China 3VDC 6VDC 9VDC 12VDC 24V 3000-9500rpm Worm Gear Box brushless dc motor worm gearbox

Merchandise Description

3VDC 6VDC 9VDC 12VDC 24V 3 twelve ≤140 3 twelve ≤220 forty five 12 ≤350 6 24 ≤70 3 24 ≤110 forty five 24 ≤180 6-ninety nine.5K Motor remember to refer to the motor information RS-555123000. 
Gearbox remember to refer to gearbox information reduction ratio99.5. Connected to gearmotor output speed and torque remember to
Refer to motor knowledge. 
two Motor can be mounted wiht magnetic encorder. Encorder parameters remember to refer to me-37. Htm. 
3Standard output shaft following lowering: 8.0mm. Other measurements of then output shaft can make as consumer request. 
4Chart only for reference, merchandise shall prevail the entity. 

Company Introduction

 

Type: Circular Gear
Dia.: 36X(84~110)mm
Manufacturing Method: Rolling Gear
Toothed Portion Shape: Spur Gear
Transport Package: CTN Size: 32X28xh26cm 40PCS/CTN G. W. 16kgs
Specification: CE, Rohs

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Customization:

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Gearbox data:  
 
Number of stages 1stages reduction 2 stages reduction 3 stages reduction 4 stages reduction 5 stages reduction
Reduction ratio 3.7\5.2 13.7\19.2\26.9 50.9\71.2\99.5\139 188\264\369\516\721 669\977\1367\1911\2672\3736\
Gearbox length " L" mm 26.4 32.6 38.9 45.3 52.5
Max. Running torque 3.0Kgf @ cm 6.0Kgf @ cm 8.0Kgf @ cm 12.0Kgf @ cm 20Kgf @ cm
Max. Gear breaking torque 9.0Kgf @ cm 18.0Kgf @ cm 24Kgf @ cm 36Kgf @ cm 60Kgf @ cm
Max. Gearing efficiency 90% 81% 73% 65% 59%

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Motor data:  
 
Motor name Rated volt. V No load Load torque Stall torque
Current Speed Current Speed Torque Output power Torque Current
MA R/min MA R/min GF @ cm W GF @ cm MA
RS-555123000 12 ≤140 3000 ≤800 2200 150 3.3 600 3000
RS-555124500 12 ≤220 4500 ≤1200 3300 220 7.2 880 7800
RS-555126000 12 ≤350 6000 ≤2000 4500 300 13.5 1200 6000
RS-555243000 24 ≤70 3000 ≤400 2200 150 3.3 600 1600
RS-555244500 24 ≤110 4500 ≤600 3300 220 7.2 880 3000
RS-555246000 24 ≤180 6000 ≤1000 4500 300 13.5 1200 4000
1\This table lists some motors parameters, others please refer to specific parameters of RS-555. Htm"
2\Afier connecting motor and gearbox which is named gearmotor the output torque: Motor torque X reduction ratio X gearing efficiency; Output speed: Motor speed / reduction ratio. 

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NOTE: 
1\ Gearmotor named methods: E. G. SG-555123000-99.5K Motor please refer to the motor data RS-555123000. 
Gearbox please refer to gearbox data reduction ratio99.5. Related to gearmotor output speed and torque please
Refer to motor data. 
2\ Motor can be installed wiht magnetic encorder. Encorder parameters please refer to me-37. Htm. 
3\Standard output shaft after reducing: 8.0mm. Other sizes of then output shaft can make as client request. 
4\Chart only for reference, products shall prevail the entity. 
Type: Circular Gear
Dia.: 36X(84~110)mm
Manufacturing Method: Rolling Gear
Toothed Portion Shape: Spur Gear
Transport Package: CTN Size: 32X28xh26cm 40PCS/CTN G. W. 16kgs
Specification: CE, Rohs

###

Customization:

###

Gearbox data:  
 
Number of stages 1stages reduction 2 stages reduction 3 stages reduction 4 stages reduction 5 stages reduction
Reduction ratio 3.7\5.2 13.7\19.2\26.9 50.9\71.2\99.5\139 188\264\369\516\721 669\977\1367\1911\2672\3736\
Gearbox length " L" mm 26.4 32.6 38.9 45.3 52.5
Max. Running torque 3.0Kgf @ cm 6.0Kgf @ cm 8.0Kgf @ cm 12.0Kgf @ cm 20Kgf @ cm
Max. Gear breaking torque 9.0Kgf @ cm 18.0Kgf @ cm 24Kgf @ cm 36Kgf @ cm 60Kgf @ cm
Max. Gearing efficiency 90% 81% 73% 65% 59%

