Timing conveyor belts support conveying and linear movement applications where optimum performance requires precise product placement and component positioning. Our combination of high-quality materials and years of industry experience ensure that we provide innovative timing conveyor belt solutions tailored to your needs, every time.
(More Information about industrial timing belt) Click Here
Fabrication options for our timing conveyor belts
UFB Industrial can help whether you have an existing synchronous timing belt application you would like to make improvements to, or you have a new design in mind.
Measuring belt is easy task. If you want to replace your treadmill belt with new one. Its so easy and you can do it at home / office or gym without any tension. Most of our customers ask the similar questions. With this reading, you will be able to measure your belt.
How can they measure their belt?
They have doubts in measuring belt and can not ensure the size.
Size is different in every attempt.
Related questions.
Measure Treadmill belt at home
If you follow our instructions, you will find accurate size in every attempt and you would have no doubt on treadmill belt size. There are three different methods to measure belt. We highly recommend to recheck or reconfirm after remeasuring twice or thrice to avoid any mistake.
Once after size confirmation, Order jogging belt to Umar Farooq Belting for better belt material and long lasting Conveyor belt joint type.
Important Note: Make all measurements straight, moving from right to left or left to right or non straight lines may cause imperfect size
Treadmill Belt measurement Method No. 1
Step 1: Make a mark at your belt (Full width mark – use visible color or mark with white tape)
Step 2: Get a measuring tape or long scale (do not use 6 inch or 1 feet scale)
Step 3: Start measuring belt from Full width mark
Step 4: Once you measure the front size of belt, make a small mark at this point and note the length
Step 5: Measure from small mark to next small mark. Note this length also
Step 6: Measure from 2nd small mark to 1st full width mark.
Step 7: Measure belt width.
مرحلہ نمبر 1: آپ کے بیلٹ پر ایک نشان بنائیں (مکمل چوڑائی کا نشان – ظاہر رنگ کا استعمال کریں یا سفید ٹیپ کے ساتھ نشان زد کریں)
مرحلہ 2: ماپنےکےلیے فیتہ ٹیپ سے لمبائی حاصل کریں (6 انچ یا 1 فٹ والے پیمانے استعمال نہ کریں)
مرحلہ 3: مکمل چوڑائی کے نشان سے بیلٹ کی پیمائش شروع کریں
مرحلہ 4: ایک بار جب آپ بیلٹ کے سامنے سے سائز کی پیمائش کرتے ہیں، اس وقت وہاں پر ایک چھوٹا سا نشان لگاہیں اور لمبائی کو نوٹ کریں۔
مرحلہ 5: چھوٹے نشان سے اگلے چھوٹے نشان پر پیمائش کریں. یہ لمبائی بھی یاد رکھیں
مرحلہ 6: دوسری چھوٹی نشان سے پہلی مکمل چوڑائی تک کے نشان تک پیمایؑش کریں.
پیمایؑش مکمل ہو جا ےؑ گئ
مرحلہ 7: بیلٹ چوڑائی کا تعین(پیمایؑش) کریں.
اہم نوٹ:
صحیح پیمانے پر بائیں یا دائیں طرف نہ لے کر جایؑں نہی تو تمام پیمائش غلط ہو جاےؑ گی، یا سیدھا نا ناپنے کی وجہ سے سایؑز میں فرق آ سکتا ہے۔
To assist with positive tracking, a guide strip(s) is often used on the pulley side of conveyor belts. V–guides are the most common shapes used. However, square and rectangular shapes are also available. In addition, Sparks has designed and developed round dot-guides for traveling over very small pulleys.
.Tracking assistance is often required on:
Short, wide conveyors
Conveyors with side-loading
Reversing conveyors
Guide strips will not guarantee tracking success on a conveyor or conveyor belt that is poorly manufactured or lacking dimensional accuracy. The conveyor system and conveyor belt should be manufactured to reasonably track by normal means so that the use of guide strips can further ensure trackability.
