Product Description
Non-standard slotted pin screw
Screws are generally called wood screws; is the tip of the kind of tip, pitch larger, generally used to tighten wood parts, plastic parts. Mechanical screws, is the front of the kind of screws, the pitch is small, uniform, generally used to fasten the metal, machine parts.Screw application range.Our products has high quality,and long life time.Our company has passed ISO9001, ISO9001 (CQC) certification, product quality assurance.
1> stainless steel plate, metal plate, galvanized steel plate, engineering installation.
2> metal curtain wall metal light compartment and other indoor and outdoor installation.
3> General angle steel, channel steel, iron plate and other metal materials combined installation.
4> car trunk, container box, shipbuilding, refrigeration equipment and other assembly works.
5> automobile engine, heavy machinery, garden machinery, petrochemical.
6> aerospace, energy, machinery, chemical, military, metallurgy, mold, hydraulic.
7> motorcycles, sports equipment, cars and many other industries.
8> electronics, electrical appliances, motors, lighting, communications, home appliances, furniture.
electronics,electrical appliances,motors,lighting,communications,home appliances,furniture.
Brand name | HangZhou | Model | CC-197 | Type | Machine Screw |
Head Type | Round | Groove type | Cross | Screw diameter | 12mm |
Screw Length | 105mm | Application | Hand twist | Screw size | P |
Thread tolerance | 6G | Nominal length | 110mm | Surface | Galvanized |
Material steel | Carbon steel 45H | Product grade | A | Standard type | Non-standard |
Standard number | No | Customized | Yes | Specification | CC-197 |
Material | Heat treatment |
Shipping and packaging
Ocean shipping
North America, South America about 40 working days
Eastern Europe about 30-40 working days
Southeast Asia about 20-30working days
Africa about 35-45 working days
India, Pakistan about 40 working days
Korea, Japan about 40 working days
Air transport
Other places around 1-3 business days
Packaging: boxes, cartons or plastic bags, or according to customer needs.
Sample service
If you need sample,you need pay the freight.
Our factory
GB/T 65-2000
GB/T 67-2000
GB/T 68-2000
GB/T 69-2000
GB/T 70.1-200
GB/T 70.2-2000
GB/T 70.3-2000
GB 71-85
GB-72-88
GB-73-85
GB-74-85
GB-75-85
GB/T 77-2000
GB/T 78-2000
GB/T 79-2000
GB/T 80-2000
GB 83-88
GB 84-88
GB 85-88
GB 86-88
GB/T 818-2000
GB 838-88
GB 839-88
GB 840-88
GB 946-88
GB 947-88
GB 948-88
GB 949-88
GB 2672-86
GB 2673-86
GB 2674-86
GB 5281-86
GB/T 820-2000
GB/T 821-88
GB/T 822-2000
GB 823-88
GB 825-88
GB 828-88
GB 829-88
GB 830-88
GB 831-88
GB 832-88
GB 833-88
GB 834-88
GB 835-88
GB 836-88
GB 13-88
GB 14-1998
GB 15-88
GB 29.2-88
GB 35-88
GB 37-88
GB /T794-93
GB 798-88
GB 799-88
GB 800-88
DIN 125-A GB 971-85
DIN 125-B GB97.2-85
DIN127-A GB7244
DIN 127-B GB93-87
DIN 912 GB70-85
DIN933 GB-5783-86
DIN931 GB5782-86
DIN934 GB6170-86 /* 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(/(.*?):(.*)$/))&&1
Material: | Carbon Steel |
---|---|
Connection: | Hinged Bolts |
Head Style: | Pan |
Standard: | DIN, GB, ANSI, JIS |
Grade: | 8.8 |
Custom: | Yes |
Samples: |
US$ 10/Piece
1 Piece(Min.Order) | |
---|
Customization: |
Available
|
|
---|
How do you select the right worm screw for a specific application?
