receiving said ring and has means for retaining the coupling portions in rotatable engagement.
22 A conveyor according to any one of Claims 1 to 11, 20 and 21 wherein the two link sections of each said link are pivotally 1.586549 coupled to each other by means of a flex hinge.
23 A conveyor according to any one of Claims 1 to 22, substantially as hereinbefore described with reference to, and as illustrated in, the accompanying drawings.
WITHERS & ROGERS Chartered Patent Agents 4, Dyers Buildings, Holborn, London, ECIN 2 JT Agents for the Applicant.
Printed for Her Majesty’s Stationery Office, by the Courier Press, Leamington Spa, 1981 Published by The Patent Office, 25 Southampton Buildings, London, WC 2 A JAY, from which copies may be obtained.

GB3376/78A
1977-02-14
1978-01-27
Bi-directional hinged conveyor

Expired

GB1586549A
(en)

Applications Claiming Priority (1)

Application Number
Priority Date
Filing Date
Title

US05/768,531

US4153152A
(en)

1977-02-14
1977-02-14
Bi-directional hinged conveyor belt

Publications (1)

Publication Number
Publication Date

GB1586549A
true

GB1586549A
(en)

1981-03-18

Family
ID=25082767
Family Applications (1)

Application Number
Title
Priority Date
Filing Date

GB3376/78A
Expired

GB1586549A
(en)

1977-02-14
1978-01-27
Bi-directional hinged conveyor

Country Status (18)

Country
Link

US
(1)

US4153152A
(en)

JP
(1)

JPS53102576A
(en)

AT
(1)

ATA106578A
(en)

AU
(1)

AU510646B2
(en)

BE
(1)

BE863766A
(en)

CA
(1)

CA1065785A
(en)

DE
(1)

DE2806209A1
(en)

DK
(1)

DK63878A
(en)

ES
(1)

ES466913A1
(en)

FI
(1)

FI780405A
(en)

FR
(1)

FR2380203B1
(en)

GB
(1)

GB1586549A
(en)

IT
(1)

IT1156439B
(en)

NL
(1)

NL7801674A
(en)

NO
(1)

NO780491L
(en)

PT
(1)

PT67619B
(en)

SE
(1)

SE7801560L
(en)

ZA
(1)

ZA78564B
(en)

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* Cited by examiner, † Cited by third party

Publication number
Priority date
Publication date
Assignee
Title

GB2130162A
(en)

*

1982-11-11
1984-05-31
Jonge Poerink Bv Draadind
Link-conveyor with inserted rods

GB2230753A
(en)

*

1989-04-28
1990-10-31
Kwok Shek Shuen
Passenger conveyor apparatus

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Title

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(en)

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1977-10-03
1979-05-15
The Laitram Corporation
Modular conveyor having integral receptacles

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1980-02-08
1981-09-22
The Laitram Corporation
Multiple link transmission chain

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1980-07-25
1982-08-24
Horkey Edward J
Chain driven conveyor belts

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1980-08-19
1991-06-18
Laitram Corporation
Modular center drive conveyor belt

US5123524A
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1980-08-19
1992-06-23
The Laitram Corporation
Modular center drive conveyor belt

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1981-05-01
1988-08-23
Rexnord Inc.
Conveyor chain for use with fingered transfer plate

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1981-05-01
1984-03-27
Rexnord Inc.
Conveyor chain for use with fingered transfer plate

US4557374A
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1982-02-23
1985-12-10
The Cambridge Wire Cloth Company
Modular conveyor belting with cam-slotted links for maintaining transverse distribution of tension while negotiating horizontal curves and for facilitating cleaning

EP0112917A4
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1982-07-06
1984-11-21
David J Forshee
Plastic monorail conveyor drive chain linkage.

US4989723A
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1984-02-06
1991-02-05
The Cambridge Wire Cloth Company
Plastic conveyor belt system with improved product support

US4645070A
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1984-11-07
1987-02-24
Pt Components, Inc.
Dual bend conveyor

US4880107A
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1987-07-31
1989-11-14
Rexnord Corporation
Table top chain link with rib

CA1312035C
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1988-08-18
1992-12-29
James F. Murphy
Article carrying chain having free tab

US4901844A
(en)

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1988-10-03
1990-02-20
Kvp Systems, Inc.
Low tension plastic conveyor belt system

US4893710A
(en)

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1989-01-13
1990-01-16
Cambridge Wire Cloth Company
Plastic modular conveyor belts and modules therefor

US5076422A
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1990-08-29
1991-12-31
Tekno Incorporated
Side-flexing chain with wheels

JPH0448606U
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1990-08-29
1992-04-24

JPH0640536A
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*

1991-10-23
1994-02-15
Chichibu Cement Co Ltd
Ceramic conveyor belt

DK170664B1
(en)

*

1992-04-21
1995-11-27
Baeltix Maskinfabrikken As

Chain link conveyor

NL9401477A
(en)

1994-09-09
1996-04-01
Mcc Nederland

Chain for a chain conveyor.

