101 |
System and methods for content display |
US14027313 |
2013-09-16 |
US08887895B2 |
2014-11-18 |
Stephen William Armstrong; Michael Samuel Lagana |
Systems and methods for displaying content in a conveyor system are provided. A content displaying conveyor plate includes a base plate and an upper plate that is configured to be releasably coupled to the base plate. The upper plate can be configured to display content, for example content that is integral to the base plate, content that is disposed between the upper plate and the base plate, or any combination thereof. The upper plate can be coupled to the base plate via one or more connection members defined on the upper plate and/or the base plate. Any, number, such as all of the base plates of an existing conveyor system can be replaced with respective content displaying conveyor plates. The base plate of the content displaying conveyor plate can define one or more recesses, the recesses configured to receive an attachment member and/or other components of a carousel therein. |
102 |
POSITIVE DRIVE BALANCED MESH BELT SYSTEM |
US14218343 |
2014-03-18 |
US20140262697A1 |
2014-09-18 |
Michael Robert FRANZONI; George H. Messick, JR.; Robert E. Maine, JR. |
A compound balanced woven-wire conveyor belt including a plurality of interwoven helically-wound spirals and connector rods, and a plurality of spiral wires forming protruding tangs on a surface of the woven-wire belt. A conveyor system further includes at least one rotatable member including an outer cylindrical surface symmetrically disposed relative to a central axis of rotation of the rotatable member and a plurality of cavities on the outer cylindrical surface for engaging the protruding tangs of the woven-wire belt, each of the protruding tangs substantially corresponding to the cavities of the rotatable member. |
103 |
Windable steel net reinforcement structure |
US13139230 |
2009-12-14 |
US08833404B2 |
2014-09-16 |
Yong Ki Hwang |
The present invention relates to a steel net reinforcement structure which is used for a conveyer belt or a shutter screen. The steel net reinforcement structure comprises: a steel net including hooks projecting from both sides thereof; a reinforcement including a slit cut open along a diagonal direction on both sides thereof; and a steel core which can lock the hooks which are inserted on both inner sides of the reinforcement. The steel net reinforcement structure can be wound conveniently and flexibly while reinforcing strength of the steel net. |
104 |
CONVEYING UNIT FOR THERMOFORM PACKAGING MACHINE |
US14101140 |
2013-12-09 |
US20140158502A1 |
2014-06-12 |
Gunnar Kurz |
The invention relates to a conveying unit for guiding and conveying a material web in a thermoform packaging machine, comprising, on either longitudinal side of a machine frame, a conveyor chain, a chain wheel and a guide device. A chain link of the conveyor chain and a clamp guide can be implemented together and in one piece as a shaped part. |
105 |
Conveyors and transmission belts |
US12676657 |
2008-09-05 |
US08689969B2 |
2014-04-08 |
George Terah Gough |
A belt (2), forming a conveyor or a transmission belt, comprising at least one, but possibly a plurality of substantially inextensible but elastically flexible planar strips, typically of spring steel, rigidly fixed together lengthwise to form an endless belt. The belt is typically provided with drive slots for accurately driving the belt. The belt may support carriers such as buckets (to form a bucket conveyor) or scrapers (to form a scraper conveyor). |
106 |
High Temperature Conveyor Belt |
US14038012 |
2013-09-26 |
US20140090962A1 |
2014-04-03 |
Derek J. Butland; Timothy R. Doherty; James DiMento |
