Tag Archives: machine used

China Custom Power Cable Laying Machine Used on Underground Manhole Cable Guide Roller

Product Description

Power cable laying machine used on underground manhole cable guide roller

Basic Introduction Of Cable Roller

Power and communication cables are often laid in open trenches where the road and ground conditions result in the cable route having a number of curves. With the cable’s own weight and the high tensions involved the cable cannot be fed cleanly.
The ground cable rollers and corner cable rollers from SINTA are made of aluminium, steel or plastic. The sturdy and robust steel frames are completely galvanized and guarantee a long working life even under extreme conditions.

The Specification List of Cable Roller

Product Model

XTCR

Wheel Length (mm) –M

160

Wheel Dia (mm) –R

140

Size (mm) (L*W*H)

530*300*300   420*320*320

140*60*165      170*100*225

Cable Capacity

155mm

Carrying Load

300Kg

Weight(kg)

10KG-12KG

Finish

Electro Galvanized / Hot Dip Galvanized

Construction

Medium Duty (10kg) ; Heavy Duty (12KG)

Wheel Material

Aluminum alloy material     Nylon material      Cast Iron

Feature of Power cable laying machine used on underground manhole cable guide roller
1. Able to carry high loads
2. With chromel steel ball bearing
3. With a high load bearing capacity
4. Self-lubrication, precision machined and low friction
5. Low noise,stable performance and durable
6. Able to work in sub-zero temperatures and have low rolling resistance
7. Suitable for countless applications: sliding pipe, machine equipment and other sliding systems.

 

Direction for use

Cable pulley wheel is often laid in open trenched where the road and ground conditions result in the cable route having a number of curves. With the cable’s own weight and the high tensions involved the cable cannot be fed cleanly. The pulley block from SINTA is made of aluminium or nylon, frame is high grade galvanized steel or copper. The sturdy and robust steel frames are completely galvanized and guarantee a long working life even under extreme conditions.

Pictures of Power cable laying machine used on underground manhole cable guide roller

The wheels of Cable Roller

Package of Power cable laying machine used on underground manhole cable guide roller: cable roller occupy small volume, be packed in paper box, convenient to transport

Delivery: within about 15 days after receiving the deposit.

1)We manufacture a lot of models Cable pulling block for different uses in the overhead transmission line
construction.
2) The cable pulley is used to support conductors, OPGW,ADSS, communication lines
3) The cable pulley is made from high strength MC nylon, aluminum, the frame are made of galvanized steel.
4) High strength and flexibility, easy to use, light weight, wearresisting, and long service life.

Other type of Cable Roller

/* March 10, 2571 17:59:20 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1

Type: Cable Roller
Customized: Customized
Condition: New
Feature: Fire/Flame Retardant
Weight: 5-12kg
Application Range: ≤150mm
Samples:
US$ 10/Piece
1 Piece(Min.Order)

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Customization:
Available

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guide roller

How do guide rollers contribute to precise and controlled motion in conveyor systems?

In conveyor systems, guide rollers play a crucial role in ensuring precise and controlled motion. Here’s a detailed explanation of how guide rollers contribute to achieving precise and controlled motion in conveyor systems:

  • Guidance and Alignment:

Guide rollers are strategically positioned along the conveyor system to provide continuous guidance and alignment for the transported materials or objects. The design of guide rollers, such as flanges, grooves, or tapered shapes, helps maintain the proper orientation and prevents lateral movement or misalignment. By guiding the materials or objects along the desired path, guide rollers ensure precise and controlled motion, preventing deviation or disruptions in the conveyor system.

  • Smooth and Low-Friction Movement:

Guide rollers are designed to offer smooth and low-friction movement. The surface configuration of guide rollers, often smooth or with minimal friction characteristics, reduces resistance and allows materials or objects to glide easily along the conveyor. This smooth movement minimizes jerks, vibrations, and inconsistencies, contributing to precise and controlled motion. It facilitates the accurate positioning and delivery of materials or objects to their intended destinations within the conveyor system.

  • Load Distribution and Stability:

Guide rollers distribute the load evenly across the conveyor system, contributing to stability and controlled motion. As materials or objects pass over the guide rollers, the load is shared among multiple rollers, preventing excessive stress on any individual roller. This load distribution minimizes the risk of roller damage, wear, or failure, ensuring consistent and reliable motion. The stability provided by guide rollers allows for precise control and avoids issues like wobbling, tilting, or material spillage during transportation.

  • Acceleration and Deceleration Control:

Guide rollers assist in controlling the acceleration and deceleration of materials or objects within the conveyor system. By adjusting the spacing and configuration of guide rollers, the speed changes can be managed more precisely. Guide rollers can be strategically positioned closer together to slow down the motion or spaced farther apart to allow for faster speeds. This control over acceleration and deceleration ensures a smooth and controlled transition between different conveyor sections or when starting and stopping the conveyor system.

  • Cam Follower Rollers for Synchronized Motion:

In conveyor systems that require synchronized motion or precise positioning, cam follower rollers are used. These specialized guide rollers are designed to follow a specific cam profile or track, allowing for accurate and controlled movement. Cam follower rollers ensure that multiple materials or objects on the conveyor system move in sync, maintaining precise spacing and alignment. They are commonly used in applications such as indexing mechanisms, assembly lines, or processes that require coordinated motion.

Overall, guide rollers contribute to precise and controlled motion in conveyor systems through their guidance and alignment capabilities, smooth and low-friction movement, load distribution and stability, control over acceleration and deceleration, and the use of specialized cam follower rollers. By incorporating these design features, guide rollers facilitate accurate material handling, minimize errors or deviations, and ensure efficient and reliable operation of conveyor systems.

guide roller

How do guide rollers contribute to the adaptability and versatility of conveyor systems in various settings?

Guide rollers play a critical role in enhancing the adaptability and versatility of conveyor systems in various settings. Here’s a detailed explanation of their contributions:

  • Flexible Path Routing:

Guide rollers enable flexible path routing, allowing conveyor systems to navigate complex layouts and adapt to different settings. By guiding the materials along specific paths, guide rollers facilitate precise material movement around obstacles, corners, inclines, or declines. This flexibility in path routing enables conveyor systems to be customized and configured to suit the specific requirements of different environments, layouts, or production processes. It allows for efficient space utilization and the integration of conveyors into existing infrastructure, making conveyor systems adaptable to a wide range of settings.

  • Multiple Conveyor Configurations:

Guide rollers enable the creation of multiple conveyor configurations, enhancing the versatility of conveyor systems. By combining straight sections, curves, merges, and diverges, conveyor systems can be configured to accommodate various material flow patterns and operational needs. Guide rollers provide the necessary support and alignment to ensure smooth transitions between different conveyor sections, allowing materials to be efficiently transferred, merged, sorted, or diverted. This versatility enables conveyor systems to be adapted for different processes, such as assembly lines, distribution centers, warehouses, or manufacturing facilities.

  • Adjustable Speed and Control:

Guide rollers contribute to the adaptability of conveyor systems by enabling adjustable speed and control. By adjusting the rotational speed of the guide rollers, the speed of material movement can be customized to match the specific requirements of different processes or settings. This flexibility in speed control allows conveyor systems to handle a wide range of materials, from delicate or fragile items that require gentle handling to heavy or bulky items that require faster conveyance. Adjustability in speed and control enhances the versatility of conveyor systems and ensures optimal material handling in various settings.

  • Modularity and Scalability:

Guide rollers facilitate the modularity and scalability of conveyor systems, making them adaptable to changing production needs or facility layouts. Conveyor systems can be designed with modular components, including guide rollers, that can be easily reconfigured, added, or removed as required. This modularity allows for efficient system expansion, modification, or reconfiguration without significant downtime or disruption. Guide rollers can be adjusted, replaced, or repositioned to accommodate changes in material types, sizes, or handling requirements. The scalability and modularity provided by guide rollers make conveyor systems versatile and adaptable to evolving operational needs.

  • Material Compatibility:

Guide rollers contribute to the adaptability of conveyor systems by accommodating a wide range of materials. They can be designed with different materials, surface textures, or coatings to suit specific material characteristics, such as size, shape, weight, or fragility. Guide rollers with specialized surfaces, such as non-slip coatings or friction-reducing materials, can be used for conveying items that require additional grip or gentle handling. This material compatibility enhances the versatility of conveyor systems, allowing them to handle diverse products or materials in various settings, from lightweight packages to heavy-duty items.

In summary, guide rollers significantly contribute to the adaptability and versatility of conveyor systems in various settings. They enable flexible path routing, support multiple conveyor configurations, allow for adjustable speed and control, facilitate modularity and scalability, and accommodate a wide range of materials. By leveraging the capabilities of guide rollers, conveyor systems can be tailored to meet the specific needs of different industries, processes, or layouts, making them adaptable and versatile in diverse settings.

guide roller

What are the different types and configurations of guide rollers available in the market?