US5573105A
(en)

*

1995-11-08
1996-11-12
Palmaer; Karl V.
Radius conveyor with guide rollers

US5662211A
(en)

*

1996-02-05
1997-09-02
Rexnord Corporation
Conveyor chain with self retaining hinge pin with internal barbs

DK0796806T3
(en)

*

1996-03-22
2002-02-25
Sigma Ind Ltd

Chain conveyor for conveyors

US6036001A
(en)

*

1997-05-14
2000-03-14
Rexnord Corporation
Side-flexing conveyor construction

DE29806540U1
(en)

*

1998-04-09
1998-09-24
Flexon Pirna Gmbh

Conveyor chain that moves through curves

DE19817125A1
(en)

*

1998-04-17
1999-10-28
Interroll Holding Ag San Anton
Chain conveyor with main links joined by connecting links

JP2951316B1
(en)

*

1998-05-29
1999-09-20
株式会社椿本チエイン

Conveyor chain made of synthetic resin

DK0995698T3
(en)

*

1998-10-20
2004-07-12
Rexnord Marbett Spa

Transport chain for transporting articles

US6345715B2
(en)

*

1998-11-03
2002-02-12
Kvp Falcon Plastic Belting, Inc.
Rod retention system for modular plastic conveyor belt

US6209716B1
(en)

*

1998-11-05
2001-04-03
The Laitram Corporation
Knuckle drive link conveyor belt systems with removable load conveying surface members

ATE252505T1
(en)

1999-08-23
2003-11-15
Rexnord Marbett Spa

LATERALLY SWIVELING CONVEYOR CHAIN

US6292968B1
(en)

*

1999-09-10
2001-09-25
Mclain Perry E.
Articulated bridge

US6644466B2
(en)

2002-01-31
2003-11-11
The Laitram Corporation
Platform-top radius belt and modules

DE60306881T2
(en)

*

2003-01-09
2006-11-30
Habasit Ag

chain conveyors

US7108127B2
(en)

*

2003-07-24
2006-09-19
Habasit Ag
Rod retaining snap rod with enlarged retaining ring

US7331447B2
(en)

*

2003-07-24
2008-02-19
Habasit Ag
Rod retaining snap rod with enlarged retaining ring

ES2249118A1
(en)

*

2004-02-09
2006-03-16
Jofemar, S.A.
Automatic dispensing machine with multifunction screen

US7293644B2
(en)

*

2004-12-06
2007-11-13
Rexnord Industries, Llc
Side-flexing conveyor chain

US7168557B2
(en)

*

2004-12-06
2007-01-30
Rexnord Industries, Llc
Side-flexing conveyor chain having members joined by linkages

US7530454B2
(en)

*

2005-11-08
2009-05-12
Ashworth Bros. Inc.
Conveyor belt

IT1401692B1
(en)

*

2010-09-10
2013-08-02
System Plast S R L

MODULE FOR A CONVEYOR, IN PARTICULAR A CARPET CONVEYOR WITH IMPROVED MEANS OF CONNECTING ADDITIONAL BODIES

US8678180B2
(en)

*

2012-07-25
2014-03-25
Laitram, L.L.C.
Modular conveyor belt with extended raised ribs

CN104995110B
(en)

2012-10-25
2017-08-01
雷勃电气美国公司
Control the apparatus and method of the path wear of conveyer

CN105263828B
(en)

2012-11-29
2017-04-26
雷勃电气美国公司
Side-flexing conveyor and conveyor belts

DE112015005563T5
(en)

*

2014-12-10
2017-09-07
Rexnord Flattop Europe S.R.L.

Link for the chain for an article conveyor

JP6827976B2
(en)

*

2018-07-13
2021-02-10
株式会社オーイズミ

Conveyor chain and conveyor

JP6853221B2
(en)

*

2018-07-23
2021-03-31
株式会社オーイズミ

Chain conveyor device

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Priority date
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Assignee
Title

DE7143027U
(en)

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1972-04-06
Wahren E

Chain conveyor belt

US1191434A
(en)

*

1914-06-23
1916-07-18
Thomas M Keith
Platform conveyer.

