China high quality Conveyor Agriculture Chain Roller Chain with Scraper

Product Description

Drop Forged Chains “Y” Serial

 

FEATURES

• It consists of forged steel links, which can be equipped with various plastic or steel scrapers. The connection pin between these links is in a circlip version.
• Special heat treated alloy steel,drop forged and precision machined, with case hardened.
• High strength, strong load-carrying capability.
• Extremely hard exterior surface and superior wear
resistance.

TECHNICAL SPECIFICATIONS

Model P
(mm)
H
(mm)
B
(mm)
D
(mm)
b
(mm)
T
(mm)
Breaking Load
(Min.)
Material
P100 100 30 33 14 15.5 13 140KN 40Cr
P125-B 125 35 34 17 17 8 150KN 40Cr
P142 142 50.8 43 25 19 12.2 180KN 20CrMnTi
300KN 40Cr
P142H 142 50 62 25 29 15 280KN 20CrMnTi
460KN 40Cr
P160 160 40 48 20 22.5 20 240KN 40Cr
P200 200 64 50 32 23 15 390KN 40Cr
P200-E 200 45 42 20 20 12.2 200KN 40Cr

Note: Customised sizes and material are available CZPT request

 

Roller Conveyor Chains

FEATURES

• It consists of a combination of inner and outer links. 
• The bush/pin connections between the links are available in a circlip, split pin, or a riveted version. 
• The steel scrapers can be either bent or welded. 
• UHMWPE lights are suggested to attach to the scrapers for more eficiency and high wear resistance.

GLF Type

TECHNICAL SPECIFICATIONS

Model Pitch
(P)
Scraper
Distance
(P1)
Inner
Width
(b)
Plate
Width
(B)
T1 T2 Roller
Dia.
(D)
Bush
Dia.
(D2)
Pin Dia
(D1)
Chain
Width
(L)
E1 E2 Number
of Holes
(n)
d Breaking
Load in
KN
(Min.)
GLF66.675
(6)D×182
66.675 266.7 26 30 6 6 22.23   12.7 182 90 150 4 9 130
GLF66.675
(6)D×215
66.675 266.7 26 30 6 6 22.23   12.7 215 95 195 4 9 130
GLF66.675
(6)D×295
66.675 266.7 26 30 6 6 22.23   12.7 295 95 195 4 9 130
GLF100
(6)D×170
100 200 38 40 6 6 36 21.6 16 170 115   2 9 220
GLF100
(6)D×225
100 200 38 40 6 6 36 21.6 16 225 104 194 4 9 220
GLF100
(6)D×294
100 200 38 40 6 6 36 21.6 16 294 115 245 4 9 220
GLF100
(5)×225
100 200 28 30 5 5 22.23   14.27 225 95 195 4 9 90
GLF125
(8)D×285
125 500 50 50 8 8 32   19.9 285 155 255 4 9 220
GLF125
(6)×235
125 250 32.5 40 6 6 28.58 20 14.27 235 95 195 4 9 170
GLF160
(6)×290
160 320 27 45 6 6 32 20 14.27 290 193   2 9 193

GLR Type

TECHNICAL SPECIFICATIONS

Model Pitch
(P)
Scraper
Distance
(P1)
Inner
Width
(b)
Plate
Width
(B)
T1 T2 Roller
Dia.
(D)
Bush
Dia.
(D2)
Pin Dia
(D1)
Chain
Width
(L)
E1 E2 Number
of Holes
(n)
d Breaking
Load in
KN
(Min.)
GLR66.675 66.675 266.7 27.5 30 6 6 24   13 130 102 32 4 9 90
GLR100 100 200 38 40 6 6 36 21.6 16 130 102 32 4 9 220

 

 
Other products of our conveyor parts:

 

Could you please send me inquiry for details?

 

 

Material: Steel
Structure: Roller Chain
Surface Treatment: Oxygenation
Transport Package: Pallet
Specification: GLF, GLR
Trademark: Yutung
Samples:
US$ 10/Piece
1 Piece(Min.Order)

|
Request Sample

Customization:
Available

|

Customized Request

conveyor

How does a conveyor chain handle accumulation and indexing applications?

In conveyor systems, accumulation and indexing refer to specific methods of controlling the movement and positioning of items along the conveyor line. A conveyor chain can effectively handle these applications through the use of specialized components and control mechanisms. Here’s a detailed explanation:

Accumulation:

– Accumulation refers to the process of temporarily storing or buffering items on the conveyor to control the flow of materials. Conveyor chains designed for accumulation applications typically incorporate features such as low-friction chain guides, accumulating zones, and sensors.

– In an accumulation conveyor chain system, the chain is divided into discrete zones where items can accumulate. As products enter a zone, the chain slows down or stops, allowing items to accumulate without colliding with each other. Sensors or photoelectric cells detect the presence of items in each zone and provide signals to control the chain movement.