In the market, there are various types and configurations of guide rollers available to cater to different industrial applications. Here’s a detailed explanation of the different types and configurations:

  • Plain Guide Rollers:

Plain guide rollers, also known as cylindrical guide rollers, have a smooth surface without any grooves or flanges. They are commonly used when minimal guidance is required, and the primary function is to support and facilitate smooth movement. Plain guide rollers are suitable for applications where objects or materials need to be guided without significant lateral forces or directional control.

  • Flanged Guide Rollers:

Flanged guide rollers have built-in flanges on one or both sides of the roller. The flanges act as barriers to prevent objects from deviating or slipping off the roller. They provide enhanced lateral guidance and help maintain proper alignment during material handling. Flanged guide rollers are commonly used in conveyor systems, material transport applications, and scenarios where precise tracking and alignment are critical.

  • Grooved Guide Rollers:

Grooved guide rollers have one or more grooves along their circumference. These grooves provide additional guidance and increase the contact area between the roller and the object being transported. The grooves help prevent lateral movement and improve the overall stability of material handling. Grooved guide rollers are commonly used in applications that involve curved tracks, cornering, or situations where objects may be subjected to lateral forces.

  • Tapered Guide Rollers:

Tapered guide rollers have a tapered or conical shape, with a larger diameter at one end and a smaller diameter at the other. The tapered design allows for smooth transitions and alignment when objects move from one roller to another. Tapered guide rollers are often used in conveyor systems, sorting processes, and applications where objects need to be guided through changing directions or different stages of material handling.

  • Cam Follower Guide Rollers:

Cam follower guide rollers have a specialized design with a stud or shaft attached to the roller. They are used in applications where the guide roller needs to follow a specific cam profile or track. The cam follower design allows for precise and controlled movement along the cam surface, making them suitable for applications such as automation, indexing mechanisms, and machinery that require synchronized motion.

  • Adjustable Guide Rollers:

Adjustable guide rollers are designed with a mechanism that allows for easy adjustment of the roller’s position, height, or angle. They offer flexibility in aligning and positioning the guide rollers to accommodate different material handling requirements or changing operational conditions. Adjustable guide rollers are commonly used in conveyor systems, assembly lines, and applications where frequent adjustments or customization are necessary.

It’s important to note that these are general categories, and there can be variations and combinations of different features and configurations available in the market. The choice of guide roller type and configuration depends on factors such as the specific application, material handling needs, load requirements, and environmental conditions.

In summary, the market offers different types and configurations of guide rollers, including plain guide rollers, flanged guide rollers, grooved guide rollers, tapered guide rollers, cam follower guide rollers, and adjustable guide rollers. Each type and configuration caters to specific material handling needs and provides varying levels of guidance, support, and control.

China Custom Power Cable Laying Machine Used on Underground Manhole Cable Guide Roller  China Custom Power Cable Laying Machine Used on Underground Manhole Cable Guide Roller
editor by CX 2024-02-26

China wholesaler Packaging Industry Used Aluminum Alloy Guide Roller for Printing Machine

Product Description

Aluminum rollers are also called aluminum alloy guide rollers. They are made of high-quality aluminum alloy materials (6063-T5), which are molded into various specifications (from 30mm to 220mm in outer diameter), with a ribbed structure and high strength. And use precision equipment and special tools for surface finishing, can be used at high speeds. Easy operation.

We can make slot roller according to customers’ requirement, such as: Crossover aluminum roller, horizontal center, aluminum roller, roller, and cooling roller. its surface can also be specially treated: sandblasting, netting, Etc

Material 6063-T5
Certification ISO CE SGS
Processing Injection molding and maching
Structure Height Speed adjustable
Color As requirement
Application Food beverage Packing industry Pharmacetic etc
Package Plastic film + pallet
Production Capacity 8000 Pieces

The company occupies a total area of 185,000 square meters, and has international advanced production lines such as extrusion, anodizing, hard anodizing, precision round tube drawing, precision deep processing, electrophoretic painting, and powder spraying.
 
The company has successively passed ISO 9001:2015 quality management system certification, ISO 14001:2015 environmental management system certification, ISO 45001:2018 occupational health and safety management system certification, IATF 16949:2016 automotive industry quality management system certification, and won the honors of “famous brand product of China” and “famous trademark of ZheJiang Province”.

1.Is your price competitive compared to other companies?
Our business objectives are to give the best price with same quality and best quality with the same price.

2.Do you accept container loading inspection?
You are welcomed to send an inspector, not only for the container loading but anytime during the production time.

3.Do you offer OEM service for us?
Yes, we could design full solution drawings as your requirements. 