The conveyor pulleys, bed and/or idler rollers should have an opening that is 1/4” wider and 1/16” deeper than the guide strip on the conveyor belt. Or conversely, the guide strip furnished on the conveyor belt should be 1/4” narrower and 1/16” shallower than the opening in the pulley, bed and/or idler rollers of the conveyor system. Guide strips are intended to improve tracking. They are not designed to drive the belt!
In general, a larger pulley is required when guide strips are used in conjunction with the belt. Smaller sized guide strips will operate over smaller pulleys better than larger guide strips. Guide strips made of softer durometer materials (i.e. PVC) will operate over smaller pulleys better than harder durometer materials (i.e. Polyurethane). Notched or segmented guide strips will navigate smaller pulleys better than solid guide strips.
Guide strips can be supplied down the center of the bottom of the conveyor belt or off-center to reduce wandering (side to side movement).
While it seems logical that two guides are better than one, it isn’t always true! Two guide strips require more precision in the conveyor design and in the placement of the guides on the belt. However, when two guide strips are required, the critical dimension is the center to center distance of the guide strips from each other. This is far more accurate (due to width tolerances in belting) than measuring from each edge of the belt to the center of each guide strip!
Conveyor belts are the driving force in conveying operations. There are many different types and materials for the abundance of applications in the market. However, there are a few different textiles that serve an important purpose in conveyor belting.
Purpose of Textiles in Conveyor Belting
Provides Strength for Tensioning
Provides Strength for Handling the Load
Adds Rigidity or Stiffness, “Gives it Body”
Improves Mechanical Fastener Retention
Improves Wear Against the Conveyor Bed
Reduces Sliding Drag on Product or Conveyor Bed
Types of Textiles/Fibers Used in Conveyor Belting
Natural:
Cotton & Wool
Solid woven cotton is often used in baking applications where belts must “breathe”, absorb, and/or handle warm products. It is also used in applications to handle warm, green rubber products. Cotton is used in length, width, or in both directions of multiple plied conveyor belting to increase the bulk of the overall product on applications which require resistance to impact without requiring high strength. Most commonly, it is placed either on the top or bottom ply of multiple plied belts to provide lower drag against the conveyor bed or some conveyed products – like cartons.
Characteristics & Properties
Moderate Strength
High Bulk – a course, thick fiber
High absorbing
Low modulus – high elongation
Low cut and abrasion resistance
Moderate temperature resistance
Low mildew resistance
Man-Made:
Synthetic – Aramid, Nylon, Polyester
Nylon:
A nylon core is used to provide high strength as required in some flour, paper, box, and wood applications for conveying products or transmission of power. It is used as the width fiber (fill yarn) in conveyor belting to increase rip resistance and fastener retention as well as to resist abrasion from building material products.
Characteristics & Properties
High Strength
High Elasticity – Stretch and Shrink
Moderately Absorbing
Moderate elongation
High Cut and Abrasion Resistance
High Mildew Resistance
Polyester:
Solid woven polyester is used as a durable and low cost option for general conveyance, with specific uses in parcel, package, and baggage applications. Polyester is used in the length (warp), width (fill), or in both directions of the weave as an inexpensive carcass for multiple plied conveyor belting. Spun polyester generates less noise and is used when higher speeds are used on long(er) slider bed applications.
Characteristics & Properties
High Strength
Low Elasticity – Stretch and Shrink
Moderately Absorbing
Moderate Elongation
Moderate Cut and Abrasion Resistance
Low Temperature Resistance
High Mildew Resistance
Aramid (Kevlar):
Kevlar is used in glass applications where belts must withstand hot temperatures and retard flames, in heavy applications near industrial furnaces or conveying hot products being discharged from heat processes, and in heavy applications where resistance to high or heavy impact is important.
Characteristics & Properties
High Strength
High Bulk – A Coarse, Thick Fiber
High Modulus – Low Elongation
High Flame Resistance
High Impact Resistance
High Temperature Resistance
Blending of Textiles
A blend of textiles is often used to gain the benefits of a variety of features that provide solutions and enhance belt
