Produktbeschreibung
Unternehmensprofil
HangZhou Forte Metal Products Co., Ltd. is a professional forging and machining enterprise of gears, axles, hydraulics and other shaped parts, which is located in HangZhou City, ZHangZhoug Province.
After more than 40 years of development, Forte Metal has grown into a forging enterprise integrating forging, heat treatment, machining and surface treatment, with first-class production process, equipment and testing instruments. Also obtained ISO9001:2015 and ISO/TS16949 quality management system certification.
At present, our products are mainly exported to the United States, Japan, Europe, Southeast Asia, Russia and other countries, and are widely used in construction machinery, agricultural machinery, garden machinery, mining machinery, high-speed railways, automobiles, petrochemicals, valves and other industries, and are well received by all kinds of customers.
Warmly welcome to visit us!
Product Details Display:Details determine success or failure, details cast good parts
1 Strict material selection:The products are all made of high-quality materials and stamped, controlling quality from the source. They are not easy to corrode or rust, and are durable.
2 Excellent craftsmanship:The product has exquisite craftsmanship, precise size specifications, and reliable quality.
3 Multiple specifications:Widely used in a wide range of fields, with a complete range of specifications and supports customization based on drawings and samples
4 Strong manufacturer:Focused on the industry for many years, with rich experience, strict quality inspection at all levels, and reliable quality.
Quality Control
1) Checking the raw material after they reach our factory——- Incoming quality control ( IQC)
2) Checking the details before the production line operated
3) Have full inspection and routing inspection during mass production—In process quality control(IPQC)
4) Checking the goods after they are finished—- Final quality control(FQC)
5) Checking the goods after they are finished—–Outgoing quality control(OQC)
Häufig gestellte Fragen
Q1:Why choose Forte Metal?
1.More than 40 years experience in metal
2.Strict Quality Control System
3.Color/size/shape/logo/label can be customized.
4.Passed GB/T19001-2016 idt ISO 9001:2015, IATF 16949:2016
5.high quality and best service
6.Timely delivery and excellent service.
Q2: If my quantity is very small, could you do my products?
Yes, we can. Do not worry about the quantity. We will provide different production method based on your quantity.
Q3:How long would the delivery time?
It is based on all of your requirements about the products.
Q4:I didn’t find the products I want, can you OEM for me?
Yes, we are a professional OEM and ODM manufacturer with 40 years’ experiences. As long as you send us drawing or sample, we can customize for you
Q5:What about the warranty?
We are very confident in our products, and we pack them very well to make sure the goods in well protection.
To avoid any subsequent trouble regarding quality issue, we suggest that you check the springs once you receive them. If there is any transport damaged or quality issue, don’t forget take the detail pictrues and contact us as soon as possible,we will properly handle it, make sure your loss to reduce to the smallest .
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| Transportpaket: | Pallet |
|---|---|
| Spezifikation: | 50g-60kg |
| Warenzeichen: | OEM |
| Herkunft: | China |
| Proben: |
US$ 0/Stück
1 Stück (Mindestbestellmenge) | |
|---|
| Anpassung: |
Verfügbar
| Kundenspezifische Anfrage |
|---|
How do you calculate the maximum allowable tension in a conveyor chain?
The maximum allowable tension in a conveyor chain can be calculated using the following steps:
1. Determine the Chain Pitch:
– Measure the distance between the centers of two consecutive chain pins. This measurement is known as the chain pitch and is typically expressed in inches or millimeters.
2. Determine the Chain Speed:
– Determine the speed at which the conveyor chain will be operating. The chain speed is typically expressed in feet per minute or meters per second.
3. Calculate the Chain Pull:
– Determine the total weight or force that needs to be moved by the conveyor chain. This includes the weight of the conveyed material and any additional loads or forces acting on the chain.
4. Calculate the Required Tension:
– Use the following formula to calculate the required tension:
Tension = (Chain Pull × Chain Speed) / (Chain Pitch × Efficiency)
– The efficiency factor accounts for losses due to friction and other factors and is typically expressed as a decimal between 0 and 1.
5. Determine the Maximum Allowable Tension:
– The maximum allowable tension is determined by the manufacturer’s specifications for the conveyor chain. It is important to consult the manufacturer’s documentation or contact them directly to obtain the maximum allowable tension value.
6. Compare the Required Tension and Maximum Allowable Tension:
– Compare the calculated required tension with the maximum allowable tension. The required tension should be less than or equal to the maximum allowable tension to ensure safe and reliable operation of the conveyor chain.
By following these steps and considering the manufacturer’s specifications, you can accurately calculate the maximum allowable tension in a conveyor chain and ensure that it is within the safe operating limits.
What are the design considerations for a long-span conveyor chain conveyor?