4.What is the delivery time?
Delivery time depends on order quantities. In general, the delivery time will be 30 days after receiving the deposit.

5.What’s the payment terms?
Usually by T/T, 30% deposit and the balance paid before shipment.

6.What certification do you have? What’s your standard?
We have ISO certification. Our standard is DIN, AAMA, AS/NZS, China GB.

7.What’s the packing way?
Commonly we use PVC Film + Shrink Film, also we can make as per customers’ requirements
/* March 10, 2571 17:59:20 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1

Material: Aluminium
Application: Chemical Industry, Grain Transportation, Mining Transport
Structure: Customize
Bearing Type: Customize
Type: Grooved Conveyor Idler
Alloy: Alloy
Samples:
US$ 0/Piece
1 Piece(Min.Order)

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Customization:
Available

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guide roller

Can you provide examples of products or machinery that commonly use guide rollers?

Guide rollers are used in various industries and applications where precise and controlled motion of materials or objects is required. Here are some examples of products or machinery that commonly use guide rollers:

  • Conveyor Systems:

Guide rollers are extensively used in conveyor systems across industries such as manufacturing, logistics, and warehousing. They are essential components in belt conveyors, roller conveyors, and gravity conveyors. Guide rollers ensure smooth and accurate movement of materials or objects along the conveyor, preventing misalignment, deviations, and material spillage. Conveyor systems in industries like automotive, food and beverage, e-commerce, and package handling rely on guide rollers for efficient material handling and transport.

  • Printing and Packaging Machinery:

In printing and packaging machinery, guide rollers play a critical role in maintaining precise alignment and tension control of materials, such as paper, film, or labels. They are used in machinery for processes like printing, laminating, slitting, cutting, and folding. Guide rollers guide the materials through various stages, ensuring accurate positioning and preventing wrinkles, creases, or misalignment. Printing presses, label applicators, paper converting machines, and packaging lines commonly incorporate guide rollers to achieve high-quality output and efficient production.

  • Textile Machinery:

Textile machinery, including weaving machines, knitting machines, and spinning machines, utilize guide rollers in their operations. Guide rollers guide the fabric or yarn through different stages of the manufacturing process, ensuring proper alignment, tension, and controlled movement. They help prevent yarn tangling, fabric distortions, or misalignment during weaving, knitting, or spinning. Guide rollers are crucial components in textile machinery, enabling efficient and precise fabric production.

  • Paper and Printing Industry:

In the paper and printing industry, guide rollers are utilized in various equipment and processes. For example, in offset printing presses, guide rollers assist in accurate paper feeding and alignment, ensuring precise registration of colors and images. In paper converting machines, guide rollers help guide the paper through cutting, folding, or gluing operations. Guide rollers also find application in bookbinding machines, where they facilitate the movement of paper signatures or book blocks through the binding process.

  • Metal and Woodworking Machinery:

Guide rollers are commonly used in metal and woodworking machinery to guide and support workpieces during cutting, shaping, or milling operations. In sawing machines, guide rollers ensure proper alignment and smooth movement of the material being cut. They also help prevent blade deflection or workpiece deviation. In woodworking routers or planers, guide rollers assist in controlling the movement of the workpiece, allowing for precise shaping or milling. Guide rollers contribute to increased accuracy and efficiency in metal and woodworking processes.

  • Automated Guided Vehicles (AGVs):

Automated Guided Vehicles (AGVs) used in material handling and logistics applications often incorporate guide rollers. Guide rollers are installed on AGVs to follow guide tracks or lines embedded in the floor or along the designated paths. They ensure accurate navigation and controlled motion of AGVs within warehouses, distribution centers, or manufacturing facilities. Guide rollers help AGVs maintain their intended paths, avoid obstacles, and achieve efficient and safe material transport.

These are just a few examples illustrating the wide range of products and machinery that commonly use guide rollers. Their versatility and ability to provide precise and controlled motion make guide rollers integral components in numerous industries, contributing to improved efficiency, productivity, and quality in various material handling and manufacturing processes.

guide roller

Are there innovations or advancements in guide roller technology that have emerged recently?

Yes, there have been several recent innovations and advancements in guide roller technology. Here are some notable developments:

  • High-Performance Materials:

Recent advancements in materials science have led to the development of high-performance materials for guide rollers. These materials offer improved strength, durability, and wear resistance, allowing guide rollers to withstand heavy loads and harsh operating conditions. For example, composite materials combining polymers and fibers offer excellent mechanical properties while being lightweight. Additionally, advancements in surface coatings, such as ceramic or diamond-like carbon (DLC) coatings, provide enhanced friction reduction, corrosion resistance, and longevity.

  • Precision Design and Manufacturing:

Guide rollers are now being designed and manufactured with a greater emphasis on precision. Advanced manufacturing techniques, such as computer numerical control (CNC) machining and 3D printing, enable the production of guide rollers with complex geometries, tight tolerances, and optimized performance characteristics. This precision design and manufacturing result in guide rollers that offer improved alignment, reduced vibration, and enhanced overall performance.

  • Integrated Sensors and Monitoring:

Advancements in sensor technology have made it possible to integrate sensors directly into guide rollers. These sensors can monitor various parameters such as temperature, vibration, or load, providing real-time feedback on the condition and performance of the guide rollers. This data can be used for predictive maintenance, allowing for proactive identification of potential issues and timely intervention to prevent failures or downtime. Integrated sensors and monitoring systems contribute to improved reliability, efficiency, and maintenance practices in material handling systems.

  • Smart Guide Rollers:

Smart guide rollers leverage emerging technologies, such as Internet of Things (IoT) and artificial intelligence (AI), to enhance their functionality and performance. These guide rollers can communicate with other components or systems within the material handling setup, enabling real-time optimization, automation, and control. For example, smart guide rollers can adjust their position or speed dynamically based on the specific material being handled or the desired process parameters. This adaptability and intelligence lead to improved efficiency, flexibility, and responsiveness in material handling operations.

  • Energy Efficiency:

In response to the growing emphasis on sustainability and energy conservation, guide roller technology has seen advancements aimed at improving energy efficiency. This includes the development of low-friction materials, optimized roller designs, and innovative bearing systems that minimize power consumption and reduce frictional losses. By reducing energy requirements, these advancements contribute to lower operational costs and a reduced environmental footprint.

In summary, recent innovations and advancements in guide roller technology encompass high-performance materials, precision design and manufacturing, integrated sensors and monitoring, smart capabilities, and energy efficiency. These advancements enhance the durability, performance, reliability, and sustainability of guide rollers, making them more effective and versatile in a wide range of material handling applications.

guide roller

What are the different types and configurations of guide rollers available in the market?

In the market, there are various types and configurations of guide rollers available to cater to different industrial applications. Here’s a detailed explanation of the different types and configurations:

  • Plain Guide Rollers:

Plain guide rollers, also known as cylindrical guide rollers, have a smooth surface without any grooves or flanges. They are commonly used when minimal guidance is required, and the primary function is to support and facilitate smooth movement. Plain guide rollers are suitable for applications where objects or materials need to be guided without significant lateral forces or directional control.

  • Flanged Guide Rollers:

Flanged guide rollers have built-in flanges on one or both sides of the roller. The flanges act as barriers to prevent objects from deviating or slipping off the roller. They provide enhanced lateral guidance and help maintain proper alignment during material handling. Flanged guide rollers are commonly used in conveyor systems, material transport applications, and scenarios where precise tracking and alignment are critical.

  • Grooved Guide Rollers:

Grooved guide rollers have one or more grooves along their circumference. These grooves provide additional guidance and increase the contact area between the roller and the object being transported. The grooves help prevent lateral movement and improve the overall stability of material handling. Grooved guide rollers are commonly used in applications that involve curved tracks, cornering, or situations where objects may be subjected to lateral forces.

  • Tapered Guide Rollers:

Tapered guide rollers have a tapered or conical shape, with a larger diameter at one end and a smaller diameter at the other. The tapered design allows for smooth transitions and alignment when objects move from one roller to another. Tapered guide rollers are often used in conveyor systems, sorting processes, and applications where objects need to be guided through changing directions or different stages of material handling.

  • Cam Follower Guide Rollers:

Cam follower guide rollers have a specialized design with a stud or shaft attached to the roller. They are used in applications where the guide roller needs to follow a specific cam profile or track. The cam follower design allows for precise and controlled movement along the cam surface, making them suitable for applications such as automation, indexing mechanisms, and machinery that require synchronized motion.

  • Adjustable Guide Rollers:

Adjustable guide rollers are designed with a mechanism that allows for easy adjustment of the roller’s position, height, or angle. They offer flexibility in aligning and positioning the guide rollers to accommodate different material handling requirements or changing operational conditions. Adjustable guide rollers are commonly used in conveyor systems, assembly lines, and applications where frequent adjustments or customization are necessary.

It’s important to note that these are general categories, and there can be variations and combinations of different features and configurations available in the market. The choice of guide roller type and configuration depends on factors such as the specific application, material handling needs, load requirements, and environmental conditions.

