Product Description

1. PLF sequence precision planetary equipment pace reducer Design: PLF40, PLF60, PLF90, PLF120, PLF160, PLF200
2. The speed ratio: 3, 4, 5, 7, 9, 10, fifteen, 20, twenty five, thirty, 35, 40, 50, sixty four, 70, 80, 100, one hundred fifty, 200, 250, 350, 400, five hundred, seven hundred, one thousand
3. Levels: 3
Overall performance and functions:
one. Planetary equipment transmission interface making use of does not incorporate full needle needle bearing, and enhance the get in touch with area to improve structural rigidity and output torque
two. PLFseries precision planetary gear reducer, with substantial precision, substantial rigidity, high load, higher effectiveness, higher pace ratio, large life, minimal inertia, reduced vibration, minimal noise, minimal temperature climbing, gorgeous appearance, structure, light-weight excess weight, simple installation, exact positioning, and so on, and is suited for AC servo motor, DC servo motor, stepper motor, hydraulic motor of development and sluggish down transmission

Type PLF-forty PLF-60 PLF-ninety PLF-a hundred and twenty PLF-one hundred sixty PLF-200 Ratio Phases
T2N
Rated output torque
(Nm)
ten 28 one hundred twenty 220 480 1230 3 1
15 48 a hundred and fifty 270 590 1450 four
fifteen forty eight one hundred fifty 270 590 1450 five
9 39 a hundred and ten 215 470 1130 7
seven 19 fifty eight ninety eight 260 720 ten
ten 28 120 220 480 1230 nine two
15 forty eight one hundred fifty 270 590 1450 fifteen
fifteen forty eight a hundred and fifty 270 590 1450 twenty
15 48 150 270 590 1450 twenty five
fifteen 48 a hundred and fifty 270 590 1450 thirty
15 48 a hundred and fifty 270 590 1450 35
fifteen 48 150 270 590 1450 forty
15 forty eight 150 270 590 1450 50
9 39 a hundred and ten 215 470 1130 70
7 19 58 ninety eight 260 720 a hundred
fifteen forty eight 150 270 590 1450 64 three
15 forty eight one hundred fifty 270 590 1450 80
15 48 150 270 590 1450 a hundred
fifteen 48 150 270 590 1450 150
fifteen 48 150 270 590 1450 200
fifteen 48 150 270 590 1450 250
fifteen forty eight 150 270 590 1450 350
fifteen forty eight one hundred fifty 270 590 1450 four hundred
15 forty eight one hundred fifty 270 590 1450 five hundred
9 39 a hundred and ten 215 470 1130 seven-hundred
seven 19 58 ninety eight 260 720 a thousand
emergency quit torque T2not=2T2N
Rotational inertia
(kgm2)
.031 .0135 .seventy seven two.63 12.fourteen fifteen.6 three 1
.571 .093 .fifty two one.seventy nine 7.seventy eight sixteen.3 4
.019 .078 .45 one.fifty three six.07 fifteen.4 5
.017 .065 .39 one.32 4.63 sixteen.one 7
.016 .065 .39 1.32 four.63 fifteen.2 10
.03 .131 .seventy four 2.sixty two twelve.fourteen 15.nine 9 2
.571 .077 .seventy one two.fifty three twelve.35 fifteen fifteen
.019 .075 .forty four one.5 six.65 fifteen.seven twenty
.019 .075 .forty four 1.forty nine 5.81 15.three 25
.017 .064 .39 one.three six.36 fifteen.2 thirty
.016 .064 .39 1.3 five.28 sixteen.one 35
.016 .064 .39 1.3 5.28 fifteen.2 forty
.016 .064 .39 one.3 4.five 15.2 fifty
.016 .064 .39 one.3 4.five 15.2 70
.016 .058 .31 1.12 three.fifty three 15.2 one hundred
.019 .075 .5 one.5 7.five 15.4 80 three
.019 .075 .44 one.49 7.4 fifteen.four 100
.016 .064 .39 1.three six.5 15.2 one hundred fifty
.016 .064 .39 1.3 six.two 15.two 200
.016 .064 .39 one.three 5.seven fifteen.two 250
.016 .064 .39 1.three five.4 fifteen.two 350
.016 .064 .39 1.three 5.four fifteen.2 four hundred
.016 .064 .39 1.3 5.two 15.2 500
.016 .064 .39 one.three five.2 fifteen.two seven hundred
.016 .064 .39 1.3 five.2 fifteen.2 a thousand
backslash
(arcmin)
decreased <5 <3 <3 <3 <5 <10   1
normal <10 <8 <8 <8 <10 <15  
reduced <8 <5 <5 <5 <8 <15   2
normal <12 <10 <10 <10 <10 <18  
reduced <10 <8 <8 <8 <10 <18   3
normal <15 <12 <12 <12 <15 <22  
torsional rigidity
(Nm/arcmin)
.7 one.8 four.four nine.2 26.7 sixty six.seven  
noise dB(A) fifty five 58 sixty sixty five 70 seventy five  
Max.input pace ten thousand 8000 6000 6000 5000 3500 1-min
Rated input pace 4500 4000 4000 3500 2000 1500 1-min
Max.Radialforce(N) 185 265 400 1240 3700 6700 Stages
Max.Axialforce(N) a hundred and fifty 200 420 1000 3500 3800
Full-load efficiency(%) 96 1
94 2
90 3
 service existence (H) 20000  
Weight (Kg) .five one three 6.2 19 42 1
.eight 1.five 4.two 8 24 fifty 2
one.one one.8 4.eight nine.eight 29 58 3

