China Professional New Swl5t Trapezoidal Large Hand Manual Bevel Wheel Lift Worm Gear Screw Jack with Swl Series Rotating Mechanism bevel gearbox

Product Description

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SWL series worm screw jack

 

 

Worm Screw Jack
Screw-Worm Jack or screw lift lifts widely used in machine building, metallurgy, construction, irrigation equipment and other industries, is starting up, and dropped through accessories advance, overturned and position adjustment and other functions at various altitudes. SWL is a worm screw-lift crane components foundation with compact structure, small size and light weight. Sources extensive, no noise, easy installation, the use of flexible, multi-function, supporting forms, high reliability, long life and many other advantages. Can be single or in combination, can be controlled accurately in accordance with certain procedures to enhance or promote the adjustment of height Motor power can be used directly or can also be manually operated. It’s a form of structure and assembly, and the height can be customized user requirements

Product Description
Technical data:
1. Lift speed: 150mm/min~1800mm/min
2. Input power:0.5 -21.8KW
3. Screw rang: 5-16 mm
4. Bearing range: 2T-100T
5. Structure: motor direct connection, single & double shaft
Characteristic:
Standardize & series design
Reverse operation

Product Parameters

Type

Model

Screw thread size

Max
lifting strength
kN

Max
pull force
kN

Weight without stroke
kg

Screw weight
per 100mm

SWL

Screw jack

SWL2.5

Tr30*6

25

25

7.3

0.45

SWL5

Tr40*7

50

50

16.2

0.82

SWL10/15

Tr58*12

100/150

99

25

1.67

SWL20

Tr65*12

200

166

36

2.15

SWL25

Tr90*16

250

250

70.5

4.15

SWL35

Tr100*18

350

350

87

5.20

SWL50

Tr120*20

500

500

420

7.45

SWL100

Tr160*23

1000

1000

1571

13.6

SWL120

Tr180*25

1200

1200

1350

17.3

1.Compact structure,Small size.Easy mounting,varied types.  Can be applied in 1 unit or multiple units.

2.High reliability.Long service life; With the function of   ascending,descending,thrusting,overturning

3.Wide motivity.It can be drived by  electrical motor and manual force.

4.It is usually used in low speed situation,widely used in the fields of
metallurgy,mechanical,construction,chemical,irrigation works,mediat treatment.

Detailed Photos

 

1. screw rod

2. nut bolt

3. cover

4.Skeleton oil seal

5.Bearing

6.Worm gear

7.Oil filling hole

8.Case

9.Skeleton oil seal

10.Cover

11. nut bolt

12.Bearing

13.Skeleton oil seal

14.Bearing

15.worm

16.Flat key

17.Bearing

18.Skeleton oil seal

19.Cover

20.Nut bolt

Product Description

 

Packaging & Shipping

 

Company Profile

 

Standard or Nonstandard: Nonstandard
Application: Textile Machinery, Garment Machinery, Conveyer Equipment, Electric Cars, Motorcycle, Food Machinery, Marine, Mining Equipment, Agricultural Machinery, Car, Power Transmission
Product Name: Swl Series Worm Gear Lift
Input Speed: 0-1440rpm
Ratio: 6-36
Applicable Industries: Hotels, Manufacturing Plant, Food & Beverage Facto
Samples:
US$ 50/Piece
1 Piece(Min.Order)

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Request Sample

screw gear

How do you maintain and service a screw gear system?

Maintaining and servicing a screw gear system, also known as a worm gear system, is essential to ensure its optimal performance, longevity, and reliability. Regular maintenance and proper servicing help identify and address issues before they escalate into major problems. Here’s a detailed explanation of how to maintain and service a screw gear system:

  1. Establish a Maintenance Schedule: Create a maintenance schedule for the screw gear system based on the manufacturer’s recommendations, operating conditions, and the system’s usage. The schedule should include routine inspections, lubrication, cleaning, and any other specific maintenance tasks.
  2. Visual Inspection: Regularly inspect the screw gear system visually. Check for any signs of wear, damage, misalignment, or unusual noise or vibration. Look for oil leaks, loose fasteners, or any other visible issues that may affect the performance of the system.
  3. Lubrication: Ensure that the screw gear system is properly lubricated. Monitor the lubricant level and condition regularly. Follow the manufacturer’s guidelines regarding the type of lubricant to use, the recommended viscosity, and the lubrication intervals. Replenish or replace the lubricant as necessary to maintain optimal lubrication and reduce friction.
  4. Cleaning: Keep the screw gear system clean and free from debris, dirt, or contaminants. Regularly clean the gears, shafts, and other components using appropriate cleaning methods and agents. Be careful not to damage any of the components during the cleaning process.
  5. Alignment Check: Periodically check the alignment of the screw gear system. Misalignment can lead to increased wear, reduced efficiency, and premature failure. Ensure that the worm gear and worm wheel are properly aligned axially and radially. If misalignment is detected, make the necessary adjustments to bring the gears back into proper alignment.
  6. Bearing Maintenance: If the screw gear system includes bearings, inspect and maintain them regularly. Check for any signs of wear, excessive play, or noise. Lubricate the bearings according to the manufacturer’s recommendations. Replace any worn or damaged bearings promptly.
  7. Load and Performance Testing: Periodically perform load and performance testing on the screw gear system. This helps assess its functionality, efficiency, and torque capacity. Analyze the test results and compare them to the system’s specifications. If any deviations or performance issues are identified, take appropriate measures to rectify them.
  8. Component Replacement: Over time, certain components of the screw gear system may wear out and require replacement. Keep a record of the system’s maintenance history and track the lifespan of critical components. Replace worn or damaged gears, bearings, seals, or other components as needed to ensure the system’s reliability and performance.
  9. Documentation: Maintain thorough documentation of all maintenance activities, including inspection reports, lubrication records, component replacements, and any repairs or adjustments made. This documentation helps track the system’s maintenance history, identify recurring issues, and plan future maintenance tasks.

It is important to note that the maintenance and service procedures may vary based on the specific screw gear system, its design, and the manufacturer’s recommendations. Therefore, always refer to the manufacturer’s documentation and guidelines for detailed instructions specific to the screw gear system being serviced.

screw gear

What are the potential challenges in designing and manufacturing screw gears?

Designing and manufacturing screw gears, also known as worm gears, can present several challenges that need to be addressed to ensure the successful production of high-quality gear systems. Here’s a detailed explanation of the potential challenges in designing and manufacturing screw gears:

  • Complex Geometry: Screw gears have complex tooth profiles and geometry, which can pose challenges during the design and manufacturing processes. The design must consider factors such as the helix angle, lead angle, and tooth shape to ensure proper gear engagement and efficient power transmission. Manufacturing these intricate geometries accurately can be technically demanding.
  • Manufacturing Tolerances: Achieving tight manufacturing tolerances is crucial for the proper functioning of screw gears. The gear components need to be precisely machined to ensure accurate tooth profiles, pitch, and concentricity. Maintaining these tight tolerances throughout the production process can be challenging, especially when working with materials that have dimensional variations or when scaling up production.
  • Machining and Grinding: The machining and grinding processes involved in manufacturing screw gears require specialized equipment and expertise. The use of multi-axis CNC machines, gear hobbing, or grinding machines is often necessary to achieve the required tooth profiles and surface finishes. These processes can be time-consuming and costly, requiring skilled operators and careful process control to ensure accurate and repeatable results.
  • Material Selection: Choosing the right materials for screw gears is critical to ensure durability, wear resistance, and efficient power transmission. Factors such as hardness, strength, and compatibility with lubricants must be considered. Selecting suitable materials that meet the specific application requirements can be challenging, particularly when balancing cost, performance, and manufacturing constraints.
  • Lubrication and Heat Dissipation: Screw gears require proper lubrication to reduce friction, wear, and heat generation. Designing effective lubrication systems and ensuring proper lubricant selection and distribution can be challenging. Heat dissipation is also a concern, especially in high-speed or high-torque applications, as excessive heat can affect gear performance and longevity. Adequate cooling methods or heat dissipation strategies may need to be implemented.
  • Backlash and Efficiency: Screw gears inherently exhibit some level of backlash due to the nature of their tooth engagement. Managing and minimizing backlash can be a challenge, as it affects the precision and accuracy of the gear system. Additionally, screw gears generally have lower mechanical efficiency compared to other gear types, which can be a concern in applications where efficiency is critical. Designing for improved efficiency and mitigating backlash can require careful consideration of gear parameters and materials.
  • Noise and Vibration: Screw gears can generate noise and vibration during operation, which can be undesirable in many applications. Designing for reduced noise and vibration requires careful consideration of gear tooth profiles, surface finishes, and lubrication. Balancing gear parameters and implementing vibration-damping measures can help mitigate noise and vibration issues, but it can be a complex task that requires extensive testing and iterative design improvements.
  • Cost and Manufacturing Scalability: Designing and manufacturing screw gears can be costly, especially when precision machining, specialized equipment, and skilled labor are involved. The cost of materials, heat treatment, and surface finishing processes can also contribute to the overall production cost. Additionally, scaling up production while maintaining consistent quality and meeting cost targets can pose challenges that require careful planning and optimization.

Addressing these challenges requires a combination of engineering expertise, advanced manufacturing techniques, and rigorous quality control. By carefully considering these factors during the design and manufacturing phases, it is possible to overcome the challenges and produce screw gears that meet the required performance, durability, and reliability standards.

screw gear

Are there different types of screw gears available?

Yes, there are different types of screw gears available, each with its variations in design and functionality. These variations cater to specific applications and requirements. Here are some of the commonly used types of screw gears:

  • Single-Thread Worm Gears: Single-thread worm gears have a single helical thread on the worm. They provide a relatively higher gear ratio and are commonly used in applications requiring moderate torque and precision positioning. Single-thread worm gears are widely employed in industries such as manufacturing, automotive, and machinery.
  • Multi-Thread Worm Gears: Multi-thread worm gears have multiple helical threads on the worm, typically two or more. The presence of multiple threads increases the contact area and allows for higher torque transmission. Multi-thread worm gears offer higher gear reduction ratios and are suitable for applications requiring greater torque multiplication, such as heavy-duty machinery and high-load lifting systems.
  • Fine-Pitch Worm Gears: Fine-pitch worm gears have a smaller pitch, meaning there are more teeth per unit length of the worm. This design allows for finer control and precise positioning. Fine-pitch worm gears find applications in industries where accurate motion control is critical, such as robotics, automation, and optics.
  • Coarse-Pitch Worm Gears: Coarse-pitch worm gears have a larger pitch, resulting in fewer teeth per unit length of the worm. This design provides higher torque transmission and is suitable for applications requiring heavy-duty power transmission. Coarse-pitch worm gears are commonly used in industries like manufacturing, material handling, and conveyors.
  • Right-Handed and Left-Handed Worm Gears: Screw gears can be classified as right-handed or left-handed based on the direction of the helical thread. In a right-handed worm gear, the helical thread advances in a clockwise direction when viewed from the end of the worm. In a left-handed worm gear, the helical thread advances counterclockwise. The choice between right-handed and left-handed worm gears depends on the specific application and the desired rotational direction.
  • Non-Throated and Throated Worm Gears: Non-throated worm gears have a cylindrical worm without a groove, while throated worm gears have a groove or a notch on the worm. The presence of a throat allows for greater contact between the worm and the worm wheel, increasing the gear meshing efficiency and load-carrying capacity. Throated worm gears are commonly used in applications where higher efficiency and load capacity are required.
  • Self-Locking Worm Gears: Self-locking worm gears are designed to have a high self-locking capability. The helical thread angle and the friction between the worm and the worm wheel prevent the worm wheel from backdriving the worm when the system is at rest. Self-locking worm gears are widely used in applications that require holding a position without the need for additional braking or locking mechanisms, such as elevators, lifts, and positioning systems.

These are some of the different types of screw gears available in the market. The selection of a specific type depends on factors such as torque requirements, gear reduction ratio, precision positioning, load capacity, and self-locking capabilities, among others. Understanding the characteristics and variations of screw gears allows for choosing the most suitable type for a given application.

China Professional New Swl5t Trapezoidal Large Hand Manual Bevel Wheel Lift Worm Gear Screw Jack with Swl Series Rotating Mechanism bevel gearboxChina Professional New Swl5t Trapezoidal Large Hand Manual Bevel Wheel Lift Worm Gear Screw Jack with Swl Series Rotating Mechanism bevel gearbox
editor by CX 2023-09-18

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