In summary, the market offers different types and configurations of guide rollers, including plain guide rollers, flanged guide rollers, grooved guide rollers, tapered guide rollers, cam follower guide rollers, and adjustable guide rollers. Each type and configuration caters to specific material handling needs and provides varying levels of guidance, support, and control.

China wholesaler Packaging Industry Used Aluminum Alloy Guide Roller for Printing Machine  China wholesaler Packaging Industry Used Aluminum Alloy Guide Roller for Printing Machine
editor by CX 2024-02-25

China Custom Cemented Carbide CZPT Roller Used for Milling Machine near me factory

Product Description

Cemented carbide CZPT roller used for milling machine

1. Product Introduction
For the rolling mill, CZPT rollers (also called ring rollers, CZPT wheel) is an indispensable part of wires export in the wires rolling process, it must be accorded with the requirements of high rigidity, good wear resistance (the service life is matched with the high-quality bearing), good thermal conductivity, a certain of red hardness, especially the high speed wires rolling (rolling speed is among 80-120m/s). In the current market, most of the CZPT wheels are manufactured by steel materials (especially in the domestic market), which have the weak wear resistance, short service life and high frequency replacement, so the scale benefit of wire materials is restricted. However, steel-bonded cemented carbide has the obvious strengths on this aspect.

          
2. Product Application

2.1Lighter than Tungsten carbide roller by 55%, Lighter than tool steel than 20%, so the CZPT roller accelerates from standstill to 35,000 rpm, without damaging the bearing.
2.2Very low coefficient of friction and self-lubricating properties, so the working portion of the CZPT roller is less worn, and the production can be greatly increased
2.3The coefficient of thermal expansion is close to that of the bearing steel. When the quenching is hot, the bearing will not get stuck. The thermal expansion coefficients of titanium carbide cemented carbide and tungsten carbide hard alloy are very different from those of steel. Therefore, the steel bonded carbide CZPT roller is more advantageous for bearing anti-seize ability than the 2 cemented carbide CZPT rolls.
2.4The micro structure is titanium carbide and high chromium tool steel, which has good thermal fatigue resistance.
2.5Anti-oxidation, less magnetic, non-stick steel.
2.6Annealing hardness is only HRC45-48, easy to process, after quenching, only a little fine grinding can be processed into finished products, the processing cost is low, so the price is also low. This is also 1 of the main reasons why titanium carbide CZPT rolls are superior to tungsten carbide CZPT rollers.
2.7Hardness HRC62-67, good wear resistance. The service life is 8-10 times that of high speed steel.
2.8Absolutely dense, the pores are almost zero, so it will not break when used and can be reused.
2.9Compared with similar foreign products, the price of Miller MT10 is lower, which greatly saves the production cost of customers.
 

 

 

   Grade       Type of steel       Hard  phase       Density    
g/cm3
Hardness    TRS  
      Mpa    
   Porosity   
   Annealing   
HRC
   Hardning   
HRA
GT35 Tool steel TiC 6.5 46 86 1600 A04B00
All above are typical values for reference.

4.The advantage of Economic Cost(Common CZPT wheel(Cr12MoV) VS TiC Xihu (West Lake) Dis. Wheel)
    For example as we change the common CZPT wheel to the TiC CZPT wheel for 1 biggest Iron and Steel Group, Below
is the comparsion cost between Common Xihu (West Lake) Dis. Wheel and TiC Xihu (West Lake) Dis. Wheel:
 

Gudie Roller Mode   Service Life     Increased Life    Requested Quantity  Total Cost(US$)
(Hour/Time) Value(Times) (PCS/Month) (Roller Cost + Replacement cost)
Common Steel Xihu (West Lake) Dis. Wheel(Cr12MoV) 8 9 1800 27700
Our TiC Xihu (West Lake) Dis. Wheel 72 200 13850
Saving Cost     1600 13850

 

  1. HASTION Introduction
  HangZhou Hastion High-tech Materials Co., Ltd.(short for HASTION) is located in Xihu (West Lake) Dis. Small and Medium Enterprise Pioneer Park in HangZhou City, ZheJiang Province, which is covering an area of 60,000 square meters and a planned factory area of 50,000 square meters. Now HASTION have 2 different productions lines, one is the raw material metal compound and elemental powder(TiC/Cr3C2/VC/NbC/ZrC/HfC/(W,Ti)C/
(Ta,Nb)C and so on), the other 1 is the titanium carbide cermet rod/insert/plate/customized shape/guide roller and so on(belong to the steel-bonded cemented carbide), until now our products have been sold to many countries, like the Turkey, Belgium, Australia, Japan, Korea, Vietnam, India, Pakistan, Thailand and etc.