US $200-2,000
/ unit
|
1 unit

(Min. Order)

###

Application: Machinery
Function: Speed Changing, Speed Reduction
Layout: Cycloidal
Hardness: Hardened Tooth Surface
Installation: Vertical Type
Step: Double-Step

###

Customization:

###

Type PLF-40 PLF-60 PLF-90 PLF-120 PLF-160 PLF-200 Ratio Stages
T2N
Rated output torque
(Nm)
10 28 120 220 480 1230 3 1
15 48 150 270 590 1450 4
15 48 150 270 590 1450 5
9 39 110 215 470 1130 7
7 19 58 98 260 720 10
10 28 120 220 480 1230 9 2
15 48 150 270 590 1450 15
15 48 150 270 590 1450 20
15 48 150 270 590 1450 25
15 48 150 270 590 1450 30
15 48 150 270 590 1450 35
15 48 150 270 590 1450 40
15 48 150 270 590 1450 50
9 39 110 215 470 1130 70
7 19 58 98 260 720 100
15 48 150 270 590 1450 64 3
15 48 150 270 590 1450 80
15 48 150 270 590 1450 100
15 48 150 270 590 1450 150
15 48 150 270 590 1450 200
15 48 150 270 590 1450 250
15 48 150 270 590 1450 350
15 48 150 270 590 1450 400
15 48 150 270 590 1450 500
9 39 110 215 470 1130 700
7 19 58 98 260 720 1000
emergency stop torque T2not=2T2N
Rotational inertia
(kgm2)
0.031 0.0135 0.77 2.63 12.14 15.6 3 1
0.022 0.093 0.52 1.79 7.78 16.3 4
0.019 0.078 0.45 1.53 6.07 15.4 5
0.017 0.065 0.39 1.32 4.63 16.1 7
0.016 0.065 0.39 1.32 4.63 15.2 10
0.03 0.131 0.74 2.62 12.14 15.9 9 2
0.023 0.077 0.71 2.53 12.35 15 15
0.019 0.075 0.44 1.5 6.65 15.7 20
0.019 0.075 0.44 1.49 5.81 15.3 25
0.017 0.064 0.39 1.3 6.36 15.2 30
0.016 0.064 0.39 1.3 5.28 16.1 35
0.016 0.064 0.39 1.3 5.28 15.2 40
0.016 0.064 0.39 1.3 4.5 15.2 50
0.016 0.064 0.39 1.3 4.5 15.2 70
0.016 0.058 0.31 1.12 3.53 15.2 100
0.019 0.075 0.5 1.5 7.5 15.4 80 3
0.019 0.075 0.44 1.49 7.4 15.4 100
0.016 0.064 0.39 1.3 6.5 15.2 150
0.016 0.064 0.39 1.3 6.2 15.2 200
0.016 0.064 0.39 1.3 5.7 15.2 250
0.016 0.064 0.39 1.3 5.4 15.2 350
0.016 0.064 0.39 1.3 5.4 15.2 400
0.016 0.064 0.39 1.3 5.2 15.2 500
0.016 0.064 0.39 1.3 5.2 15.2 700
0.016 0.064 0.39 1.3 5.2 15.2 1000
backslash
(arcmin)
reduced <5 <3 <3 <3 <5 <10   1
standard <10 <8 <8 <8 <10 <15  
reduced <8 <5 <5 <5 <8 <15   2
standard <12 <10 <10 <10 <10 <18  
reduced <10 <8 <8 <8 <10 <18   3
standard <15 <12 <12 <12 <15 <22  
torsional rigidity
(Nm/arcmin)
0.7 1.8 4.4 9.2 26.7 66.7  
noise dB(A) 55 58 60 65 70 75  
Max.input speed 10000 8000 6000 6000 5000 3500 1-min
Rated input speed 4500 4000 4000 3500 2000 1500 1-min
Max.Radialforce(N) 185 265 400 1240 3700 6700 Stages
Max.Axialforce(N) 150 200 420 1000 3500 3800
Full-load efficiency(%) 96 1
94 2
90 3
 service life (H) 20000  
Weight (Kg) 0.5 1 3 6.2 19 42 1
0.8 1.5 4.2 8 24 50 2
1.1 1.8 4.8 9.8 29 58 3
US $200-2,000
/ unit
|
1 unit

(Min. Order)

###

Application: Machinery
Function: Speed Changing, Speed Reduction
Layout: Cycloidal
Hardness: Hardened Tooth Surface
Installation: Vertical Type
Step: Double-Step

###

Customization:

###

Type PLF-40 PLF-60 PLF-90 PLF-120 PLF-160 PLF-200 Ratio Stages
T2N
Rated output torque
(Nm)
10 28 120 220 480 1230 3 1
15 48 150 270 590 1450 4
15 48 150 270 590 1450 5
9 39 110 215 470 1130 7
7 19 58 98 260 720 10
10 28 120 220 480 1230 9 2
15 48 150 270 590 1450 15
15 48 150 270 590 1450 20
15 48 150 270 590 1450 25
15 48 150 270 590 1450 30
15 48 150 270 590 1450 35
15 48 150 270 590 1450 40
15 48 150 270 590 1450 50
9 39 110 215 470 1130 70
7 19 58 98 260 720 100
15 48 150 270 590 1450 64 3
15 48 150 270 590 1450 80
15 48 150 270 590 1450 100
15 48 150 270 590 1450 150
15 48 150 270 590 1450 200
15 48 150 270 590 1450 250
15 48 150 270 590 1450 350
15 48 150 270 590 1450 400
15 48 150 270 590 1450 500
9 39 110 215 470 1130 700
7 19 58 98 260 720 1000
emergency stop torque T2not=2T2N
Rotational inertia
(kgm2)
0.031 0.0135 0.77 2.63 12.14 15.6 3 1
0.022 0.093 0.52 1.79 7.78 16.3 4
0.019 0.078 0.45 1.53 6.07 15.4 5
0.017 0.065 0.39 1.32 4.63 16.1 7
0.016 0.065 0.39 1.32 4.63 15.2 10
0.03 0.131 0.74 2.62 12.14 15.9 9 2
0.023 0.077 0.71 2.53 12.35 15 15
0.019 0.075 0.44 1.5 6.65 15.7 20
0.019 0.075 0.44 1.49 5.81 15.3 25
0.017 0.064 0.39 1.3 6.36 15.2 30
0.016 0.064 0.39 1.3 5.28 16.1 35
0.016 0.064 0.39 1.3 5.28 15.2 40
0.016 0.064 0.39 1.3 4.5 15.2 50
0.016 0.064 0.39 1.3 4.5 15.2 70
0.016 0.058 0.31 1.12 3.53 15.2 100
0.019 0.075 0.5 1.5 7.5 15.4 80 3
0.019 0.075 0.44 1.49 7.4 15.4 100
0.016 0.064 0.39 1.3 6.5 15.2 150
0.016 0.064 0.39 1.3 6.2 15.2 200
0.016 0.064 0.39 1.3 5.7 15.2 250
0.016 0.064 0.39 1.3 5.4 15.2 350
0.016 0.064 0.39 1.3 5.4 15.2 400
0.016 0.064 0.39 1.3 5.2 15.2 500
0.016 0.064 0.39 1.3 5.2 15.2 700
0.016 0.064 0.39 1.3 5.2 15.2 1000
backslash
(arcmin)
reduced <5 <3 <3 <3 <5 <10   1
standard <10 <8 <8 <8 <10 <15  
reduced <8 <5 <5 <5 <8 <15   2
standard <12 <10 <10 <10 <10 <18  
reduced <10 <8 <8 <8 <10 <18   3
standard <15 <12 <12 <12 <15 <22  
torsional rigidity
(Nm/arcmin)
0.7 1.8 4.4 9.2 26.7 66.7  
noise dB(A) 55 58 60 65 70 75  
Max.input speed 10000 8000 6000 6000 5000 3500 1-min
Rated input speed 4500 4000 4000 3500 2000 1500 1-min
Max.Radialforce(N) 185 265 400 1240 3700 6700 Stages
Max.Axialforce(N) 150 200 420 1000 3500 3800
Full-load efficiency(%) 96 1
94 2
90 3
 service life (H) 20000  
Weight (Kg) 0.5 1 3 6.2 19 42 1
0.8 1.5 4.2 8 24 50 2
1.1 1.8 4.8 9.8 29 58 3