– The accumulation zones in the conveyor chain system can be controlled in different ways, such as through the use of motorized rollers, pneumatic devices, or electronic sensors. This ensures a controlled and synchronized flow of items along the conveyor line.

Indexing:

– Indexing refers to the precise positioning of items at specific intervals along the conveyor line. This is commonly used in applications where accurate positioning or sequencing is required, such as assembly or packaging processes.

– Conveyor chains designed for indexing applications incorporate specialized index pins, stops, or precision indexing drives. These components work together to accurately position items at predetermined locations along the conveyor.

– The indexing mechanism of a conveyor chain system can be driven by mechanical cams, servo motors, or programmable logic controllers (PLCs). The indexing motion can be synchronized with other processes or machines downstream to ensure precise assembly or packaging operations.

– By combining accumulation and indexing capabilities, a conveyor chain system can handle a wide range of applications, including sorting, buffering, sequencing, and automated assembly. It provides control over the flow and positioning of items, allowing for efficient material handling and optimized production processes.

conveyor

How does a conveyor chain contribute to overall production efficiency?

A conveyor chain plays a crucial role in enhancing overall production efficiency in various industries. Here are the ways in which it contributes to efficiency:

1. Continuous Material Flow: A conveyor chain enables continuous and uninterrupted material flow from one point to another. It eliminates the need for manual handling or transportation of goods, reducing downtime and delays in production processes.

2. Increased Throughput: By automating material handling, a conveyor chain enables faster and more efficient movement of goods. It allows for higher throughput and production rates, maximizing the utilization of resources and reducing cycle times.

3. Improved Productivity: With a conveyor chain, employees can focus on value-added tasks rather than manual material handling. This leads to improved productivity as workers can concentrate on more skilled and critical operations.

4. Efficient Resource Allocation: A well-designed conveyor chain system optimizes the utilization of space, allowing for efficient layout and organization of production areas. It helps in streamlining workflow and minimizing wastage of resources such as floor space, manpower, and equipment.

5. Quality Control: Conveyor chains can be integrated with inspection stations or automated processes to ensure quality control at various stages of production. This helps in detecting and rectifying any defects or inconsistencies, reducing the chances of faulty products reaching the market.

6. Reduced Material Handling Costs: By eliminating or minimizing manual material handling, a conveyor chain reduces labor costs associated with transportation, lifting, and carrying of goods. It also minimizes the risk of injuries or accidents related to manual handling.

7. Flexibility and Adaptability: Conveyor chains can be customized to suit specific production requirements. They can be designed to accommodate different types of products, handle various load capacities, and adapt to changes in production demands. This flexibility allows for seamless integration with existing production systems and easy scalability.

8. Safety and Ergonomics: Conveyor chains incorporate safety features such as guards, emergency stop buttons, and interlocks to ensure worker safety. They also promote ergonomic practices by reducing physical strain on workers and minimizing the risk of musculoskeletal injuries.

Overall, a well-designed and properly maintained conveyor chain system enhances production efficiency by optimizing material flow, increasing throughput, improving productivity, reducing costs, ensuring quality control, and prioritizing worker safety.

conveyor

What are the different types of conveyor chains?

There are several types of conveyor chains available, each designed to meet specific application requirements. Here are some common types of conveyor chains:

  • Roller chains: Roller chains are the most commonly used type of conveyor chain. They consist of a series of cylindrical rollers connected by side plates. Roller chains provide smooth and efficient movement and are suitable for medium to heavy-duty applications.
  • Double pitch chains: Double pitch chains have larger pitch (distance between the centers of adjacent pins) compared to standard roller chains. They are often used in applications that require slower speeds and lighter loads.
  • Hollow pin chains: Hollow pin chains have hollow pins that allow for easy attachment of various accessories or attachments. They are commonly used in conveying applications that require customization or where attachments need to be mounted.
  • Apron or slat chains: Apron or slat chains consist of plates or slats that are connected by hinges. They are used in heavy-duty applications where the chain needs to support and carry large loads or withstand harsh environments.
  • Plastic chains: Plastic chains are made of durable and lightweight materials such as acetal or polyethylene. They offer benefits such as corrosion resistance, low noise levels, and the ability to work in wet or washdown environments. Plastic chains are commonly used in food processing, packaging, and pharmaceutical industries.

These are just a few examples of conveyor chain types, and there are many other variations available depending on specific application requirements. The selection of the appropriate conveyor chain type depends on factors such as load capacity, speed, environment, and desired functionality.

China high quality Conveyor Agriculture Chain Roller Chain with Scraper  China high quality Conveyor Agriculture Chain Roller Chain with Scraper
editor by CX 2023-09-12