Designing a long-span conveyor chain conveyor requires careful consideration of various factors to ensure its efficiency, safety, and reliability. Here are some key design considerations:
1. Conveyor Chain Selection: Choose a conveyor chain that is suitable for long spans and can withstand the required load capacity. Consider factors such as chain material, pitch, strength, and durability to ensure it can handle the anticipated load and operating conditions.
2. Conveyor Structure: The conveyor structure should be designed to provide sufficient support and stability for the long span. Consider factors such as material strength, rigidity, and deflection to ensure the structure can handle the weight of the conveyor chain, the product being transported, and any additional loads.
3. Drive System: Select an appropriate drive system that can efficiently power the long-span conveyor chain. Consider factors such as motor power, speed, torque, and control mechanisms to ensure smooth and reliable operation.
4. Tensioning and Alignment: Proper tensioning and alignment of the conveyor chain are critical for its performance and longevity. Design the system with adequate provisions for tensioning devices and alignment mechanisms to maintain optimal chain tension and alignment throughout the conveyor’s length.
5. Supports and Bearings: Install adequate supports and bearings along the length of the conveyor to reduce chain sagging, minimize friction, and ensure smooth movement. Consider factors such as bearing type, lubrication, and maintenance requirements.
6. Conveyor Controls and Safety: Implement appropriate controls and safety features to monitor and control the operation of the long-span conveyor chain. This may include emergency stop systems, speed monitoring, overload protection, and safety interlocks.
7. Environmental Factors: Consider the environmental conditions in which the conveyor will operate, such as temperature, humidity, dust, and corrosive substances. Select materials and components that can withstand these conditions and implement proper ventilation, dust collection, and corrosion protection measures.
8. Maintenance and Accessibility: Design the conveyor system with ease of maintenance and accessibility in mind. Provide sufficient access points, walkways, and platforms for inspection, cleaning, and maintenance tasks. Consider factors such as lubrication points, conveyor cleaning systems, and easy replacement of worn components.
9. Future Expansion and Flexibility: Anticipate future needs for expansion or modifications and design the long-span conveyor chain conveyor with flexibility in mind. This may include allowing for additional conveyor sections, transfer points, or integration with other equipment.
By considering these design considerations, a long-span conveyor chain conveyor can be efficiently designed and optimized for its intended application, ensuring reliable and cost-effective material handling operations.
Wie vergleicht sich eine Förderkette mit anderen Arten von Fördersystemen?
Förderketten gehören zu den gängigen Fördersystemen und werden in verschiedenen Branchen eingesetzt. Sie bieten spezifische Vorteile und Eigenschaften, die sie von anderen Fördersystemen unterscheiden.
1. Vielseitigkeit: Förderketten sind äußerst vielseitig und eignen sich für ein breites Anwendungsspektrum, darunter horizontale, geneigte und vertikale Förderung. Sie können verschiedene Materialarten transportieren, von Schüttgütern bis hin zu Einzelteilen.
2. Hohe Tragfähigkeit: Förderketten sind für ihre hohe Tragfähigkeit bekannt. Sie sind für den Transport schwerer Lasten ausgelegt und können in Anwendungen eingesetzt werden, in denen andere Fördersysteme möglicherweise nicht geeignet sind.
3. Langlebigkeit: Förderketten sind so konstruiert, dass sie rauen Betriebsbedingungen und starker Beanspruchung standhalten. Sie bestehen aus robusten und langlebigen Materialien wie Stahl oder Legierungen, die Abrieb, Stößen und Verschleiß widerstehen.
4. Flexibilität: Förderketten bieten Flexibilität hinsichtlich Layout und Design. Sie lassen sich so konfigurieren, dass sie komplexe Förderwege, Kurven und mehrere Auslaufpunkte ermöglichen und somit einen effizienten Materialfluss und eine individuelle Systemanpassung gewährleisten.
5. Kosteneffektiv: Förderketten bieten im Vergleich zu anderen Fördersystemen oft eine kostengünstige Lösung für den Materialtransport. Sie haben relativ niedrige Anschaffungskosten, einen geringeren Wartungsaufwand und eine längere Lebensdauer.
Es ist jedoch wichtig zu beachten, dass Förderketten nicht für jede Anwendung geeignet sind. Andere Fördersysteme wie Bandförderer, Schneckenförderer oder pneumatische Förderer können je nach Anwendungsanforderungen, Materialeigenschaften oder Umgebungsbedingungen spezifische Vorteile bieten.
Die Auswahl des geeigneten Fördersystems hängt letztlich von Faktoren wie Tragfähigkeit, Materialeigenschaften, Layoutbeschränkungen, Kostenüberlegungen und spezifischen Anwendungsanforderungen ab.
editor by CX 2024-04-16
