China Hot selling Industry 4.0 Enabled Connectivity Swl Worm Gear Screw Elevator for Smart Infrastructure with Best Sales

Product Description

 

Product Model SWL2.5, SWL5, SWL10, SWL15, SWL20, SWL25, SWL35, SWL50, SWL100, SWL120
Product Description Basic lifting component, compact structure, small size, light weight, no noise, safe and convenient, flexible use, high reliability, wide power source, multiple supporting functions, long service life
Usage Single or combined use, can accurately control the adjustment of lifting or pushing height according to a certain program, can be directly driven by motor or other power, can also be manual
Lifting Efficiency and Load Capacity Special and advanced technology has been developed to improve the overall performance of the jack
Structural Type Type 1 – Screw moves axially; Type 2 – Screw rotates, nut moves axially
Assembly Type Type A – Screw/nut moves upwards; Type B – Screw/nut moves downwards
Screw Head Type Type 1 structure screw head: Type I (cylindrical), Type II (flange), Type III (threaded), Type IV (flat head); Type 2 structure screw head: Type I (cylindrical), Type III (threaded)
Transmission Ratio Ordinary speed ratio (P), slow speed ratio (M), medium speed ratio (F) can be customized according to user requirements
Lifting Load Capacity 2.5kN, 5kN, 10kN, 15kN, 20kN, 25kN, 35kN, 50kN, 100kN, 120kN
Screw Protection Type 1 structure: basic type (no protection), anti-rotation type (F), with protective cover (Z), anti-rotation and protective cover (FZ); Type 2 structure: basic type (no protection)

Product description: SWL series worm gear screw lift is a basic lifting component with many advantages such as compact structure, small volume, light weight, no noise, safety and convenience, flexible use, high reliability, wide power source, many supporting functions and long service life. It can be used singly or in combination, can adjust the height of lifting or advancing accurately according to certain procedures, and can be driven directly by electric motor or other power, or manually. In order to improve the efficiency and carrying capacity of SWL series worm gear screw lift, special and advanced technology is developed to improve the comprehensive performance of the lift to meet the requirements of the majority of customers. SWL series worm gear screw lift has different structure types and assembly types, and the lifting height can be customized according to the user’s requirements.

RFQ

Q:What information should I tell you to confirm speed reducer?

A: Model/Size, Transmission Ratio, Shaft directions & Order quantity.

 

Q:What if I don’t know which gear reducer I need?

A:Don’t worry, Send as much information as you can, our team will help you find the right 1 you are looking for.

 

Q:What should I provide if I want to order NON-STANDERD speed reducers?

A: Drafts, Dimensions, Pictures and samples if possible.

 

Q:What is the MOQ?

A: It is OK for 1 or small pieces trial order for quality testing.

 

Q:How long should I wait for the feedback after I send the inquiry?

A: Within 6 hours

 

Q:What is the payment term?

A:You can pay via T/T(30% in advance+70% before delivery), L/C ,West Union etc
 

Standard or Nonstandard: Nonstandard
Application: Electric Cars, Motorcycle, Marine, Agricultural Machinery, Car
Spiral Line: Right-Handed Rotation
Head: Single Head
Reference Surface: Toroidal Surface
Type: ZK Worm
Samples:
US$ 100/Piece
1 Piece(Min.Order)

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screw gear

How do you install a screw gear system?

Installing a screw gear system, also known as a worm gear system, requires careful consideration and precise execution. Here’s a detailed explanation of the steps involved in installing a screw gear system:

  1. Design and Selection: Before installation, it is crucial to design and select the appropriate screw gear system for the specific application. Consider factors such as required torque, speed, load capacity, gear ratio, and environmental conditions. Choose a screw gear system that matches the application’s requirements and ensure compatibility with other components and machinery.
  2. Prepare the Components: Gather all the necessary components for the screw gear system installation, including the worm gear, worm wheel, bearings, shafts, and any additional accessories or support structures. Inspect the components for any damage or defects and ensure they are clean and properly lubricated.
  3. Mounting the Worm Gear: Begin the installation by mounting the worm gear. Securely attach the worm gear to the appropriate shaft or motor using suitable fasteners. Ensure that the alignment of the worm gear is accurate, and it is properly centered on the shaft to avoid any misalignment issues during operation.
  4. Mounting the Worm Wheel: Once the worm gear is in place, mount the worm wheel. The worm wheel should be positioned in such a way that it meshes smoothly with the worm gear. Ensure that the worm wheel is securely mounted, and any necessary bearings or supports are properly installed to maintain stability and alignment.
  5. Alignment and Adjustment: Proper alignment of the screw gear system is crucial for its efficient operation. Ensure that the worm gear and worm wheel are correctly aligned both axially and radially. Check for any excessive play or binding in the system. Make necessary adjustments to achieve optimal alignment and smooth meshing between the gears.
  6. Lubrication: Apply the recommended lubricant to the screw gear system. Proper lubrication is essential to minimize friction and wear, ensuring smooth operation and extending the system’s lifespan. Follow the manufacturer’s guidelines regarding the type and amount of lubricant to use.
  7. Testing and Fine-Tuning: After installation, perform thorough testing of the screw gear system. Check for smooth operation, proper engagement between the gears, and any abnormal noise or vibration. Fine-tune the system if necessary, making adjustments to achieve the desired performance and ensure optimal functionality.
  8. Regular Inspection and Maintenance: Once the screw gear system is installed and operational, it is important to establish a regular inspection and maintenance schedule. Regularly inspect the system for signs of wear, lubrication levels, and any potential issues. Perform routine maintenance tasks such as cleaning, lubrication replenishment, and component replacement as needed.

It is crucial to follow the manufacturer’s guidelines and specifications during the installation process. If unsure about any aspect of the installation, consult with experts or refer to the manufacturer’s documentation for detailed instructions specific to the screw gear system being installed.

screw gear

How do you retrofit an existing mechanical system with screw gears?

Retrofitting an existing mechanical system with screw gears, also known as worm gears, involves replacing or modifying the existing gear system to incorporate screw gears. Here’s a detailed explanation of the steps involved in retrofitting an existing mechanical system with screw gears:

  1. Evaluate the Existing System: Begin by evaluating the existing mechanical system to understand its design, function, and the specific requirements for retrofitting. Identify the type of gears currently in use and assess their limitations or shortcomings that warrant the retrofit. Consider factors such as load capacity, speed requirements, space constraints, and the desired performance improvements.
  2. Analyze Compatibility: Determine the compatibility of screw gears with the existing system. Consider factors such as available space, alignment requirements, torque and speed requirements, and the feasibility of integrating screw gears into the system. Assess whether any modifications or adaptations are needed to accommodate the screw gears effectively.
  3. Design Considerations: Based on the evaluation and compatibility analysis, develop a design plan for incorporating screw gears into the existing system. Consider aspects such as gear ratios, torque requirements, lubrication systems, mounting arrangements, and any necessary modifications to the system components or structure. Ensure that the design meets the specific performance and functional objectives of the retrofit.
  4. Select Screw Gear Components: Choose the appropriate screw gear components based on the design requirements and the specifications of the existing system. Consider factors such as gear material, tooth profile, helix angle, pitch diameter, and the number of starts. Select components that are compatible with the load, speed, and operating conditions of the retrofit application.
  5. Fabrication or Procurement: Once the screw gear components are selected, proceed with the fabrication or procurement of the required parts. This may involve manufacturing the screw gear components or purchasing them from a reliable supplier. Ensure that the components meet the specified quality standards and are suitable for the retrofit application.
  6. Installation: Install the screw gears into the existing mechanical system as per the design plan. This may involve removing the old gears and replacing them with the new screw gears or modifying the existing gear system to accommodate the screw gears. Follow proper installation procedures, ensuring correct alignment, lubrication, and torque specifications.
  7. Testing and Adjustment: After the installation, conduct thorough testing of the retrofitted system to verify its performance and functionality. Check for proper gear engagement, smooth operation, and the ability to handle the intended loads and speeds. Make any necessary adjustments or fine-tuning to optimize the performance of the retrofit and ensure its reliable operation.
  8. Documentation and Maintenance: Document the retrofit process, including design specifications, installation procedures, and any modifications made to the existing system. This documentation will be valuable for future reference, maintenance, and troubleshooting. Establish a regular maintenance schedule to inspect and maintain the retrofitted system, including lubrication, gear wear monitoring, and any recommended servicing.