###

Motor data:  
 
Motor name Rated volt. V No load Load torque Stall torque
Current Speed Current Speed Torque Output power Torque Current
MA R/min MA R/min GF @ cm W GF @ cm MA
RS-555123000 12 ≤140 3000 ≤800 2200 150 3.3 600 3000
RS-555124500 12 ≤220 4500 ≤1200 3300 220 7.2 880 7800
RS-555126000 12 ≤350 6000 ≤2000 4500 300 13.5 1200 6000
RS-555243000 24 ≤70 3000 ≤400 2200 150 3.3 600 1600
RS-555244500 24 ≤110 4500 ≤600 3300 220 7.2 880 3000
RS-555246000 24 ≤180 6000 ≤1000 4500 300 13.5 1200 4000
1\This table lists some motors parameters, others please refer to specific parameters of RS-555. Htm"
2\Afier connecting motor and gearbox which is named gearmotor the output torque: Motor torque X reduction ratio X gearing efficiency; Output speed: Motor speed / reduction ratio. 

###

NOTE: 
1\ Gearmotor named methods: E. G. SG-555123000-99.5K Motor please refer to the motor data RS-555123000. 
Gearbox please refer to gearbox data reduction ratio99.5. Related to gearmotor output speed and torque please
Refer to motor data. 
2\ Motor can be installed wiht magnetic encorder. Encorder parameters please refer to me-37. Htm. 
3\Standard output shaft after reducing: 8.0mm. Other sizes of then output shaft can make as client request. 
4\Chart only for reference, products shall prevail the entity. 

What is a worm gear reducer?

A worm gear reducer is a mechanical device that uses a worm gear and a worm to reduce the speed of a rotating shaft. The gear reducer can increase the output torque of the engine according to the gear ratio. This type of gear reducer is characterized by its flexibility and compact size. It also increases the strength and efficiency of the drive.
worm_reducer

Hollow shaft worm gear reducer

The hollow shaft worm gear reducer is an additional output shaft connecting various motors and other gearboxes. They can be installed horizontally or vertically. Depending on size and scale, they can be used with gearboxes from 4GN to 5GX.
Worm gear reducers are usually used in combination with helical gear reducers. The latter is mounted on the input side of the worm gear reducer and is a great way to reduce the speed of high output motors. The gear reducer has high efficiency, low speed operation, low noise, low vibration and low energy consumption.
Worm gear reducers are made of hard steel or non-ferrous metals, increasing their efficiency. However, gears are not indestructible, and failure to keep running can cause the gear oil to rust or emulsify. This is due to moisture condensation that occurs during the operation and shutdown of the reducer. The assembly process and quality of the bearing are important factors to prevent condensation.
Hollow shaft worm gear reducers can be used in a variety of applications. They are commonly used in machine tools, variable speed drives and automotive applications. However, they are not suitable for continuous operation. If you plan to use a hollow shaft worm gear reducer, be sure to choose the correct one according to your requirements.

Double throat worm gear

Worm gear reducers use a worm gear as the input gear. An electric motor or sprocket drives the worm, which is supported by anti-friction roller bearings. Worm gears are prone to wear due to the high friction in the gear teeth. This leads to corrosion of the confinement surfaces of the gears.
The pitch diameter and working depth of the worm gear are important. The pitch circle diameter is the diameter of the imaginary circle in which the worm and the gear mesh. Working depth is the maximum amount of worm thread that extends into the backlash. Throat diameter is the diameter of the circle at the lowest point of the worm gear face.
When the friction angle between the worm and the gear exceeds the lead angle of the worm, the worm gear is self-locking. This feature is useful for lifting equipment, but may be detrimental to systems that require reverse sensitivity. In these systems, the self-locking ability of the gears is a key limitation.
The double throat worm gear provides the tightest connection between the worm and the gear. The worm gear must be installed correctly to ensure maximum efficiency. One way to install the worm gear assembly is through a keyway. The keyway prevents the shaft from rotating, which is critical for transmitting torque. Then attach the gear to the hub using the set screw.
The axial and circumferential pitch of the worm gear should match the pitch diameter of the larger gear. Single-throat worm gears are single-threaded, and double-throat worm gears are double-throat. A single thread design advances one tooth, while a double thread design advances two teeth. The number of threads should match the number of mating gears.
worm_reducer