A high temperature conveyor belt is provided having a non-metallic conveying surface which will not scratch, abrade or otherwise mar the surface of a product being carried on the belt through a furnace and which will not contaminate the product. In one embodiment, the conveyor comprises a high temperature fabric belt attached to a metal belt which may be a conventional woven metal conveyor belt. In another embodiment, the conveyor is composed of a non-metallic high temperature strand which is woven or threaded through a metal belt to provide a non-metallic conveying surface. In a further embodiment, the non-metallic product support elements are coupled to roller chains at each side of the furnace chamber and which are cooperative with a drive mechanism to transport the conveyor through the furnace. The roller chains can be located outside of the furnace chamber to avoid exposure to the high temperature of the furnace chamber. |
107 |
WINDABLE STEEL NET REINFORCEMENT STRUCTURE |
US13139230 |
2009-12-14 |
US20110240167A1 |
2011-10-06 |
Yong Ki Hwang |
The present invention relates to a steel net reinforcement structure which is used for a conveyer belt or a shutter screen. The steel net reinforcement structure comprises: a steel net including hooks projecting from both sides thereof; a reinforcement including a slit cut open along a diagonal direction on both sides thereof; and a steel core which can lock the hooks which are inserted on both inner sides of the reinforcement. The steel net reinforcement structure can be wound conveniently and flexibly while reinforcing strength of the steel net. |
108 |
Belt for the thermal treatment of a continuously operated material bed |
US10182284 |
2002-09-25 |
US06698582B2 |
2004-03-02 |
Pekka Niemelä; Martti Jankkila; Eero Väänänen |
A conveyor belt for a continuously operated conveyor-type thermal treatment of a material bed includes metal conveyor belt elements that are connected to each other. Each conveyor belt element is formed with perforations in order to allow gas to flow through the conveyor belt. The perforations are distributed non-uniformly over the conveyor belt element and are located in at least two perforation zones. The perforation zones are separated from each other by perforation-free zones. |
109 |
Method and apparatus for freezing products |
US10262396 |
2002-09-30 |
US20030074904A1 |
2003-04-24 |
Jeremy
P.
Miller |
A tunnel freezer having a metal belt for carrying product therethrough, wherein the weight of said belt is from 1 kg per square meter of surface area to 6 kg per square meter of surface area. |
110 |
Conveyor belt |
US3608702D |
1969-09-29 |
US3608702A |
1971-09-28 |
FRAIOLI JOSEPH SR |
A conveyor belt for transporting impressionable articles such as baking dough without sticking or slippage, the face of the moving belt slidably engaging the undersurface of rails or other fixed elements. The belt is constituted by a reinforcing core of interlinked wire coils or woven wire mesh having a low coefficient of friction, almost entirely embedded in a layer of silicone rubber or other nonadhesive material having a high coefficient of friction, whereby only the upper points of the core are exposed. These points make contact with the undersurface of the rails to facilitate a sliding action therebetween, whereas the articles are impressed by the points and mainly engage the high drag surface of the layer.
|
111 |
Mesh fabric |
US57867766 |
1966-09-12 |
US3368663A |
1968-02-13 |
JOSEF KUFFERATH |
|
112 |
Conveyor belt |
US43297665 |
1965-02-16 |
US3300030A |
1967-01-24 |
CARL SCHERFEL OTTO |
|
113 |
Steel belt conveyor and assembly |
US40850954 |
1954-02-05 |
US2855093A |
1958-10-07 |
OSSIAN EK |
|
114 |
Conveyr belting |
US40230354 |
1954-01-05 |
US2748044A |
1956-05-29 |
SEILER ARTHUR J |
|
115 |
Method of and apparatus for fabricating conveyer belting |
US26862052 |
1952-01-28 |
US2696865A |
1954-12-14 |
SEILER ARTHUR J |
|
116 |
Conveyer belt guard edge |
US47426843 |
1943-02-01 |
US2397584A |
1946-04-02 |
HENRY AMBRUSON |
|
117 |
Belt edge |
US25372439 |
1939-01-31 |
US2230354A |
1941-02-04 |
KING VERNON C |
|
118 |
Wire belt |
US6515836 |
1936-02-21 |
US2151913A |
1939-03-28 |
HARTER NOAH S |
|
119 |
Conveyer |
US8380336 |
1936-06-05 |
US2066206A |
1936-12-29 |
WILLIAM LAURIE |
|
120 |
Fishplate for laterally joining two or more metallic strips |
US71712634 |
1934-03-23 |
US2029635A |
1936-02-04 |
BIRDY RALSON ALFRED |
|