 

 

2. HASTION Workshop
HASTION has passed the ISO9001:2008 international quality system authentication. we are well equipped with the high-level machines for production and inspection.until now HASTION has total over 600tons annual production capacity(TiC rod: 120-180tons;  metal powder: 400-450tons), also our prodution scale is still increasing.

 

 

 

 

 1. Package Details(Metal Powders and TiC Rod/Insert/Plate Products)
       Samples:  by vacuum plastic bag firstly, then Carton.
 Productions:  by steel drums, then packed by pallet.

 2. Shipping Method
   
 By international express(DHL,FEDEX,TNT or others) / by sea / by air

 

 

 

 

 

  Q1. Are you factory or trading company ?
     A:  We are the largest manufacturer of TiC rod with 50000m2 factory in China, and the lowest competitive price for you as the mainly raw material of TiC rod(TiC powder) is produced by ourselves. Warmly welcome to visit our factory. CONTACT US NOW.

  Q2. What’s the MOQ ?
    A:  (1) NO MOQ if stock available. 
         (2) If no stock,different products different MOQ, and final quantity can be negotiated .
               So email or call me what’s the products you interested in ?
 
  Q3. What is your principle for the samples ?
    A:  FREE SAMPLES(<1kg) for you if you are willing to pay the shipping cost.

  Q4. Which payment can be acceptable ? 
    A:   By T/T, L/C, Western Union, Paypal and so on. 

  Q5. How about your delivery time?
   A:   Normally it’s 7-15days after receipt of deposit. Large quantity needs to be negotiated.

 

How to Repair a Timing Belt Tensioner

Your timing belt tensioner is a critical component of your vehicle’s drivetrain. Too little tension, for example, will cause the belt to slip, and too much tension can overload shaft bearings, leading to premature failure. If you notice that your belt tensioner is not working properly, you should immediately visit a mechanic. Corrosion from road splash, dirt, mud, or other debris can jam the tensioner housing. To avoid this, make sure that you replace your timing belt tensioner as soon as possible.
belt

Symptoms of a bad belt tensioner

If you’ve ever wondered what signs indicate a bad belt tensioner, look no further than your vehicle’s engine. Worn belts or a broken tensioner can cause an irritating squealing noise, as well as the belt to slip. Even worse, a bad tensioner can cause water to enter the belt and pulley, resulting in water damage. A worn tensioner is usually the culprit of the noise, but there are also other warning signs that a belt is in trouble.
Your vehicle’s engine may start to run poorly or even squeal when you turn the key. Similarly, your engine may fail to start at all, or the check engine light may illuminate. The belt may also start to wear out in an unusual pattern. These signs indicate that the tensioner is in need of replacement. If you notice 1 or more of these signs, get your car checked right away.
To check the condition of the tensioner, remove the drive belt and observe the pulley. You may notice rust dripping or bleeding at the mounting bolts, which are the most common signs of a bad tensioner. If you can’t remove the drive belt, check the pulley by rotating it. If you feel resistance, the pulley is likely worn or slack.
Failure of the belt tensioner will also cause other parts of the car to fail. If a bad belt tensioner isn’t fixed quickly, you might not be able to use the vehicle properly. You could end up breaking your car’s engine, losing power steering, and possibly even the water pump. If your car is not running right, you could be stuck in the middle of nowhere. Even if the alternator doesn’t work, you’ll still have a malfunctioning power steering system and a dead AC system.
A broken timing belt tensioner can cause strange noises or a no-start condition. These noises and symptoms are signs of a bad belt tensioner, and you’ll have to replace it ASAP. If you don’t know what symptoms mean, don’t hesitate to take your car to a mechanic. You’ll be surprised how easy it is to check this vital component and save yourself a bunch of money.