GB305150A
(en)

*

1927-10-31
1929-01-31
Edmund Charles Hopkins
Improvements in or relating to conveyors

US1817373A
(en)

*

1927-10-31
1931-08-04
Hopkins Edmund Charles
Conveyer

US1824858A
(en)

*

1931-01-09
1931-09-29
Goodrich Co B F
Conveyer apparatus

US2010124A
(en)

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1933-09-27
1935-08-06
Alvey Conveyor Mfg Company
Conveyer chain

US2141876A
(en)

*

1935-10-19
1938-12-27
Michael Yundt Company
Conveyer

GB489184A
(en)

*

1937-02-01
1938-07-21
Hugh Campbell
Improvements in or relating to conveyor chains

US2704943A
(en)

*

1952-10-10
1955-03-29
Chain Belt Co
Conveyer chain

US3285394A
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1965-04-16
1966-11-15
William E Lanham
Conveying system

US3554360A
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1968-08-12
1971-01-12
Seatech Engineering
Conveyor

US3685637A
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1970-07-17
1972-08-22
Seatech Engineering
Pallet

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1972-01-10
1973-05-01
Fenco Inc
Conveyor device

US3865229A
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1973-05-29
1975-02-11
Borg Warner
Conveyor belt

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1974-06-28
1976-01-08
Interroll Foerdertechnik Gmbh
Chain conveyor composed of plastic links – lightweight link design allows rapid assembly and dismantling

CH568211A5
(en)

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1974-03-28
1975-10-31
Hildebrand Ed Ing Ag

DE7502617U
(en)

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1974-03-28
1975-05-22
Hildebrand E Ag

Conveyor chain

US4051949A
(en)

*

1976-05-17
1977-10-04
The Laitram Corporation
Conveyor system

1977

1977-02-14
US
US05/768,531
patent/US4153152A/en
not_active
Expired – Lifetime

1978

1978-01-25
CA
CA295,613A
patent/CA1065785A/en
not_active
Expired

1978-01-27
GB
GB3376/78A
patent/GB1586549A/en
not_active
Expired

1978-01-31
ZA
ZA00780564A
patent/ZA78564B/en
unknown

1978-02-06
PT
PT67619A
patent/PT67619B/en
unknown

1978-02-07
AU
AU33076/78A
patent/AU510646B2/en
not_active
Expired

1978-02-08
FI
FI780405A
patent/FI780405A/en
not_active
Application Discontinuation

1978-02-08
BE
BE185004A
patent/BE863766A/en
unknown

1978-02-09
FR
FR7803687A
patent/FR2380203B1/en
not_active
Expired

1978-02-10
SE
SE7801560A
patent/SE7801560L/en
unknown

1978-02-13
IT
IT67290/78A
patent/IT1156439B/en
active

1978-02-13
ES
ES466913A
patent/ES466913A1/en
not_active
Expired

1978-02-13
NO
NO780491A
patent/NO780491L/en
unknown

1978-02-13
DK
DK63878A
patent/DK63878A/en
unknown

1978-02-14
DE
DE19782806209
patent/DE2806209A1/en
active
Granted

1978-02-14
JP
JP1585278A
patent/JPS53102576A/en
active
Granted

1978-02-14
NL
NL7801674A
patent/NL7801674A/en
not_active
Application Discontinuation

1978-02-14
AT
AT106578A
patent/ATA106578A/en
not_active
IP Right Cessation

Cited By (4)

* Cited by examiner, † Cited by third party

Publication number
Priority date
Publication date
Assignee
Title

GB2130162A
(en)

*

1982-11-11
1984-05-31
Jonge Poerink Bv Draadind
Link-conveyor with inserted rods

US4709807A
(en)

*

1982-11-11
1987-12-01
Poerink Nicolaas J
Link conveyor with inserted rods

GB2230753A
(en)

*

1989-04-28
1990-10-31
Kwok Shek Shuen
Passenger conveyor apparatus

GB2230753B
(en)

*

1989-04-28
1993-03-31
Kwok Shek Shuen
Conveyor apparatus

Also Published As

Publication number
Publication date

DE2806209C2
(en)

1989-09-07

NL7801674A
(en)

1978-08-16

ATA106578A
(en)

1980-08-15

PT67619A
(en)

1978-03-01

FR2380203A1
(en)

1978-09-08

NO780491L
(en)

1978-08-15

JPS6117723B2
(en)

1986-05-09

ZA78564B
(en)

1978-12-27

ES466913A1
(en)

1979-08-16

SE7801560L
(en)

1978-10-09

AU3307678A
(en)

1979-08-16

FI780405A
(en)

1978-08-15

DE2806209A1
(en)

1978-08-17

AU510646B2
(en)

1980-07-03

PT67619B
(en)

1979-07-17

IT7867290D0
(en)

1978-02-13

US4153152A
(en)

1979-05-08

IT1156439B
(en)

1987-02-04

FR2380203B1
(en)

1985-11-15

DK63878A
(en)

1978-08-15

BE863766A
(en)

1978-05-29

JPS53102576A
(en)

1978-09-06

CA1065785A
(en)

1979-11-06

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Legal Events

Date
Code
Title
Description

1981-06-03
PS
Patent sealed [section 19, patents act 1949]

1991-09-25
PCNP
Patent ceased through non-payment of renewal fee

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