Self-locking function

One of the most prominent features of a worm reducer is its self-locking function, which prevents the input and output shafts from being interchanged. The self-locking function is ideal for industrial applications where large gear reduction ratios are required without enlarging the gear box.
The self-locking function of a worm reducer can be achieved by choosing the right type of worm gear. However, it should be noted that this feature is not available in all types of worm gear reducers. Worm gears are self-locking only when a specific speed ratio is reached. When the speed ratio is too small, the self-locking function will not work effectively.
Self-locking status of a worm reducer is determined by the lead, pressure, and coefficient of friction. In the early twentieth century, cars had a tendency to pull the steering toward the side with a flat tire. A worm drive reduced this tendency by reducing frictional forces and transmitting steering force to the wheel, which aids in steering and reduces wear and tear.
A self-locking worm reducer is a simple-machine with low mechanical efficiency. It is self-locking when the work at one end is greater than the work at the other. If the mechanical efficiency of a worm reducer is less than 50%, the friction will result in losses. In addition, the self-locking function is not applicable when the drive is reversed. This characteristic makes self-locking worm gears ideal for hoisting and lowering applications.
Another feature of a worm reducer is its ability to reduce axially. Worm gears can be double-lead or single-lead, and it is possible to adjust their backlash to compensate for tooth wear.

Heat generated by worm gears

Worm gears generate considerable amounts of heat. It is essential to reduce this heat to improve the performance of the gears. This heat can be mitigated by designing the worms with smoother surfaces. In general, the speed at which worm gears mesh should be in the range of 20 to 24 rms.
There are many approaches for calculating worm gear efficiency. However, no other approach uses an automatic approach to building the thermal network. The other methods either abstractly investigate the gearbox as an isothermal system or build the TNM statically. This paper describes a new method for automatically calculating heat balance and efficiency for worm gears.
Heat generated by worm gears is a significant source of power loss. Worm gears are typically characterized by high sliding speeds in their tooth contacts, which causes high frictional heat and increased thermal stresses. As a result, accurate calculations are necessary to ensure optimal operation. In order to determine the efficiency of a gearbox system, manufacturers often use the simulation program WTplus to calculate heat loss and efficiency. The heat balance calculation is achieved by adding the no-load and load-dependent power losses of the gearbox.
Worm gears require a special type of lubricant. A synthetic oil that is non-magnetic and has a low friction coefficient is used. However, the oil is only one of the options for lubricating worm gears. In order to extend the life of worm gears, you should also consider adding a natural additive to the lubricant.
Worm gears can have a very high reduction ratio. They can achieve massive reductions with little effort, compared to conventional gearsets which require multiple reductions. Worm gears also have fewer moving parts and places for failure than conventional gears. One disadvantage of worm gears is that they are not reversible, which limits their efficiency.
worm_reducer

Size of worm gear reducer

Worm gear reducers can be used to decrease the speed of a rotating shaft. They are usually designed with two shafts at right angles. The worm wheel acts as both the pinion and rack. The central cross section forms the boundary between the advancing and receding sides of the worm gear.
The output gear of a worm gear reducer has a small diameter compared to the input gear. This allows for low-speed operation while producing a high-torque output. This makes worm gear reducers great for space-saving applications. They also have low initial costs.
Worm gear reducers are one of the most popular types of speed reducers. They can be small and powerful and are often used in power transmission systems. These units can be used in elevators, conveyor belts, security gates, and medical equipment. Worm gearing is often found in small and large sized machines.
Worm gears can also be adjusted. A dual-lead worm gear has a different lead on the left and right tooth surfaces. This allows for axial movement of the worm and can also be adjusted to reduce backlash. A backlash adjustment may be necessary as the worm wears down. In some cases, this backlash can be adjusted by adjusting the center distance between the worm gear.
The size of worm gear reducer depends on its function. For example, if the worm gear is used to reduce the speed of an automobile, it should be a model that can be installed in a small car.

China 3VDC 6VDC 9VDC 12VDC 24V 3000-9500rpm Worm Gear Box     brushless dc motor worm gearboxChina 3VDC 6VDC 9VDC 12VDC 24V 3000-9500rpm Worm Gear Box     brushless dc motor worm gearbox
editor by czh 2022-11-25