Retrofitting an existing mechanical system with screw gears requires careful planning, design considerations, and proper execution. By following these steps and ensuring compatibility, proper component selection, and installation, it is possible to successfully integrate screw gears into an existing system, improving its performance, efficiency, and functionality.

screw gear

What is a screw gear and how does it work?

A screw gear, also known as a worm gear, is a type of gear mechanism that consists of a screw-like gear (called the worm) and a toothed wheel (called the worm wheel or worm gear). The screw gear operates on the principle of a helical screw driving a toothed wheel to transmit rotational motion and power. Here is a detailed explanation of how a screw gear works:

  1. Configuration: The screw gear consists of two main components: the worm and the worm wheel. The worm is a cylindrical gear with a helical thread wrapped around it, resembling a screw. The worm wheel is a toothed wheel that meshes with the worm. The orientation of the helical thread on the worm and the teeth on the worm wheel is typically perpendicular to each other.
  2. Meshing: The worm and the worm wheel mesh together by engaging the helical thread of the worm with the teeth of the worm wheel. The helical thread on the worm acts as a screw, and as the worm rotates, it drives the rotation of the worm wheel. The teeth on the worm wheel provide the necessary contact points for the meshing action.
  3. Transmitting Motion: When the worm rotates, the helical thread transfers rotational motion to the worm wheel. The helical thread of the worm pushes against the teeth of the worm wheel, causing the worm wheel to rotate. The direction of rotation of the worm wheel depends on the helix angle and the direction of rotation of the worm. The gear ratio between the worm and the worm wheel is determined by the number of teeth on the worm wheel and the pitch of the helical thread on the worm.
  4. Mechanical Advantage: One of the key characteristics of a screw gear is its ability to provide a high mechanical advantage or gear ratio. The helical design of the worm and the worm wheel allows for a large number of teeth to be engaged at any given time, resulting in a high gear ratio. This makes screw gears suitable for applications that require a significant reduction in rotational speed or an increase in torque.
  5. Self-Locking: A unique property of screw gears is their self-locking capability. Due to the helical thread design, the friction between the worm and the worm wheel tends to hold the gear system in place when the worm is not rotating. This self-locking characteristic prevents the worm wheel from backdriving the worm. It provides inherent braking or locking action, making screw gears suitable for applications where holding position or preventing reverse rotation is necessary.
  6. Efficiency and Lubrication: Screw gears generally have lower efficiency compared to other types of gears due to the sliding action between the helical thread and the teeth of the worm wheel. The sliding motion results in higher friction and heat generation. Proper lubrication is essential to minimize wear and improve efficiency. Lubricants with good adhesion and boundary lubrication properties are commonly used for screw gears.

Screw gears are widely used in various applications, including machinery, automotive systems, conveyor systems, lifting equipment, and many others. Their unique characteristics of high gear ratio, self-locking capability, and compact design make them suitable for specific applications where precise motion control, torque multiplication, or holding position is required.

China Hot selling Industry 4.0 Enabled Connectivity Swl Worm Gear Screw Elevator for Smart Infrastructure with Best SalesChina Hot selling Industry 4.0 Enabled Connectivity Swl Worm Gear Screw Elevator for Smart Infrastructure with Best Sales
editor by CX 2023-10-08

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