Selecting the right worm screw for a specific application involves considering several factors to ensure optimal performance and compatibility. Here are the key steps to guide you in selecting the appropriate worm screw:
- Identify Application Requirements: Begin by understanding the specific requirements of the application. Consider factors such as torque, speed, direction of rotation, load capacity, precision, and environmental conditions. Determine the desired gear ratio and any additional features or specifications needed for the worm screw to meet the application’s objectives.
- Consider Design Parameters: Evaluate the design parameters of the worm screw, including the number of starts, lead angle, pitch diameter, and thread profile. These parameters directly influence the gear ratio, mechanical efficiency, and load-carrying capacity of the worm screw. Choose the design parameters that align with the application requirements, considering factors like torque transmission, speed regulation, and size constraints.
- Material Selection: Selecting the right material for the worm screw is crucial for its durability and performance. Consider factors such as strength, wear resistance, and compatibility with other mating components. Common materials for worm screws include hardened steel, stainless steel, bronze, or other alloys. Consult material specifications and consider the anticipated operating conditions to ensure the selected material can withstand the loads and environmental factors present in the application.
- Lubrication Requirements: Determine the lubrication requirements for the specific application. Some worm screws may require lubrication to reduce friction and wear, while others may have self-lubricating properties. Consider the type of lubricant (oil or grease), the frequency of lubrication, and the accessibility for lubrication maintenance. Ensure that the selected worm screw is compatible with the required lubrication method and can meet the lubrication demands of the application.
- Consider Mounting and Installation: Evaluate the mounting and installation requirements of the worm screw. Assess factors such as space limitations, alignment considerations, coupling options, and connection methods. Ensure that the selected worm screw can be easily integrated into the mechanical system and meets the specific installation requirements without compromising overall performance.
- Consult Manufacturer Resources: Utilize manufacturer resources, such as catalogs, technical specifications, and application guidelines, to gather information about available worm screw options. Manufacturers often provide recommendations and selection guides based on different application scenarios and performance criteria. Their expertise can help ensure that you choose the most suitable worm screw for your specific application.
- Review Cost and Availability: Consider the cost and availability of the worm screw. Evaluate the pricing, lead times, and availability from different suppliers or manufacturers. Balance the desired performance and quality with the budget constraints of the project, ensuring that the selected worm screw offers a cost-effective solution without compromising reliability or performance.
By following these steps and considering the application requirements, design parameters, material selection, lubrication needs, mounting considerations, manufacturer resources, and cost factors, you can select the right worm screw that meets the specific demands of your application. It’s important to consult with experts or seek assistance from manufacturers if you require further guidance or have unique requirements.
How do you troubleshoot problems in a worm screw gear system?
Troubleshooting problems in a worm screw gear system requires a systematic approach to identify and resolve issues effectively. Here are the steps involved in troubleshooting problems in a worm screw gear system:
- Identify the Symptoms: Start by identifying the specific symptoms or issues that indicate a problem in the worm screw gear system. This can include abnormal noise, reduced performance, increased backlash, erratic motion, or any other noticeable deviations from normal operation. Gather as much information as possible about the symptoms to help narrow down the potential causes.
- Inspect and Clean: Conduct a visual inspection of the worm screw gear system to check for any obvious signs of wear, damage, misalignment, or contamination. Inspect the threads of the worm screw and the teeth of the worm wheel for signs of pitting, scoring, or other surface irregularities. Clean the components if necessary to remove any debris or contaminants that may be affecting the system’s performance.
- Check Lubrication: Review the lubrication of the worm screw gear system. Ensure that the system is adequately lubricated with the recommended lubricant and that the lubricant is in good condition. Insufficient or degraded lubrication can result in increased friction, wear, and inefficiencies. Replenish or replace the lubricant as needed following the manufacturer’s guidelines.
- Inspect Alignment: Verify the alignment of the worm screw and the worm wheel. Misalignment can cause issues such as increased friction, wear, and reduced efficiency. Check for any signs of misalignment and make adjustments as necessary to ensure proper alignment of the components. This may involve repositioning or realigning the system or addressing any underlying factors contributing to the misalignment.
