China Standard 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

Can a conveyor chain be used in automotive assembly lines?

Yes, a conveyor chain can be effectively used in automotive assembly lines. Here are the reasons why:

1. Efficient Material Handling:

– Conveyor chains provide a reliable and efficient means of transporting automotive components and parts along the assembly line. They can handle heavy loads and withstand the demanding requirements of automotive manufacturing.

2. Versatility:

– Conveyor chains offer versatility in terms of design and configuration. They can be customized to accommodate various assembly processes, such as body welding, painting, assembly, and final inspection.

3. Precise Positioning:

– Conveyor chains allow precise positioning and synchronization of automotive components, ensuring accurate assembly and alignment during the production process. This helps maintain consistent quality and reduces errors.

4. Automation Integration:

– Conveyor chains can be easily integrated with automation systems in automotive assembly lines. They can work in conjunction with robotic arms, vision systems, and other automated equipment to optimize the production process and improve efficiency.

5. Assembly Line Flexibility:

– Conveyor chains provide flexibility in terms of line configuration and layout. They can be designed to accommodate different assembly line layouts, including straight sections, curves, inclines, and declines, to meet the specific requirements of automotive assembly processes.

6. Space Optimization:

– Conveyor chains help optimize space utilization in automotive assembly plants. They can be designed to navigate around existing equipment and infrastructure, making efficient use of available floor space.

7. Safety:

– Conveyor chains are designed with safety features to protect operators and prevent accidents. Emergency stop controls, guarding, and interlocking mechanisms ensure the safe operation of the assembly line.

8. Increased Production Speed:

– By using conveyor chains, automotive assembly lines can achieve higher production speeds, allowing for faster manufacturing cycles and increased output.

Overall, conveyor chains play a crucial role in enhancing the efficiency, productivity, and safety of automotive assembly lines, contributing to the smooth and streamlined production of vehicles.

conveyor

What are the advantages of using a plastic conveyor chain?

Plastic conveyor chains offer several advantages over traditional metal chains. Here are some of the key advantages:

1. Corrosion Resistance: Plastic chains are highly resistant to corrosion, making them ideal for applications in humid or corrosive environments. They do not rust or deteriorate when exposed to moisture or chemicals.

2. Lightweight: Plastic chains are significantly lighter than metal chains, making them easier to handle and install. Their lightweight nature reduces the overall weight of the conveyor system and can result in energy savings during operation.

3. Low Noise Operation: Plastic chains generate less noise compared to metal chains, leading to a quieter working environment. This can be particularly beneficial in industries where noise reduction is important, such as food processing or packaging.

4. Reduced Friction and Wear: Plastic chains have self-lubricating properties, which reduce friction and wear. This results in lower maintenance requirements and longer chain life. The smooth surface of plastic chains also minimizes the risk of product damage during transportation.

5. Flexibility and Modularity: Plastic chains can be easily customized and designed to fit specific conveyor system requirements. They offer flexibility in terms of length, width, and configuration. Additionally, plastic chains are often modular, allowing for easy replacement of damaged or worn-out sections without replacing the entire chain.

6. Cost-Effective: Plastic conveyor chains are generally more cost-effective compared to metal chains. They are often less expensive to manufacture and offer a longer lifespan with minimal maintenance requirements, resulting in lower overall costs.

7. Chemical Resistance: Plastic chains are resistant to a wide range of chemicals, making them suitable for applications where exposure to aggressive substances is a concern. They can withstand contact with oils, acids, alkalis, and various cleaning agents.

Overall, the advantages of using a plastic conveyor chain include corrosion resistance, lightweight design, low noise operation, reduced friction and wear, flexibility, cost-effectiveness, and chemical resistance. These benefits make plastic chains a popular choice in various industries, including food processing, packaging, pharmaceuticals, and logistics.

conveyor

How do you properly tension a conveyor chain?

Properly tensioning a conveyor chain is crucial for its smooth operation and to prevent issues like chain slipping or excessive wear. Here are the steps to properly tension a conveyor chain:

  1. Identify the Tensioning Points: Determine the locations where the conveyor chain can be tensioned. These are typically at the ends of the chain or at specific tensioning devices.
  2. Loosen the Tensioning Devices: If there are tensioning devices in place, such as adjustable bolts or tensioning screws, loosen them to allow for adjustment.
  3. Apply Tension: Apply tension to the conveyor chain by either manually pulling the chain or using a tensioning tool. The amount of tension required depends on the chain type and the manufacturer’s recommendations.
  4. Check the Tension: Use a tension gauge or other suitable method to measure the tension of the conveyor chain. The tension should fall within the specified range provided by the chain manufacturer.
  5. Adjust the Tension: If the tension is too loose or too tight, make adjustments accordingly. Tighten or loosen the tensioning devices until the desired tension is achieved.
  6. Secure the Tensioning Devices: Once the proper tension is achieved, securely tighten the tensioning devices to hold the chain in place.
  7. Verify the Tension: After tensioning the chain, perform a visual inspection and run the conveyor to ensure the chain runs smoothly without excessive slack or tightness. Make any further adjustments if necessary.

It’s important to refer to the specific guidelines provided by the conveyor chain manufacturer for proper tensioning instructions, as the exact method may vary depending on the chain type and design. Regularly check the tension of the conveyor chain and make adjustments as needed to maintain optimal performance.

China Standard Conveyor Agriculture Chain Roller Chain with Scraper  China Standard Conveyor Agriculture Chain Roller Chain with Scraper
editor by CX 2023-07-31