The Basics of a Planetary Gearbox

The basic model of a planetary gearbox is a highly efficient transmission that transmits nearly ninety percent of the power it receives. The basic planetary gearbox comes in three basic types: Inline, Helical, and Spur. Below, we will discuss the differences between each of them and which one is better for your needs. A planetary gearbox is an important part of any engine and may be the perfect choice for your vehicle.
planetarygearbox

Inline planetary gearbox

An inline planetary gearbox has an inline arrangement of gears that enables the transfer of power. Its design makes it stable and reliable, and the space and weight-saving benefits make it a popular choice for many applications. Planetary gearboxes have low inertia, high torque, and a wide range of reduction ratios, which make them a versatile choice for many industries. To find out more about this type of gearbox, read about its construction and specifications.
A planetary gearbox is composed of two parts: a sun gear (also called the central or input gear), and two planet gears (also called outer gears). These gears are connected to each other via a carrier. In order to get the best performance from your gearbox, it’s important to find a model with the features and benefits required for your application. Also, be sure to check out the delivery time, global availability, and customer service of your selected constructor. A few constructors are faster than others and have the ability to respond quickly, while others can deliver every single planetary gearbox out of stock.
Whether you’re using an inline planetary gearbox for your car’s transmission, or you’re building a new machine, it’s important to choose the right size for your application. The most common ratio is five:1, but an inline gearbox can be as high as 1000:1! The torque range is between 250-950 lb-in for continuous torque, and up to 5800 lb-in for yield torque. Some companies even offer custom shafts if you need them to fit a specific application.
Inline planetary gearboxes have a high ratio of helical rotation and are useful for applications where space is limited. Their low-backlash design allows them to handle high torques and high accelerations without backlash. Despite their compact size, planetary gear systems also have high single-stage reduction ratios, a feature that makes them ideal for a variety of industrial applications. They can also be connected for high reduction ratios.
An inline planetary gearbox can be used in many applications, from small tools to heavy industrial machinery. Its basic design includes three components: an input gear pair, an output gear pair, and a stationary position. Some planetary gearbox designs also include additional gear sets that can provide a slight offset between input and output. A planetary gearbox may also contain multiple bearings, which make the assembly more robust and reliable.
Inline planetary gear reducers are commonly used in industrial settings to slow down an electric motor. They are able to multiply torque, which means they can reduce the input speed to a level where the mechanical devices inside the motor can function properly. This type of gear reducer also has a low clearance, which makes it ideal for machines with high torque. However, you should consider the amount of torque required in your application before you make a purchase.
planetarygearbox