- Measure Backlash: Measure the amount of backlash present in the system. Excessive backlash can lead to reduced accuracy, loss of motion control, and diminished performance. Use appropriate measuring tools, such as dial indicators, to quantify the amount of backlash. If the backlash exceeds acceptable limits, consider adjusting the system to minimize or eliminate the excessive clearance between the threads and the teeth.
- Check Load and Overloading: Evaluate the loads applied to the worm screw gear system and compare them to the system’s design limits. Overloading the system can lead to accelerated wear, tooth breakage, or component deformation. If the loads exceed the system’s capacity, consider redistributing the load, upgrading the components, or redesigning the system to handle the required loads appropriately.
- Address Specific Issues: Based on the symptoms and findings from the inspection and measurements, address any specific issues identified in the worm screw gear system. This may involve repairing or replacing worn or damaged components, adjusting clearances, realigning the system, improving lubrication, or addressing any other factors contributing to the problems observed.
- Test and Monitor: After addressing the identified issues, test the worm screw gear system to verify that the problems have been resolved. Monitor the system’s performance during operation to ensure that the symptoms have been effectively mitigated. Pay attention to any new or recurring issues that may require further investigation or adjustments.
It is important to note that troubleshooting problems in a worm screw gear system may require expertise and experience. If you encounter complex or persistent issues that you are unable to resolve, it is recommended to seek assistance from qualified technicians or professionals with knowledge in mechanical power transmission systems.
What are the advantages of using a worm screw in gear systems?
Using a worm screw in gear systems offers several advantages that make it a preferred choice in certain applications. Here are some of the advantages of using a worm screw:
- High Gear Reduction: One of the primary advantages of a worm screw is its ability to provide a high gear reduction ratio in a single stage. The helical threads of the worm screw and the meshing teeth of the worm wheel create a significant reduction in rotational speed. This allows for efficient torque multiplication, enabling the transmission of high torque output from the worm screw to the worm wheel. The high gear reduction is beneficial in applications that require slow and powerful movements, such as lifting heavy loads or controlling conveyor systems.
- Compact Design: Worm screw mechanisms are known for their compact design. Compared to other gear systems, such as spur gears or helical gears, a worm screw setup can achieve a similar gear reduction with fewer components. This makes it a space-saving solution, especially in applications where limited space is available or where a compact design is desired.
- Self-Locking: The self-locking property of a worm screw is a significant advantage in many applications. Due to the helical shape of the threads, the worm screw has a natural tendency to hold its position and prevent backward rotation of the worm wheel. This self-locking feature eliminates the need for additional braking mechanisms or external locking devices, simplifying the overall system design and improving safety and stability in applications that require load holding or position locking.
- Right-Angle Transmission: Worm screw mechanisms provide motion transmission at a right angle, allowing for the transfer of motion between non-parallel shafts. This makes them suitable for applications where the input and output shafts are oriented perpendicular to each other. Examples include automotive steering systems, where the rotational motion from the steering wheel needs to be converted into lateral motion for steering the vehicle.
- Quiet Operation: Worm screw gear systems tend to operate quietly compared to other gear configurations. The helical threads of the worm screw and the meshing teeth of the worm wheel engage gradually, resulting in smoother and quieter operation. This can be advantageous in applications where noise reduction is desirable, such as in office equipment, appliances, or environments where low noise levels are required.
It’s important to note that while worm screw mechanisms offer these advantages, there are also some considerations to keep in mind. For instance, worm screws can have lower mechanical efficiency compared to other gear systems due to inherent friction between the threads and teeth, leading to energy losses. Additionally, they may exhibit a certain amount of backlash, which can affect precision and introduce a small amount of lost motion in the system. Nevertheless, the unique characteristics of worm screws make them a valuable choice in various applications where high gear reduction, self-locking, compactness, and right-angle transmission are essential.
editor by CX 2024-01-24