Components of a belt tensioner

The components of a belt tensioner assembly consist of 4 key components. The clearance between the pulley and the base is critical to the tensioner’s operation. If the tensioner is installed incorrectly, the spring can break and cause severe injury. The spring’s preload and powerful force make it difficult to service the unit safely. These parts are non-serviceable. If you are unsure of how to repair your tensioner, contact an authorized mechanic.
The components of a belt tensioner drive are shown in FIG. 2. The rotor shaft is connected to the drive screw, while the second transmission is connected to the gear shaft. The rotor and gear shaft are in parallel with each other. The gear shaft and worm wheel are connected to the belt tensioner drive. In other words, the belt tensioner drive is located in the B-pillar of the motor vehicle.
A belt tensioner may be equipped with a drive shaft and electric motor. The drive shaft may also contain a worm gear or worm wheel. The drive shaft also has an intermediate gearbox. Once the tensioner is set, it is ready to move to its safe-position position. It is a relatively simple and inexpensive replacement for your belt. When replacing a multi-ribbed belt, be sure to replace the tensioner along with the belt. Gates recommends replacing all wear parts at once.
In the event of a faulty drive belt tensioner, the belt will not stay taut. The pulley can wobble and cause the belt to fray. In addition to this, the bearings can cause a loud squealing noise. In this case, the accessory motors will continue to run, while the belt itself will not. Therefore, replacing the timing belt tensioner is an important part of maintaining the car.
In some systems, the belt tensioner uses a worm gear as the first gear. This results in rolling engagement of the screw’s teeth. This reduces noise and vibrations, while maximizing the efficiency of the belt tensioner drive. Additionally, a worm gear can eliminate the need for additional parts in belt tensioners. While this may not be practical in all instances, it is a good choice for space-constrained environments.
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Repair options for a timing belt tensioner

A timing belt tensioner is an essential part of an automobile’s timing chain and is responsible for ensuring proper timing. Proper alignment of timing marks is essential to the proper operation of the engine, and improper alignment may lead to damage to the engine. To repair a timing belt tensioner, there are several repair options available. First, you need to remove the engine cover. You can then remove the timing belt tensioner by loosening the pulley using a ratchet or breaker bar.
When the timing belt isn’t properly tensioned, the engine will misfire. The engine misfires when the valve opens and the pistons rise at the wrong time. When this happens, the timing belt cannot properly grip the gears and the engine will not function. If this part fails, you’ll have to replace the whole timing chain. However, if you are handy with tools, you can easily replace the entire timing belt tensioner yourself.
If your timing belt tensioner is out of alignment, you should replace it. If you’re not sure whether it needs to be replaced, check it with a professional and learn the details of the repair. The timing belt tensioner is the most critical part of the engine, so it’s important to know about it. Otherwise, your car won’t run as well as it could. Repair options for a timing belt tensioner will vary depending on the severity of the problem and how much damage it has done.
While there are several repair options for a timing belt tensioner, the average cost of replacement is $364 to $457, and this doesn’t take into account any tax or fee you may be charged. DIY repair methods will usually cost you $50 to $150, and you’ll likely save a lot of money in the process. However, you need to remember that you may be unable to do the job yourself because you don’t know how to use the proper tools and equipment.
While it is not difficult to replace a timing belt tensioner on your own, you should know that you’ll need to remove other parts of the engine as well as special tools to make the repair properly. This is an advanced repair job and requires a great deal of skill. If you’re new to home car repair, you may not want to attempt it yourself. There are many other options, such as hiring a mechanic.
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Installation instructions

While there are no universal installation instructions for belt tensioners, the manufacturer of your car may provide detailed instructions. Before attempting to replace your tensioner, read the manufacturer’s recommended procedures carefully. To install a new tensioner properly, unload the old 1 and take a picture or sketch of how the belt should be routed. Once the old tensioner is out, follow the manufacturer’s torque specifications. Make sure to unload and remove the belt from the tensioner, and follow the manufacturer’s torque specifications to install the new one.
If your car comes with a manual belt tensioner, you can follow the instructions. The manual will have a corresponding guide for installation. When installing a belt tensioner, make sure the manual clearly states the static tension for your particular model. Check that it is in line with the engine relief to ensure proper belt tension. You can then use a 6mm allen key to turn the tensioner clockwise and counterclockwise. Once it is in position, release the tensioner to operate. The belt tensioner should now apply the proper tension to your belt.
Before installing a new belt tensioner, make sure you read the manual completely. You should follow these steps carefully to avoid any problems with the tensioner. If the tensioner has failed, you must replace it immediately. A new belt tensioner will help you ensure proper performance of your accessory belt drive system. If you are installing a new multi-ribbed belt, you should replace the tensioner as well. However, it is important to note that replacing the belt tensioner is a complicated process and requires a mechanic to be able to safely remove the belt from the engine.
To install a second stage drive belt, walk the belt onto the input drive and generator. Ensure that the belt is seated properly in the grooves of the pulleys. Next, replace the input drive belt and right and left Drive Disk covers. Test the machine to ensure that it is working properly. If it doesn’t, replace the original drive belt. After installing the new belt, you may want to read the manual again to make sure it is in perfect condition.

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