Helical planetary gearbox

A helical planetary gearbox is a type of mechanical system. The gears are connected by joints to the carrier that holds the planets stationary. The sun gear serves as an input to the other gears, and the planet gears rotate at a rate that depends on the number of teeth in each gear. The ratio between these gears is -Ns/Np, and the number of teeth in the ring is N r, N s, and N p.
Another type of planetary gearbox uses multiple helical axes to distribute the load. This design also offers high stiffness and low backlash, which is important for applications involving frequent start-stop cycles and rotational direction changes. It also features a compact design and low mass inertia. A helical planetary gearbox can be used for a wide range of applications. Listed below are some of the benefits of helical gear technology.
The basic design of a helical planetary gear is based on the principle of stepping planets. This concept eliminates the need for timing marks and restrictive assembly conditions. The planetary gear’s helical shape can be modified to achieve a greater transmission ratio in an equal or smaller volume. For example, a 50-T ring gear will yield the same effect as a 100-T ring gear.
In addition to the helical axis, a helical planetary gearbox also has a wide variety of secondary features that are critical to torque transmission. For instance, compact needle roller bearings are appropriate for a helical planetary gearbox because of their low-profile design and small space. However, a tapered roller bearing is better suited to handling high axial forces. In general, a helical planetary gearbox will have a higher efficiency rate and lower noise levels.
A helical planetary gearbox will have a number of components that can vary in size and shape. They will include a sun gear and many planetary parts. The central sun gear will take a low-torque input and will run multiple external gears to increase the torque and speed. This basic model of a planetary gearbox is highly efficient, transferring 97% of the power input. There are three main types of planetary gearboxes: the cylindrical planetary gearbox, the helical planetary gearbox, and the helical wormwheel.
The CZPT is a good example of an entry-level helical planetary gearbox. It is extremely reliable and aimed at providing torque in quiet applications with high precision. The Access series is another option, which is designed to meet the needs of the low-backlash planetary gearbox market. It features helical planetary gears with five to eight arc-minutes backlash, and is built on a monobloc housing.
A helical planetary gearbox is widely used in 3D printing. They are lightweight and can provide a high gear ratio. In addition to their low weight and high efficiency, some people have installed them into 3D printers to improve the accuracy of their designs. And in addition to 3D printing, helical gears are used in many industrial applications. If you’re thinking about purchasing one, you should know what the benefits are.
planetarygearbox

Spur planetary gearbox

There are many advantages to a spur planetary gearbox, from its compact design and low cost to its unmatched power transmission capacity per unit volume. Planetary gears have high efficiency per stage and can achieve up to 95% efficiency, depending on the ratio. Planet gears are mounted on a joint carrier, and the output rotation speed is slower than the drive rotation speed, which leads to increased torque. The higher the gear wheels, the more torque the unit can produce.
A spur planetary gearbox incorporates multiple other gear sets that must have helical teeth. These other gear sets must be helical, and the motor must be aligned with the driven parts. The spur gears are the most efficient type of planetary gear, as their teeth are symmetrical, which means no axial forces are generated. The difference between a spur and a planetary gearbox is its shape.
The right angle spur planetary gearbox is a versatile design with a spiral bevel gear that provides superior smoothness and quiet operation. This gearhead is case-hardened and ground to increase its efficiency. These gears can be purchased in 3-100 ratios. Spur planetary gearboxes can also have ISO rotary flanges, keyed shafts, DIN splines, or hollow compression connections.
A spur planetary gearbox utilizes spur gears around the circumference of the mechanism. The spur gears rotate between gears that have internal and external teeth. Because of this, the angular velocity of the spur gear differential carrier is the average of the ring gears and sun gears. A spur gearbox can also be considered a compound planetary gear. It is typically used for servo applications. Unlike spur gears, helical planetary gears are easier to maintain and have lower noise levels.
The most notable difference between a spur planetary gearbox and a planetary gearhead is the lubrication of the pinion and the spur gear head. A spur gear head is less complex, but cannot handle the same amount of load as a planetary gearhead. Both types can achieve the same backlash, but a planetary gearhead has better lubrication retention than a spur gear. It can run at higher speeds without excessive lubrication, while a spur gear drive is more efficient at low speeds. The reduction ratio of a planetary gearhead is near unity while that of a planetary gear head is many thousand to one.
A planetary gearbox has many applications. Plastic machinery, goods & personnel lifts, and machine tools are all prime examples of these types of gearing systems. Other industries that use these gears include wind turbines and sugar crystallizers, as well as steel and sugar mills. And of course, the use of planetary gears is not limited to these industries. It is used in many different ways, including slewing drives, mill drive, and derrick & dockyard cranes

China Plf120 Ratio 5 Planetary Gearbox     diy planetary gearboxChina Plf120 Ratio 5 Planetary Gearbox     diy planetary gearbox
editor by czh 2022-12-13