Product Description

90 Degree Helical-Bevel K Series Gearbox

Description: K Series Helical Bevel Gearbox

Overview
(1) Input mode: coupled motor, belted motor, input shaft or connection flange.
(2) Right angle output.
(3) Compact structure.
(4) Rigid tooth face.
(5) Carrying greater torque, high loading capacity.
(6) High precision gear, ensuring the unit to operate stably, smooth transmission.
(7) Low noise, long lifespan.
(8) Large overlap coefficient, abrasion resistant.

K series gear units are available in the following designs:
KAZ..Y..Short-flange-mounted helical-bevel gear units with hollow shaft
K...Y...Foot-mounted helical-bevel gear units with CHINAMFG shaft
KAT...Y...Torque-arm-mounted helical-bevel gear units with hollow shaft
KAB...Y...Foot-mounted helical-bevel gear units with hollow shaft
K(KF,KA,KAF,KAB,KAZ)S...Shaft input helical-bevel gear units
KA...Y...Helical-bevel gear units with hollow shaft
KA(K, KF ,KAF, KAB ,KAZ)R..Y..Combinatorial helical-bevel gear units
KF...Y...Flange-mounted helical-bevel gear units with CHINAMFG shaft
KA(K, KF ,KAF ,KAZ)S...R...Shaft input combinatorial helical-bevel gear units
KAF...Y...Flange-mounted helical-bevel gear units with hollow shaft
KA(K, KF ,KAF, KAB ,KAZ)...Y...When equipping the user's motor or the special 1 ,the flange is required to be connected

Structure:

K(-)
 
K(A) K(F) Input power range Output speed Output torque
Foot-mounted Hollow shaft 
output
Flange-mounted 0.18-200kw 0.1-270r/min Up to 50000Nm

Input power rating and maximum torque:

Size
 
38 48 58 68 78 88 98 108 128 158 168 188
Structure
 
K      KA           KF          KAF        KAZ          KAT           KAB                        
Input power rating(kw)
 
0.18~
3.0
0.18~
3.0
0.18~
5.5
0.18~
5.5
0.37~
11
0.75~
22
1.3~
30
3~
45
7.5~
90
11~
160
11~
200
18.5~
200
Ratio 5.36~
106.38
5.81~
131.87
6.57~
145.15
7.14~
44.79
7.22~
192.18
7.19~
197.27
8.95~
175.47
8.74~
141.93
8.68~
146.07
12.66~
150.03
17.35~1
64.44
17.97~
178.37
Maximum
Torque(N.m)
 
200 400 600 820 1550 2770 4300 8000 13000 18000 32000 50000

Gear unit weight:

Size
 
38 48 58 68 78 88 98 108 128 158 168 188
Weight
 
11 20 27 33 57 85 130 250 380 610 1015 1700

The weights are mean values, only for reference.
Maximum torque means the biggest 1 of the maximum torque related to the different ratio for the specified size.

Rated Power:0.18KW~200KW
Rated Torque:Up to 50000N.m
Gear Arrangement:Bevel Helical Hardened Gearbox
Input Speed:50HZ or 60HZ of 4Pole,6Pole and 8pole motor
Ratio:5.36~192.18


Our company :

Customer visiting:

FAQ:

Contact:

If you are interested in our product, welcome you contact me.
Our team will support any need you might have.
/* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(",").forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1

Application: Motor, Machinery, Industry
Function: Change Drive Torque, Speed Changing, Speed Reduction
Layout: Right Angle
Hardness: Hardened
Installation: Horizontal Type
Step: Three-Step
Customization:
Available

|

Customized Request

90 degree gearbox

Calculating Torque Requirements for a 90 Degree Gearbox

Calculating the torque requirements for a 90 degree gearbox involves understanding the torque transfer across the gear train and considering factors such as gear ratios, efficiency, and the desired output torque. Here's a general process:

  1. Determine Input Torque: Start by identifying the input torque required for your application. This could be the torque generated by the motor or power source that drives the gearbox.
  2. Account for Gear Ratio: Calculate the overall gear ratio of the 90 degree gearbox. This involves multiplying the gear ratios of each stage if the gearbox has multiple stages. The gear ratio is typically given as the output gear's teeth divided by the input gear's teeth.
  3. Calculate Intermediate Torque: Use the gear ratio to calculate the intermediate torque at the output of the input bevel gear set. Multiply the input torque by the gear ratio to get the intermediate torque.
  4. Consider Efficiency: Take into account the efficiency of the gearbox. Efficiency is the ratio of output power to input power, expressed as a percentage. Multiply the intermediate torque by the gearbox efficiency to get the effective torque.
  5. Calculate Final Output Torque: If there's an additional output stage with bevel gears, apply the appropriate gear ratio and efficiency to calculate the final output torque at the output shaft of the gearbox.

Keep in mind that real-world factors such as friction, load variations, and mechanical losses can influence the accuracy of torque calculations. It's advisable to incorporate safety factors to ensure the gearbox can handle peak loads without failure.

Consulting gearbox manufacturers' specifications and engineering guides can provide more accurate information and guidance on torque calculations for specific gearbox models.

90 degree gearbox

Using 90 Degree Gearboxes in High-Speed and High-Torque Applications

Yes, 90 degree gearboxes can be used in both high-speed and high-torque applications. The choice of gearbox type and design depends on the specific requirements of the application. For high-speed applications, gearboxes with suitable gear ratios and efficient designs, such as planetary gearboxes, can provide the necessary speed output while maintaining efficiency. On the other hand, for high-torque applications, worm gearboxes and bevel gearboxes are commonly used due to their ability to handle heavy loads and transmit high levels of torque efficiently.

90 degree gearbox

90 Degree Gearbox: Definition and Applications

A 90 degree gearbox, also known as a right-angle gearbox or a 90 degree gear drive, is a mechanical device used to change the direction of rotational motion by 90 degrees. It is designed to transmit power and torque between two shafts that are positioned perpendicular to each other.

These gearboxes are commonly used in applications where space constraints or the need to change the direction of motion require a compact and efficient solution. Here are some common applications of 90 degree gearboxes:

  • Conveyors: In industrial systems, 90 degree gearboxes are used to change the direction of material flow on conveyors that need to turn corners.
  • Printing Machinery: Printing presses often require the ability to change the direction of paper or other materials as they move through the printing process.
  • Automotive: 90 degree gearboxes can be found in vehicles' drivetrain systems, especially in four-wheel-drive or all-wheel-drive setups where power needs to be transferred to front and rear axles.
  • Machine Tools: Machine tools, such as milling machines and lathes, may require a change in the direction of motion to perform specific operations.
  • Robotics: Industrial robots and automation equipment often use 90 degree gearboxes to redirect motion in tight spaces.

The 90 degree gearbox achieves its function through a combination of gears, usually bevel or miter gears, that transmit power smoothly at a right angle. The gear teeth engage and transfer the rotational force from one shaft to the other, allowing the machinery to function effectively even when space limitations prevent a direct alignment of the input and output shafts.

Overall, the 90 degree gearbox is a versatile and essential component in various industries where the redirection of motion is required to achieve specific tasks efficiently.

China best 90 Degree Helical-Bevel K Series Gearbox   with high quality China best 90 Degree Helical-Bevel K Series Gearbox   with high quality
editor by CX 2024-05-14

Recent Posts