China Hot selling Swl Wsh Squared Elevator Manual Worm Gear Screw Jack / Screw Lifts manufacturer

Product Description

1.Convenient to adjust
2.Wide range of ratio
3.Easy to install
4.high torque
Application Industries:
Our SWL series screw jacks are widely used in the industries such as metallurgy,mining,hoisting and transportation, electrical
power,energy source,constrction and building material,light industry and traffice industry

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, Automatic Equipment
Ratio: 6-36
Product Name: Swl Series Worm Gear Lift
Color: Green or Blue or Customized
Applicable Industries: Hotels, Manufacturing Plant, Food & Beverage Facto
Samples:
US$ 50/Piece
1 Piece(Min.Order)

|
Request Sample

screw gear

How do you prevent backlash and gear play in a screw gear mechanism?

Preventing backlash and gear play in a screw gear mechanism is crucial to ensure accurate and efficient operation. Backlash refers to the clearance or play between the mating teeth of the worm gear and the worm wheel. Excessive backlash can lead to reduced accuracy, vibrations, and inefficient power transmission. Here’s a detailed explanation of how to prevent backlash and gear play in a screw gear mechanism:

  • Precision Manufacturing: Proper manufacturing techniques are essential to minimize backlash in a screw gear mechanism. Precise machining processes and tight manufacturing tolerances help ensure accurate gear tooth profiles, proper gear meshing, and minimal clearance between the mating teeth. CNC (Computer Numerical Control) machining and gear hobbing are commonly used to achieve high precision in screw gear manufacturing.
  • Proper Gear Design: The design of the screw gear mechanism should take into account factors that affect backlash, such as tooth profile, tooth engagement, and gear meshing. The tooth profile should be carefully designed to optimize the contact pattern and minimize clearance. Additionally, the selection of appropriate gear dimensions, such as the number of threads and tooth lead angle, can help reduce the potential for backlash.
  • Preload: Applying a preload to the screw gear mechanism can help minimize backlash and gear play. Preload involves applying a slight axial force to the worm gear, which reduces the clearance between the teeth of the worm gear and the worm wheel. This preload eliminates the play and ensures a tight meshing between the gears. Proper preload is essential to prevent excessive friction and to ensure smooth operation without causing excessive wear or power losses.
  • Backlash Compensation: In some applications, where precise positioning is critical, backlash compensation mechanisms can be employed. These mechanisms use additional components, such as springs or adjustable shims, to compensate for any inherent backlash in the screw gear mechanism. The compensation mechanism helps maintain accurate positioning by counteracting the effects of clearance and play.
  • Quality Lubrication: Adequate lubrication is essential for minimizing friction and reducing the potential for backlash. The lubricant forms a film between the mating teeth, reducing direct metal-to-metal contact and cushioning any clearance. Proper lubrication selection, including the choice of lubricant type and viscosity, is crucial to ensure optimal performance and to minimize wear and tear.
  • Maintenance and Inspection: Regular maintenance and inspection are essential to prevent and identify backlash in a screw gear mechanism. Routine checks should be performed to ensure proper lubrication, detect any signs of wear or damage, and verify the gear meshing. If backlash is detected, it should be addressed promptly by adjusting the preload or implementing necessary corrective measures.

By employing these preventive measures, engineers and technicians can minimize backlash and gear play in a screw gear mechanism, ensuring accurate and efficient operation in various applications.

screw gear

How do you calculate the efficiency of a screw gear?

Calculating the efficiency of a screw gear, also known as a worm gear, involves determining the ratio of input power to output power and considering various factors that affect the overall efficiency of the gear system. Here’s a detailed explanation of how to calculate the efficiency of a screw gear:

  1. Measure Input Power: The first step is to measure or determine the input power to the screw gear system. This can be done by measuring the torque applied to the input shaft and the rotational speed of the input shaft. The input power can then be calculated using the formula: Input Power (Pin) = Torque (Tin) × Angular Speed (ωin).
  2. Measure Output Power: Next, measure or determine the output power of the screw gear system. This can be done by measuring the torque exerted by the output shaft and the rotational speed of the output shaft. The output power can be calculated using the formula: Output Power (Pout) = Torque (Tout) × Angular Speed (ωout).
  3. Calculate Mechanical Efficiency: The mechanical efficiency of the screw gear system is calculated by dividing the output power by the input power and multiplying the result by 100 to express it as a percentage. The formula for mechanical efficiency is: Mechanical Efficiency = (Pout/Pin) × 100%.
  4. Consider Efficiency Factors: It’s important to note that the mechanical efficiency calculated in the previous step represents the ideal efficiency of the screw gear system, assuming perfect conditions. However, several factors can affect the actual efficiency of the system. These factors include friction losses, lubrication efficiency, manufacturing tolerances, and wear. To obtain a more accurate assessment of the overall efficiency, these factors should be considered and accounted for in the calculations.
  5. Account for Friction Losses: Friction losses occur in screw gear systems due to the sliding contact between the worm gear and the worm wheel. To account for friction losses, a correction factor can be applied to the calculated mechanical efficiency. This correction factor is typically determined based on empirical data or manufacturer specifications and is subtracted from the mechanical efficiency to obtain the corrected efficiency.
  6. Consider Lubrication Efficiency: Proper lubrication is essential for reducing friction and improving the efficiency of screw gear systems. In practice, the lubrication efficiency can vary depending on factors such as the type of lubricant used, the lubrication method, and the operating conditions. To account for lubrication efficiency, a lubrication factor can be applied to the corrected efficiency calculated in the previous step. This factor is typically determined based on experience or manufacturer recommendations.
  7. Include Other Efficiency Factors: Depending on the specific application and the characteristics of the screw gear system, additional efficiency factors may need to be considered. These factors can include manufacturing tolerances, gear wear, misalignment, and other losses that can affect the overall efficiency. It’s important to assess these factors and apply appropriate correction factors or adjustments to the efficiency calculation.

By following these steps and considering the various factors that affect the efficiency of a screw gear system, it is possible to calculate a more accurate estimate of the gear’s efficiency. Keep in mind that the calculated efficiency is an approximation, and actual efficiency can vary based on operating conditions, maintenance practices, and other factors specific to the gear system and application.

screw gear

What industries commonly use screw gears?

Screw gears, also known as worm gears, find applications in a variety of industries due to their unique characteristics and functionalities. The following are some of the industries that commonly use screw gears:

  • Manufacturing and Machinery: The manufacturing and machinery industry extensively utilizes screw gears in various equipment and machinery. Screw gears are commonly found in gearboxes and power transmission systems, providing speed reduction and torque multiplication. They are used in conveyor systems, packaging machines, material handling equipment, and other industrial machinery that require controlled motion and high gear ratios.
  • Automotive: The automotive industry utilizes screw gears in specific applications, most notably in steering mechanisms. Screw gears are employed in worm and sector steering gears to convert the rotational motion of the steering wheel into the linear motion required for turning the vehicle’s wheels. The self-locking property of screw gears is advantageous in maintaining the position of the wheels after steering input.
  • Elevators and Lifts: Screw gears are widely used in the elevator and lift industry for vertical transportation systems. They play a crucial role in the elevator hoisting mechanism, where the rotational motion of the motor is converted into vertical movement. The high gear reduction ratio provided by screw gears enables controlled and precise lifting operations in elevators and lifts.
  • Valve and Actuation Systems: Screw gears have significant applications in industries that involve valve control and actuation. They are utilized in valve actuators to convert rotational motion into linear motion for precise positioning of valve stems. Screw gears are commonly found in water treatment plants, oil refineries, chemical processing facilities, and other industries that require accurate flow control and fluid system management.
  • Robotics and Automation: Screw gears play a vital role in robotics and automation systems. They are utilized in robot joints and robotic arm mechanisms to provide precise movement and positioning. Screw gears enable controlled and repeatable motion, making them suitable for applications that require accurate manipulation, such as assembly lines, pick-and-place machines, and robotic surgery systems.
  • Camera and Optics: The camera and optics industry utilizes screw gears in lens control systems. Screw gears are employed for focus adjustment, zooming, and aperture control in camera lenses and telescope mechanisms. The precise movement provided by screw gears enables accurate focusing, zooming, and optical alignment, contributing to high-quality image capture and optical performance.
  • Medical Equipment: Screw gears find applications in the medical equipment industry, particularly in devices that require controlled and precise movement. They are used in surgical robots, prosthetic limbs, medical imaging devices, and other medical instruments. Screw gears enable accurate motion control and positioning, while their self-locking property is advantageous for maintaining stable positions and preventing undesired movement.
  • Security Systems: Screw gears are utilized in security systems, including combination locks and safes. They provide the mechanical advantage necessary for rotating the locking mechanisms and ensuring secure operation. The self-locking property of screw gears adds an extra layer of security by preventing unauthorized access through reverse rotation or manipulation.

These are just a few examples of the industries that commonly use screw gears. The unique capabilities of screw gears, such as high gear ratios, precise motion control, and self-locking functionality, make them valuable in various sectors where efficient power transmission, accurate positioning, and controlled movement are essential.

China Hot selling Swl Wsh Squared Elevator Manual Worm Gear Screw Jack / Screw Lifts manufacturer China Hot selling Swl Wsh Squared Elevator Manual Worm Gear Screw Jack / Screw Lifts manufacturer
editor by CX 2023-10-12

Tags: