Tag Archives: Coupling

China RC Series Inline Gear Unit Helical Gearbox for Coupling Transmission bevel helical gearbox

Product Description

Solution Description

KPC Sequence helical gearbox is a new technology merchandise which developed basing on the modular technique, It can be related respectively with motors such as IEC normal motor, brake motor, explosion-evidence motor, frequency motor, servo motor and so on. it has 4 types(),electricity from .12kw to 4.0kw, ratio from 3.66 to fifty eight.09, Max torque from 120Nm to 500Nm.It can be connect discretionary(foot or flange) and use multi-mounting positions appropriately. This product is commonly used in textile, foodstuff, beverage,tobacco, logistics industrial fields,and many others.

        Solution Attributes

  1. Modular building
  2. Higher performance
  3. Precise grinding, reduced noise
  4. Compact structural style
  5. Univeral mounting
  6. Aluminium housing, light in fat
  7. Carbonize and grinding hardened gears, resilient
  8. Multi-structure, can be mixed in distinct varieties to fulfill different transmission issue

       Set up:
      1.Foot mounted
      2.Output Flange mounted
      3.B14 Flange mounted

      Designs:
      1.KPC..P(Foot-mounted): KPC01P,KPC02P,KPC03P,KPC04P
      2.KPCF..P(Output Flange-mounted): KPCF01P,KPCF02P,KPCF03P,KPCF04P
      3.KPCZ..P(B14 Flange-mounted): KPCZ01P,KPCZ02P,KPCZ03P,KPCZ04P

In depth Photographs

Product Parameters

GEARBOX Selecting TABLES  
KPC01..       n1=1400r/min       120Nm  
n2 M2max Fr2 i Proportion 63B5 71B5/B14 80B5/B14 90B5/B14  
[r/min] [Nm] [N]  
26 one hundred twenty 2600 fifty three.33  one hundred sixty/3          
31 one hundred twenty 2600 forty five.89  413/9          
35 120 2600 40.10  3248/eighty one          
39 120 2560 35.47  532/15          
49 one hundred twenty 2380 28.50  770/27          
59 one hundred twenty 2230 23.56  212/nine          
71 a hundred and twenty 2100 19.83  119/six          
78 90 2030 17.86  1357/76          
ninety six a hundred and twenty 1900 14.62  658/45          
a hundred and one 90 1860 thirteen.eighty* 69/5          
118 one hundred twenty 1770 eleven.90  2464/207          
143 one hundred twenty 1660 nine.81  1148/117          
153 eighty 1630 nine.17  1219/133          
181 80 1540 7.72  1173/152          
246 70 1390 five.69  1081/a hundred ninety          
302 70 1290 four.63  88/19          
366 70 1210 three.82  943/247          
KPC02..       n1=1400r/min       200Nm  
n2 M2max Fr2 i Proportion 63B5 71B5/B14 80B5/B14 90B5/B14  
[r/min] [Nm] [N]  
26 two hundred 4500 54.00* 54/1          
thirty 200 4500 46.46* 3717/eighty          
34 two hundred 4500 forty.60* 203/five          
39 200 4270 35.91* 3591/a hundred          
forty eight 200 3970 28.88* 231/eight          
59 200 3730 23.85* 477/twenty          
70 200 3520 20.08* 3213/160          
eighty two 140 3330 17.10  3009/176          
95 two hundred 3180 fourteen.81* 2961/two hundred          
106 one hundred forty 3060 13.21  2907/220          
116 two hundred 2970 12.05  1386/a hundred and fifteen          
141 200 2780 9.93  2583/260          
159 one hundred twenty 2670 8.78  2703/308          
189 one hundred twenty 2520 7.39  2601/352          
257 a hundred 2280 5.45  2397/440          
316 one hundred 2120 four.43  102/23          
383 80 1990 three.66  2091/572          
KPC03..       n1=1400r/min         300Nm
n2 M2max Fr2 i Proportion 71B5/B14 80B5/B14 90B5/B14 100B5/B14 112B5/B14
[r/min] [Nm] [N]
24 300 6000 58.09  639/eleven          
28 three hundred 6000 50.02  2201/forty four          
32 300 6000 43.75  4331/99          
36 three hundred 6000 38.73  426/11          
40 300 5860 34.62  4189/121          
forty nine 300 5480 28.30  4047/143          
64 280 5571 21.78  1917/88          
eighty one 280 4660 17.33  3621/209          
93 260 4440 fifteen.06  497/33          
113 260 4160 12.37  1633/132          
136 240 3910 10.28  3053/297          
177 180 3590 seven.93  1269/one hundred sixty          
222 a hundred and eighty 3320 6.31  2397/380          
255 a hundred and fifty 3170 five.48  329/sixty          
311 a hundred and fifty 2970 4.50  1081/240          
374 a hundred and fifty 2790 3.74  2571/540          
KPC04..       n1=1400r/min       500Nm  
n2 M2max Fr2 i Proportion 80B5/B14 90B5/B14 100B5/B14 112B5/B14  
[r/min] [Nm] [N]
24 500 8000 fifty eight.09  639/11          
28 500 8000 50.02  2201/44          
32 five hundred 8000 forty three.75  4331/ninety nine          
36 five hundred 8000 38.73  426/11          
40 500 7950 34.62  4189/121          
49 five hundred 7430 28.30  4047/143          
64 480 6810 21.78  1917/88          
eighty one 480 6310 seventeen.33  3621/209          
93 460 6571 fifteen.06  497/33          
113 460 5640 twelve.37  1633/132          
136 440 5300 ten.28  3053/297          
177 260 4860 seven.93  1269/a hundred and sixty          
222 260 4510 6.31  2397/380          
255 230 4300 five.48  329/60          
311 230 4030 four.50  1081/240          
374 200 3780 3.74 2571/540          

Define Dimension:

Organization Profile

About our business:
We are a professional reducer producer situated in HangZhou, ZHangZhoug province.Our leading products is  full assortment of RV571-one hundred fifty worm reducers , also provided hypoid helical gearbox, Laptop units, UDL Variators and AC Motors.Products are commonly employed for apps these kinds of as: foodstuffs, ceramics, packing, chemicals, pharmacy, plastics, paper-generating, design equipment, metallurgic mine, environmental safety engineering, and all varieties of automatic strains, and assembly traces.With quick delivery, outstanding following-sales services, advanced generating facility, our items promote well  both at house and overseas. We have exported our reducers to Southeast Asia, Jap Europe and Middle East and so on.Our intention is to create and innovate on basis of high good quality, and create a good track record for reducers.

Packing details:Plastic Bags+Cartons+Wood Cases , or on request
We participate Germany Hannver Exhibition-ZheJiang PTC Truthful-Turkey Earn Eurasia

Logistics

We can dispatch items by sea, by teach, by air according to customer instruction

After Sales Support

one.Upkeep Time and Guarantee:Inside of 1 calendar year right after receiving products.
2.Other SupportLike modeling variety guidebook, installation information, and problem resolution guide, etc.

FAQ

1.Q:Can you make as for every consumer drawing?
A: Yes, we offer you personalized provider for buyers appropriately. We can use customer’s nameplate for gearboxes.

2.Q:What is your phrases of payment ?
   A: thirty% deposit ahead of generation,equilibrium T/T prior to supply.

three.Q:Are you a trading company or manufacturer?
   A:We are a manufacurer with advanced equipment and skilled employees.

four.Q:What is your creation capability?
   A:8000-9000 PCS/Month

5.Q:Free of charge sample is offered or not?
   A:Indeed, we can source cost-free sample if customer concur to pay out for the courier expense

six.Q:Do you have any certification?
   A:Sure, we have CE certificate and SGS certificate report.

Contact data:
Ms Lingel Pan
For any inquiries just really feel cost-free ton get in touch with me. Several many thanks for your kind consideration to our organization!

US $45-80
/ Piece
|
1 Piece

(Min. Order)

###

Application: Motor, Machinery, Marine, Agricultural Machinery, Industry
Function: Distribution Power, Change Drive Torque, Change Drive Direction, Speed Changing, Speed Reduction
Layout: Coaxial
Hardness: Hardened Tooth Surface
Installation: Horizontal Type
Step: Double-Step

###

Samples:
US$ 45/Piece
1 Piece(Min.Order)

|
Request Sample

###

Customization:

###

GEARBOX SELECTING TABLES  
KPC01..       n1=1400r/min       120Nm  
n2 M2max Fr2 i Proportion 63B5 71B5/B14 80B5/B14 90B5/B14  
[r/min] [Nm] [N]  
26 120 2600 53.33  160/3          
31 120 2600 45.89  413/9          
35 120 2600 40.10  3248/81          
39 120 2560 35.47  532/15          
49 120 2380 28.50  770/27          
59 120 2230 23.56  212/9          
71 120 2100 19.83  119/6          
78 90 2030 17.86  1357/76          
96 120 1900 14.62  658/45          
101 90 1860 13.80* 69/5          
118 120 1770 11.90  2464/207          
143 120 1660 9.81  1148/117          
153 80 1630 9.17  1219/133          
181 80 1540 7.72  1173/152          
246 70 1390 5.69  1081/190          
302 70 1290 4.63  88/19          
366 70 1210 3.82  943/247          
KPC02..       n1=1400r/min       200Nm  
n2 M2max Fr2 i Proportion 63B5 71B5/B14 80B5/B14 90B5/B14  
[r/min] [Nm] [N]  
26 200 4500 54.00* 54/1          
30 200 4500 46.46* 3717/80          
34 200 4500 40.60* 203/5          
39 200 4270 35.91* 3591/100          
48 200 3970 28.88* 231/8          
59 200 3730 23.85* 477/20          
70 200 3520 20.08* 3213/160          
82 140 3330 17.10  3009/176          
95 200 3180 14.81* 2961/200          
106 140 3060 13.21  2907/220          
116 200 2970 12.05  1386/115          
141 200 2780 9.93  2583/260          
159 120 2670 8.78  2703/308          
189 120 2520 7.39  2601/352          
257 100 2280 5.45  2397/440          
316 100 2120 4.43  102/23          
383 80 1990 3.66  2091/572          
KPC03..       n1=1400r/min         300Nm
n2 M2max Fr2 i Proportion 71B5/B14 80B5/B14 90B5/B14 100B5/B14 112B5/B14
[r/min] [Nm] [N]
24 300 6000 58.09  639/11          
28 300 6000 50.02  2201/44          
32 300 6000 43.75  4331/99          
36 300 6000 38.73  426/11          
40 300 5860 34.62  4189/121          
49 300 5480 28.30  4047/143          
64 280 5020 21.78  1917/88          
81 280 4660 17.33  3621/209          
93 260 4440 15.06  497/33          
113 260 4160 12.37  1633/132          
136 240 3910 10.28  3053/297          
177 180 3590 7.93  1269/160          
222 180 3320 6.31  2397/380          
255 150 3170 5.48  329/60          
311 150 2970 4.50  1081/240          
374 150 2790 3.74  2021/540          
KPC04..       n1=1400r/min       500Nm  
n2 M2max Fr2 i Proportion 80B5/B14 90B5/B14 100B5/B14 112B5/B14  
[r/min] [Nm] [N]
24 500 8000 58.09  639/11          
28 500 8000 50.02  2201/44          
32 500 8000 43.75  4331/99          
36 500 8000 38.73  426/11          
40 500 7950 34.62  4189/121          
49 500 7430 28.30  4047/143          
64 480 6810 21.78  1917/88          
81 480 6310 17.33  3621/209          
93 460 6020 15.06  497/33          
113 460 5640 12.37  1633/132          
136 440 5300 10.28  3053/297          
177 260 4860 7.93  1269/160          
222 260 4510 6.31  2397/380          
255 230 4300 5.48  329/60          
311 230 4030 4.50  1081/240          
374 200 3780 3.74 2021/540          
US $45-80
/ Piece
|
1 Piece

(Min. Order)

###

Application: Motor, Machinery, Marine, Agricultural Machinery, Industry
Function: Distribution Power, Change Drive Torque, Change Drive Direction, Speed Changing, Speed Reduction
Layout: Coaxial
Hardness: Hardened Tooth Surface
Installation: Horizontal Type
Step: Double-Step

###

Samples:
US$ 45/Piece
1 Piece(Min.Order)

|
Request Sample

###

Customization:

###

GEARBOX SELECTING TABLES  
KPC01..       n1=1400r/min       120Nm  
n2 M2max Fr2 i Proportion 63B5 71B5/B14 80B5/B14 90B5/B14  
[r/min] [Nm] [N]  
26 120 2600 53.33  160/3          
31 120 2600 45.89  413/9          
35 120 2600 40.10  3248/81          
39 120 2560 35.47  532/15          
49 120 2380 28.50  770/27          
59 120 2230 23.56  212/9          
71 120 2100 19.83  119/6          
78 90 2030 17.86  1357/76          
96 120 1900 14.62  658/45          
101 90 1860 13.80* 69/5          
118 120 1770 11.90  2464/207          
143 120 1660 9.81  1148/117          
153 80 1630 9.17  1219/133          
181 80 1540 7.72  1173/152          
246 70 1390 5.69  1081/190          
302 70 1290 4.63  88/19          
366 70 1210 3.82  943/247          
KPC02..       n1=1400r/min       200Nm  
n2 M2max Fr2 i Proportion 63B5 71B5/B14 80B5/B14 90B5/B14  
[r/min] [Nm] [N]  
26 200 4500 54.00* 54/1          
30 200 4500 46.46* 3717/80          
34 200 4500 40.60* 203/5          
39 200 4270 35.91* 3591/100          
48 200 3970 28.88* 231/8          
59 200 3730 23.85* 477/20          
70 200 3520 20.08* 3213/160          
82 140 3330 17.10  3009/176          
95 200 3180 14.81* 2961/200          
106 140 3060 13.21  2907/220          
116 200 2970 12.05  1386/115          
141 200 2780 9.93  2583/260          
159 120 2670 8.78  2703/308          
189 120 2520 7.39  2601/352          
257 100 2280 5.45  2397/440          
316 100 2120 4.43  102/23          
383 80 1990 3.66  2091/572          
KPC03..       n1=1400r/min         300Nm
n2 M2max Fr2 i Proportion 71B5/B14 80B5/B14 90B5/B14 100B5/B14 112B5/B14
[r/min] [Nm] [N]
24 300 6000 58.09  639/11          
28 300 6000 50.02  2201/44          
32 300 6000 43.75  4331/99          
36 300 6000 38.73  426/11          
40 300 5860 34.62  4189/121          
49 300 5480 28.30  4047/143          
64 280 5020 21.78  1917/88          
81 280 4660 17.33  3621/209          
93 260 4440 15.06  497/33          
113 260 4160 12.37  1633/132          
136 240 3910 10.28  3053/297          
177 180 3590 7.93  1269/160          
222 180 3320 6.31  2397/380          
255 150 3170 5.48  329/60          
311 150 2970 4.50  1081/240          
374 150 2790 3.74  2021/540          
KPC04..       n1=1400r/min       500Nm  
n2 M2max Fr2 i Proportion 80B5/B14 90B5/B14 100B5/B14 112B5/B14  
[r/min] [Nm] [N]
24 500 8000 58.09  639/11          
28 500 8000 50.02  2201/44          
32 500 8000 43.75  4331/99          
36 500 8000 38.73  426/11          
40 500 7950 34.62  4189/121          
49 500 7430 28.30  4047/143          
64 480 6810 21.78  1917/88          
81 480 6310 17.33  3621/209          
93 460 6020 15.06  497/33          
113 460 5640 12.37  1633/132          
136 440 5300 10.28  3053/297          
177 260 4860 7.93  1269/160          
222 260 4510 6.31  2397/380          
255 230 4300 5.48  329/60          
311 230 4030 4.50  1081/240          
374 200 3780 3.74 2021/540          

How to Choose a Helical Gearbox

Choosing the best helical gearbox is dependent on the type of application you want to use the gear for. You will need to consider the contact ratios and the total of profile shifts required.helical gearbox

Spur gears are more efficient than helical gears

Compared to helical gears, spur gears have straight teeth that are parallel to the axis of the gear. Because they are more efficient, spur gears are often used in low speed applications. However, helical gears are better for low-noise and high-speed applications. Despite their advantages, spur gears are also used in some devices.
Spur gears are not as resilient as other gears. They are less efficient at transmitting power over long distances, and they generate too much noise at high speeds. They also impose a radial load on bearings. They also produce significant vibration that can limit the maximum speed of operation.
Helical gears are better at transferring loads. They are used in a number of applications, including car transmissions, elevators, and conveyors. Helical gears also generate large amounts of thrust. They are also quieter than spur gears.
Unlike spur gears, helical gears use bearings to support their thrust load. They also have more teeth, so they can handle more load than spur gears. They can also be used in non-parallel shafts.
Helical gears are generally used in high-speed mechanical systems. They also have less wear on individual teeth and are quieter running than spur gears.
Helical gears are a refinement of spur gears. They are also used in the printing industry, elevators, and gearboxes for automobiles. They are often used in conjunction with a worm gear to distribute load. They have a higher speed capacity, but they are not as efficient as spur gears. They are used in some high-speed mechanical systems because they generate less noise and vibration.
Spur gears are commonly used in low-speed applications, like rack and pinion setups. Their design makes them more efficient at transmitting power, but they are less resilient than helical gears.
Design space is limited based on a required center distance, target gear ratio, and sum of profile shifts
Using statistically derived parameters, the authors performed a multi-objective optimization of the profile shift of two external cylindrical gears. The main objective of this study was to maximize efficiency and minimize the amount of power lost in the optimized space.
To do this, the authors used a multi-objective optimization algorithm that included all aspects of the optimal profile shift. The algorithm evaluates objective function over a series of generations to determine the best solution.
The multi-objective optimization algorithm was based on a verified optimization algorithm. This algorithm combines analytical pressure loads estimation with an effective method for calculating the deformations of the gear case. Using the aforementioned formulae, the authors were able to identify a feasible solution. The numerical calculations also showed that the corresponding specific sliding coefficients were perfectly balanced.
To identify the most efficient method for determining the profile shift, the authors selected the most efficient method based on the objectives of efficiency and mass. The efficiency objective was considered to be the largest given the small size of the resulting optimization space. This objective is useful in reducing wear failures.
helical gearbox
The largest thermal treatment of a cylindrical gear is case hardening. The ISO/TR 4467:1982 standard provides a practical guide for gears. The largest radii of the pinion and wheel are rb1 and rb2. The ratio of tooth width to base circle diameter of the pinion is normally set to less than 1.
Sliding velocity increases as the distance from the pitch point increases in the line of action
Deflections of the involute profile of a helical gear occur due to the load on the teeth. However, the optimum pressure angle for the gear is not known.
The correct pressure angle for a helical gear cannot be calculated without a surface model. Assuming the pressure is uniform over the profile, a pressure angle of 20deg would be a good bet. However, this would require a mathematical model that can be derived from the Archard wear equation.
In general, the pressure angle will be influenced by the diameter, as well as the gear mesh geometry. It is important to know the actual angle of a helical gear since this will affect the curvature of the profile, the normal force, and the radial force.
The best way to measure the pressure angle is to consider the theoretical pitch diameter. If the pitch diameter is small, then the actual angle will be smaller. This will cause a gap between the flanks. However, it can also cause the gear to deform, leading to unexpected working behavior.
One interesting tangent is the pitch plane, an imaginary plane tangent to the pitch surfaces. The pitch plane is the plane perpendicular to the axial plane of the gear cross section. It is usually used as a reference point to calculate the transverse pressure angle.
The working pressure angle is the angle of the pressure line of the gear mesh. This angle is the same as the reference pressure angle, but the length of the contact line is reduced.
The best way to calculate the working pressure angle is to use the pressure line of the gear mesh. This will give a more accurate value. The actual angle of the pressure line is also related to the transmission ratio. This ratio is usually given as the nominal ratio of angular velocities. The actual velocities will fluctuate about this ratio.

Undercut of a helical gear tooth root

Having an undercut at the pinion root can affect the distribution of load along the line of contact of helical gears. This can result in higher than nominal loads on some teeth and amplitude modulated noise.
The tooth root is affected by a number of factors, including the shape of the tooth cutting tool. The cutting tool must be designed to avoid an undercut without reducing the number of teeth. This is achieved by a process called profile shifting.
Profile shift occurs when the cutting tool changes depth, thereby preventing an undercut. It is often used in the manufacturing process to achieve a greater overlap ratio. The higher the overlap ratio, the less variation there is between the contact lines. This reduces the dynamic tooth loads and reduces noise.
The profile shift is most often associated with the cutting tool tip. This is the point where the involute profile exits the gear, before the tip begins to taper. The involute profile can be defined for every transverse section of the gear face width. The boundary point is a point of tangency between the involute and root profiles.
The involute of a circle is a common way to define a gear-tooth profile. The involute is the path traced by the point on the line when rolling on a circle. It is a useful feature for cylindrical involute gears.
The helix angle is also important to the helical gear. It allows for greater contact capacity and increases the bending capacity of the gear. It must be included in specifications for helical teeth. The angle must be measurable and include the (+-) sign.
The bending strength of a tooth depends on the shape of the root. A large undercut reduces the strength of the tooth.helical gearbox

Contact ratios

Whether a helical gearbox is dynamic or steady-state, the contact ratio is a key factor. The total contact ratio defines the average number of teeth in contact in the plane of action. It is calculated by multiplying the transverse contact ratio with the overlap ratio. The overlap ratio is always non-zero.
The total contact ratio must be 1.0 or greater for a constant speed rotation on the driven side. Gears with a low total contact ratio are known to slow down rotation of the driven gear. The total contact ratio is influenced by the length of the contact line. A high contact ratio is a good choice for dynamic loading.
A low contact ratio results in a greater amount of profile shift and a larger amount of noise. If the contact ratio is too high, it may cause excessive EAP sliding velocity and cause scuffing. In addition, an uneven load share results in amplitude modulated vibrations.
A helical gear is a pair of slim spur gears. The gears are layered in a plane that runs parallel to the face width of the gear teeth. Each gear tooth makes contact with the flank of the next gear tooth. The helical gear tooth flank is a 3-dimensional surface that is a tangent to the base circles of the gears.
The tooth shape of the helical gear tooth is also a key factor in the contact ratio. The tooth form is designed to be in relation to the work piece, tooling, dedendum coefficients, tooth forces, and tooth bending stiffness. A gear tooth form must also relate to tooth surface kinematics and microgeometry modifications.
The active profile is a region of the involute profile between the start and end points. A tooth profile that satisfies the basic law of gear-tooth action is often called a conjugate profile.
China RC Series Inline Gear Unit Helical Gearbox for Coupling Transmission     bevel helical gearboxChina RC Series Inline Gear Unit Helical Gearbox for Coupling Transmission     bevel helical gearbox
editor by czh 2023-01-06

China Precision Coupling Transmission Helical Gearbox with AC Motor inline helical gearbox design

Merchandise Description

Merchandise Description

KPC Sequence helical gearbox is a new era merchandise which designed basing on the modular method, It can be related respectively with motors such as IEC regular motor, brake motor, explosion-evidence motor, frequency motor, servo motor and so on. it has 4 types(),power from .12kw to 4.0kw, ratio from 3.sixty six to fifty eight.09, Max torque from 120Nm to 500Nm.It can be link discretionary(foot or flange) and use multi-mounting positions appropriately. This solution is commonly employed in textile, foodstuff, beverage,tobacco, logistics industrial fields,and many others.

        Item Attributes

  1. Modular building
  2. Substantial performance
  3. Specific grinding, reduced sounds
  4. Compact structural design and style
  5. Univeral mounting
  6. Aluminium housing, mild in bodyweight
  7. Carbonize and grinding hardened gears, sturdy
  8. Multi-construction, can be mixed in distinct forms to fulfill numerous transmission condition

       Set up:
      1.Foot mounted
      2.Output Flange mounted
      3.B14 Flange mounted

      Designs:
      1.KPC..P(Foot-mounted): KPC01P,KPC02P,KPC03P,KPC04P
      2.KPCF..P(Output Flange-mounted): KPCF01P,KPCF02P,KPCF03P,KPCF04P
      3.KPCZ..P(B14 Flange-mounted): KPCZ01P,KPCZ02P,KPCZ03P,KPCZ04P

In depth Photos

Item Parameters

GEARBOX Picking TABLES  
KPC01..       n1=1400r/min       120Nm  
n2 M2max Fr2 i Proportion 63B5 71B5/B14 80B5/B14 90B5/B14  
[r/min] [Nm] [N]  
26 120 2600 fifty three.33  160/3          
31 one hundred twenty 2600 45.89  413/nine          
35 a hundred and twenty 2600 40.10  3248/eighty one          
39 120 2560 35.47  532/fifteen          
49 120 2380 28.50  770/27          
59 a hundred and twenty 2230 23.56  212/9          
seventy one one hundred twenty 2100 19.83  119/six          
seventy eight 90 2030 17.86  1357/seventy six          
ninety six 120 1900 fourteen.62  658/forty five          
one zero one ninety 1860 13.80* sixty nine/five          
118 one hundred twenty 1770 11.90  2464/207          
143 120 1660 9.81  1148/117          
153 eighty 1630 nine.17  1219/133          
181 eighty 1540 seven.72  1173/152          
246 70 1390 five.69  1081/190          
302 70 1290 four.63  88/19          
366 70 1210 three.82  943/247          
KPC02..       n1=1400r/min       200Nm  
n2 M2max Fr2 i Proportion 63B5 71B5/B14 80B5/B14 90B5/B14  
[r/min] [Nm] [N]  
26 200 4500 54.00* fifty four/1          
30 two hundred 4500 forty six.46* 3717/80          
34 200 4500 40.60* 203/five          
39 200 4270 35.ninety one* 3591/100          
48 two hundred 3970 28.88* 231/8          
59 200 3730 23.eighty five* 477/20          
70 two hundred 3520 twenty.08* 3213/a hundred and sixty          
82 one hundred forty 3330 seventeen.10  3009/176          
95 two hundred 3180 fourteen.eighty one* 2961/two hundred          
106 one hundred forty 3060 thirteen.21  2907/220          
116 200 2970 12.05  1386/one hundred fifteen          
141 200 2780 nine.93  2583/260          
159 a hundred and twenty 2670 8.78  2703/308          
189 one hundred twenty 2520 seven.39  2601/352          
257 a hundred 2280 five.45  2397/440          
316 one hundred 2120 four.43  102/23          
383 80 1990 3.66  2091/572          
KPC03..       n1=1400r/min         300Nm
n2 M2max Fr2 i Proportion 71B5/B14 80B5/B14 90B5/B14 100B5/B14 112B5/B14
[r/min] [Nm] [N]
24 three hundred 6000 fifty eight.09  639/eleven          
28 three hundred 6000 50.02  2201/forty four          
32 300 6000 43.75  4331/ninety nine          
36 300 6000 38.73  426/11          
forty 300 5860 34.62  4189/121          
forty nine 300 5480 28.30  4047/143          
64 280 5571 21.78  1917/88          
eighty one 280 4660 seventeen.33  3621/209          
ninety three 260 4440 15.06  497/33          
113 260 4160 12.37  1633/132          
136 240 3910 ten.28  3053/297          
177 a hundred and eighty 3590 7.93  1269/160          
222 one hundred eighty 3320 6.31  2397/380          
255 one hundred fifty 3170 5.48  329/60          
311 one hundred fifty 2970 four.50  1081/240          
374 150 2790 3.74  2571/540          
KPC04..       n1=1400r/min       500Nm  
n2 M2max Fr2 i Proportion 80B5/B14 90B5/B14 100B5/B14 112B5/B14  
[r/min] [Nm] [N]
24 five hundred 8000 58.09  639/eleven          
28 500 8000 50.02  2201/forty four          
32 five hundred 8000 forty three.75  4331/99          
36 five hundred 8000 38.73  426/eleven          
40 500 7950 34.62  4189/121          
forty nine 500 7430 28.30  4047/143          
sixty four 480 6810 21.78  1917/88          
81 480 6310 17.33  3621/209          
ninety three 460 6571 fifteen.06  497/33          
113 460 5640 12.37  1633/132          
136 440 5300 ten.28  3053/297          
177 260 4860 seven.93  1269/160          
222 260 4510 6.31  2397/380          
255 230 4300 five.48  329/60          
311 230 4030 four.50  1081/240          
374 200 3780 3.seventy four 2571/540          

Outline Dimension:

Business Profile

About our company:
We are a professional reducer producer situated in HangZhou, ZHangZhoug province.Our foremost goods is  full variety of RV571-150 worm reducers , also provided hypoid helical gearbox, Pc models, UDL Variators and AC Motors.Items are widely used for programs this kind of as: foodstuffs, ceramics, packing, chemical compounds, pharmacy, plastics, paper-creating, construction equipment, metallurgic mine, environmental defense engineering, and all types of automatic traces, and assembly traces.With quick shipping and delivery, outstanding after-income provider, advanced generating facility, our products offer well  both at house and abroad. We have exported our reducers to Southeast Asia, Japanese Europe and Middle East and so on.Our purpose is to build and innovate on foundation of large quality, and create a good status for reducers.

Packing data:Plastic Luggage+Cartons+Wooden Cases , or on ask for
We participate Germany Hannver Exhibition-ZheJiang PTC Reasonable-Turkey Earn Eurasia

Logistics

We can dispatch goods by sea, by train, by air in accordance to client instruction

Following Revenue Services

one.Maintenance Time and Warranty:Inside 1 calendar year right after acquiring merchandise.
two.Other SupportLike modeling selection manual, set up information, and problem resolution guidebook, etc.

FAQ

one.Q:Can you make as for every client drawing?
A: Indeed, we supply customized provider for customers appropriately. We can use customer’s nameplate for gearboxes.

2.Q:What is your conditions of payment ?
   A: 30% deposit prior to manufacturing,equilibrium T/T before shipping and delivery.

three.Q:Are you a trading organization or company?
   A:We are a manufacurer with superior gear and experienced workers.

4.Q:What’s your generation ability?
   A:8000-9000 PCS/Month

five.Q:Free sample is available or not?
   A:Sure, we can supply totally free sample if consumer agree to pay out for the courier cost

six.Q:Do you have any certification?
   A:Sure, we have CE certificate and SGS certificate report.

Speak to data:
Ms Lingel Pan
For any questions just really feel cost-free ton get in touch with me. A lot of thanks for your sort interest to our company!

US $45-80
/ Piece
|
1 Piece

(Min. Order)

###

Application: Motor, Machinery, Marine, Agricultural Machinery, Industry
Function: Distribution Power, Change Drive Torque, Change Drive Direction, Speed Changing, Speed Reduction
Layout: Coaxial
Hardness: Hardened Tooth Surface
Installation: Horizontal Type
Step: Double-Step

###

Samples:
US$ 45/Piece
1 Piece(Min.Order)

|
Request Sample

###

Customization:

###

GEARBOX SELECTING TABLES  
KPC01..       n1=1400r/min       120Nm  
n2 M2max Fr2 i Proportion 63B5 71B5/B14 80B5/B14 90B5/B14  
[r/min] [Nm] [N]  
26 120 2600 53.33  160/3          
31 120 2600 45.89  413/9          
35 120 2600 40.10  3248/81          
39 120 2560 35.47  532/15          
49 120 2380 28.50  770/27          
59 120 2230 23.56  212/9          
71 120 2100 19.83  119/6          
78 90 2030 17.86  1357/76          
96 120 1900 14.62  658/45          
101 90 1860 13.80* 69/5          
118 120 1770 11.90  2464/207          
143 120 1660 9.81  1148/117          
153 80 1630 9.17  1219/133          
181 80 1540 7.72  1173/152          
246 70 1390 5.69  1081/190          
302 70 1290 4.63  88/19          
366 70 1210 3.82  943/247          
KPC02..       n1=1400r/min       200Nm  
n2 M2max Fr2 i Proportion 63B5 71B5/B14 80B5/B14 90B5/B14  
[r/min] [Nm] [N]  
26 200 4500 54.00* 54/1          
30 200 4500 46.46* 3717/80          
34 200 4500 40.60* 203/5          
39 200 4270 35.91* 3591/100          
48 200 3970 28.88* 231/8          
59 200 3730 23.85* 477/20          
70 200 3520 20.08* 3213/160          
82 140 3330 17.10  3009/176          
95 200 3180 14.81* 2961/200          
106 140 3060 13.21  2907/220          
116 200 2970 12.05  1386/115          
141 200 2780 9.93  2583/260          
159 120 2670 8.78  2703/308          
189 120 2520 7.39  2601/352          
257 100 2280 5.45  2397/440          
316 100 2120 4.43  102/23          
383 80 1990 3.66  2091/572          
KPC03..       n1=1400r/min         300Nm
n2 M2max Fr2 i Proportion 71B5/B14 80B5/B14 90B5/B14 100B5/B14 112B5/B14
[r/min] [Nm] [N]
24 300 6000 58.09  639/11          
28 300 6000 50.02  2201/44          
32 300 6000 43.75  4331/99          
36 300 6000 38.73  426/11          
40 300 5860 34.62  4189/121          
49 300 5480 28.30  4047/143          
64 280 5020 21.78  1917/88          
81 280 4660 17.33  3621/209          
93 260 4440 15.06  497/33          
113 260 4160 12.37  1633/132          
136 240 3910 10.28  3053/297          
177 180 3590 7.93  1269/160          
222 180 3320 6.31  2397/380          
255 150 3170 5.48  329/60          
311 150 2970 4.50  1081/240          
374 150 2790 3.74  2021/540          
KPC04..       n1=1400r/min       500Nm  
n2 M2max Fr2 i Proportion 80B5/B14 90B5/B14 100B5/B14 112B5/B14  
[r/min] [Nm] [N]
24 500 8000 58.09  639/11          
28 500 8000 50.02  2201/44          
32 500 8000 43.75  4331/99          
36 500 8000 38.73  426/11          
40 500 7950 34.62  4189/121          
49 500 7430 28.30  4047/143          
64 480 6810 21.78  1917/88          
81 480 6310 17.33  3621/209          
93 460 6020 15.06  497/33          
113 460 5640 12.37  1633/132          
136 440 5300 10.28  3053/297          
177 260 4860 7.93  1269/160          
222 260 4510 6.31  2397/380          
255 230 4300 5.48  329/60          
311 230 4030 4.50  1081/240          
374 200 3780 3.74 2021/540          
US $45-80
/ Piece
|
1 Piece

(Min. Order)

###

Application: Motor, Machinery, Marine, Agricultural Machinery, Industry
Function: Distribution Power, Change Drive Torque, Change Drive Direction, Speed Changing, Speed Reduction
Layout: Coaxial
Hardness: Hardened Tooth Surface
Installation: Horizontal Type
Step: Double-Step

###

Samples:
US$ 45/Piece
1 Piece(Min.Order)

|
Request Sample

###

Customization:

###

GEARBOX SELECTING TABLES  
KPC01..       n1=1400r/min       120Nm  
n2 M2max Fr2 i Proportion 63B5 71B5/B14 80B5/B14 90B5/B14  
[r/min] [Nm] [N]  
26 120 2600 53.33  160/3          
31 120 2600 45.89  413/9          
35 120 2600 40.10  3248/81          
39 120 2560 35.47  532/15          
49 120 2380 28.50  770/27          
59 120 2230 23.56  212/9          
71 120 2100 19.83  119/6          
78 90 2030 17.86  1357/76          
96 120 1900 14.62  658/45          
101 90 1860 13.80* 69/5          
118 120 1770 11.90  2464/207          
143 120 1660 9.81  1148/117          
153 80 1630 9.17  1219/133          
181 80 1540 7.72  1173/152          
246 70 1390 5.69  1081/190          
302 70 1290 4.63  88/19          
366 70 1210 3.82  943/247          
KPC02..       n1=1400r/min       200Nm  
n2 M2max Fr2 i Proportion 63B5 71B5/B14 80B5/B14 90B5/B14  
[r/min] [Nm] [N]  
26 200 4500 54.00* 54/1          
30 200 4500 46.46* 3717/80          
34 200 4500 40.60* 203/5          
39 200 4270 35.91* 3591/100          
48 200 3970 28.88* 231/8          
59 200 3730 23.85* 477/20          
70 200 3520 20.08* 3213/160          
82 140 3330 17.10  3009/176          
95 200 3180 14.81* 2961/200          
106 140 3060 13.21  2907/220          
116 200 2970 12.05  1386/115          
141 200 2780 9.93  2583/260          
159 120 2670 8.78  2703/308          
189 120 2520 7.39  2601/352          
257 100 2280 5.45  2397/440          
316 100 2120 4.43  102/23          
383 80 1990 3.66  2091/572          
KPC03..       n1=1400r/min         300Nm
n2 M2max Fr2 i Proportion 71B5/B14 80B5/B14 90B5/B14 100B5/B14 112B5/B14
[r/min] [Nm] [N]
24 300 6000 58.09  639/11          
28 300 6000 50.02  2201/44          
32 300 6000 43.75  4331/99          
36 300 6000 38.73  426/11          
40 300 5860 34.62  4189/121          
49 300 5480 28.30  4047/143          
64 280 5020 21.78  1917/88          
81 280 4660 17.33  3621/209          
93 260 4440 15.06  497/33          
113 260 4160 12.37  1633/132          
136 240 3910 10.28  3053/297          
177 180 3590 7.93  1269/160          
222 180 3320 6.31  2397/380          
255 150 3170 5.48  329/60          
311 150 2970 4.50  1081/240          
374 150 2790 3.74  2021/540          
KPC04..       n1=1400r/min       500Nm  
n2 M2max Fr2 i Proportion 80B5/B14 90B5/B14 100B5/B14 112B5/B14  
[r/min] [Nm] [N]
24 500 8000 58.09  639/11          
28 500 8000 50.02  2201/44          
32 500 8000 43.75  4331/99          
36 500 8000 38.73  426/11          
40 500 7950 34.62  4189/121          
49 500 7430 28.30  4047/143          
64 480 6810 21.78  1917/88          
81 480 6310 17.33  3621/209          
93 460 6020 15.06  497/33          
113 460 5640 12.37  1633/132          
136 440 5300 10.28  3053/297          
177 260 4860 7.93  1269/160          
222 260 4510 6.31  2397/380          
255 230 4300 5.48  329/60          
311 230 4030 4.50  1081/240          
374 200 3780 3.74 2021/540          

How to Design a Helical Gearbox

Basically, a gear is a rotating circular machine part that has teeth cut into it to transmit torque or speed. Gears operate on a similar principle to levers. However, gears are usually asymmetrical in nature, and they have meshing teeth that work together to transmit torque or speed.helical gearbox

Helix angle

Whether you’re looking for a right angle gearbox or a helical gearbox, the angle of the teeth is an important consideration. It affects contact ratios, radial force and the torque capacity of the gear.
A helical gearbox uses the same basic elements as a spur gear, except it has teeth that are closer together. It is also more suited for high-load applications. It is also quieter than conventional gears. The main differences between a helical gearbox and a spur gear are its pitch and the helix angle.
The pitch of a helical gear is measured in the plane perpendicular to the direction of the teeth. It may also be called circular pitch. The pitch of a helical gear may be greater or less than circular pitch.
The normal pitch of a helical gear is also measured in the plane perpendicular to its direction of rotation. It is often called the reference value.
Unlike the spur gear, a helical gear does not have a unique optimum pressure angle. A helical gear’s contact ratio will decrease as the pressure angle increases. This is due to the fact that the length of the contact line decreases.
The pitch of a helical planetary gearbox can be calculated by dividing the total helix angle of the pinion and gear by the sum of their normal pressure angles. The helix angle is usually between 15 and 30 degrees.

Center distance

During the design of a helical gearbox, the center distance between the gears is a crucial input parameter. The center distance should be accurately calculated and modified based on the actual usage conditions. Undersized center distances cause a gear to mesh at a point other than the pitch point, which can lead to increased noise, premature wear and amplitude modulated vibrations.
The best way to calculate a helical gear’s center distance is to calculate the helix angle. This is often referred to as the fundamental rule of gearing. The helix angle is a mathematical expression that defines the relationship between the transverse and normal planes of the gear tooth. The pitch circle diameter increases with helix angle.
The number of teeth in a gear is also a relevant input parameter. There are a number of considerations to consider for determining the helix angle, such as the tooth depth, the pitch diameter, the number of teeth, and the radii of the index circle. The tooth depth is a useful way to calculate bottom clearance.
During the design of a helical mesh, the radial and axial thrust forces are produced. The angular backlash of a gear may vary depending on the type of gear, the pitch diameter and the transmission ratio. The total length of contact lines varies more gradually with the helix angle.
The number of cross sections in a helical mesh is also important. The radial module form is more economic to manufacture. The helical gearbox can be produced by using the same tooth cutting tools as spur gears.

Backlash

Having a smooth rotation of meshing gears is important. However, backlash is an issue that needs to be addressed. There are several ways of controlling backlash. The amount of backlash required depends on the application, size, and accuracy of the gears.
There are two basic ways of reducing backlash. The first is to decrease the distance between the gear centers. The second is to use spring loaded gears. The latter works better in low torque unidirectional drives.
The difference between the distances is called the transverse contact ratio. The longer the distance, the more rotational motion is required. The angular backlash is the opposite of the radial backlash.
The backlash may also be measured in terms of the angular distance between two gears. This measurement can be converted into an angular value at the operating pitch circle. A worm gear is another example.
Using the correct backlash calculator can determine the correct amount of backlash for your helical gearbox. The amount of backlash depends on the accuracy of the individual gears and the type of gearbox.
The gearbox also has components like pulleys, bearings, and wheels. There are several ways of reducing backlash, including the use of bolts and shims to decrease the center distance between gears. In heavy duty applications, a rigid bolted assembly is common.
To calculate the backlash of a geartrain, one must know the gear ratio of each gear in the train and how much it is mated to the reference shaft. This information is especially helpful for cumulative backlash.helical gearbox

Durability

Optimal design, materials, manufacturing, and maintenance procedures affect the lifecycle of a gear. This includes production, repair and replacement costs. The optimum maintenance schedule must also account for lifecycle costs.
The life of a gear can be extended by proper tooth tip relief. This will reduce wear, improve meshing, and increase the longevity of your gear.
The helical gearbox is a specialized type of gearbox, which transforms power from one right angle axis to another. Typical applications include automotive transmissions. It is a popular choice in applications with high speed, high load, or non-parallel shafts. It is quieter and smoother than spur gears. The modular production method used in helical gearboxes provides the best possible standard for component integrity and performance.
One of the most important components of a helical gearbox is the thrust bearings. These support the thrust forces created by the gears and can absorb some of them. A helical gearbox is best suited for high load applications that require a smooth gearing motion.
A good helical gearbox is one that is manufactured with bearings that can handle axial loading. A helical gearbox with a central gulley is often needed for tool clearance. The helix angle also has a bearing on its durability.
The helix angle is also the source of the largest thrust force produced by a helical gear. This large thrust force is produced by a series of special angle cut teeth. This may be one of the reasons why helical gears have been used in high speed applications.

Noise

Generally speaking, helical gears are considered to be a relative quieter gear than spur gears. It is estimated that a helical gear set with axial contact ratio of 2 is about 19 dB quieter than a spur gear set with the same contact ratio.
The term “whine” is often used to describe the tonal character of gear noise. This is a function of the dynamic forces that act on the gear mesh. The dynamic forces are related to rotational speed.
There are two main types of gear noise: the gear-specific noise and peripheral component noise. Both of these types can be caused by high-speed gears transmitting the power of an engine.
The gear-specific noise may be related to the number of teeth in contact. A low contact ratio can slow down the rotational speed of the driven gear. However, a high contact ratio will not reduce the transmission error. This is why it is important to prioritize your design intent before attempting any noise reduction measures.
The tonal character of gear noise can be determined by collecting and analyzing data over a period of time. This may include a series of tests at loads within the desired load range. This measurement can serve as a starting point for a gearbox’s root cause analysis.
The gear-specific noise has a number of mechanisms. These include the aforementioned transmission error signal and the gear-specific whine.helical gearbox

Applications

Various industries like plastics, printing, cement and other heavy industrial settings use helical gearboxes. Their advantages include low power consumption, quieter operation and high load application. However, there are some limitations. For example, heat generated by sliding contact is a hindrance to efficiency. It should also be noted that gear weight affects the performance of the gear.
There are two ways to mesh helical gears. The first method is to place the shafts oriented at a certain angle of helix, in a mesh. The second method is to place the shafts oriented in a different angle of helix. The difference in angle is referred to as the helix angle.
The helical gearbox is the most widely used gearbox. It is compact in size and works at a high efficiency. It is useful for driving conveyors, coolers and machines. It is also used in automation control systems.
Helical gears are often chosen over spur gears for non-parallel shafts. They are also used in gearboxes for automotive applications and in elevators. They also reduce vibrations.
The gears are made of special teeth that are angled to an axis. They are also cut at an angle. This allows for perpendicular meshing. They can be divided into two basic categories: crossed axis gears and single helical gears. Single helical gears can be right-handed or left-handed. Crossed axis gears are usually used to connect parallel shafts.
China Precision Coupling Transmission Helical Gearbox with AC Motor     inline helical gearbox designChina Precision Coupling Transmission Helical Gearbox with AC Motor     inline helical gearbox design
editor by czh 2023-01-02

Steel Cost made in China – replacement parts – in Barquisimeto Venezuela Heavy Duty Quick Perrot Coupling with top quality

Steel  Cost  made in China - replacement parts -  in Barquisimeto Venezuela   Heavy Duty Quick Perrot Coupling with top quality

We – EPG Group the bigge EPT gearbox & motors , vee pulleys, timing pulleys, couplings and gears manufacturing facility in China with 5 various branches. For much more particulars: Cell/whatsapp/telegram/Kakao us at: 0086~13083988828 13858117778 0571 88828

Steel Large Duty Quick Perrot Coupling

Depth Description&colon
1&period of time Bauer Coupling
2&interval Numerous sizes offered
3&interval Substance&colon Metal
four&period of time Offered thread&colon NPT&sol BSP
five&time period Application&colon Use with h2o&comma ethylene glycol&comma hydraulic oil&comma petroleum oil&comma gasoline&comma and diesel gas
6&period Characteristics&colon Good abrasion resistance&period Reasonable corrosion and chemical resistance&period of time
Lightweight and affordable

Specs&colon
one&period of time Higher quality&comma aggressive prices&time period
2&interval Standard dimensions or EPT provide&time period
three&time period Dimension&colon 2″&comma 3″&comma 3-1&sol2″&comma 4″&comma 6″&comma 8″

Bauer&comma or Perrot and Miller couplings are heavy duty swift couplings employed in agricultural&comma irrigation&comma cleaning and development purposes&period They are mo EPT commonly employed with techniques carrying h2o&comma mortar&comma biHangZhou&comma bulk items&comma and so on&period
Bauer couplings consi EPT of a male and a feminine section&time period The feminine section incorporates a thick O-ring seal and a lever-operated 2-claw latch&time period

Dimensions Part Number
2′ ‘ CAP 200
3′ ‘ CAP three hundred
3-1&sol2′ ‘ CAP 350
4′ ‘ CAP four hundred
6′ ‘ CAP 600
&astMale part&comma Feminine Element and Rubber O-ring are seperated product sales&period of time

We – EPG Team the bigge EPT gearbox & motors , vee pulleys, timing pulleys, couplings and gears manufacturing unit in China with 5 distinct branches. For much more details: Mobile/whatsapp/telegram/Kakao us at: 0086~13083988828 13858117778 0571 88828 The use of original products manufacturer’s (OEM) part figures or trademarks , e.g. CASE® and John Deere® are for reference functions only and for indicating merchandise use and compatibility. Our business and the outlined alternative parts contained herein are not sponsored, authorized, or manufactured by the OEM.

Steel  Cost  made in China - replacement parts -  in Barquisimeto Venezuela   Heavy Duty Quick Perrot Coupling with top quality

Steel  Cost  made in China - replacement parts -  in Barquisimeto Venezuela   Heavy Duty Quick Perrot Coupling with top quality

Steel  Cost  made in China - replacement parts -  in Barquisimeto Venezuela   Heavy Duty Quick Perrot Coupling with top quality

Coupling factory made in China – replacement parts – in La Paz Bolivia 250 as for EEPT avator with top quality

Coupling  factory  made in China - replacement parts -  in La Paz Bolivia   250 as for EEPT avator with top quality

We – EPG Group the bigge EPT gearbox & motors , vee pulleys, timing pulleys, couplings and gears manufacturing unit in China with 5 various branches. For much more particulars: Cell/whatsapp/telegram/Kakao us at: 0086~13083988828 13858117778 0571 88828

Description :

Name   : Coupling                 Material     :   Rubber & steel
Use for : Excavator          EPT area :   China (Mainland)
Model :       YNF                     Design :     250AS
Packaging & Shipping and delivery
 

Packaging Information:  Paper box packing per piece and 40pcs into 1 carton
Shipping Element:  Within 2 working days after payment

 

 
A. EPT Breaker Seals, Seal Kits and Hyd. Hammer Elements Suitable for Furukawa, Soosan, Krupp, Atlas Copco, Daemo, NPK, JCB, Komatsu, Toku, Montabert, Okada, Hanwoo, Doosan, Good, MSB, Komac, Rammer, Rhino, Toyo, and many others.
 

B. EPT Sea EPT & Seal Kits & Spare Areas for Excavator Hyd. Cylinder, EPT Pump, Swing Motor, Travel Motor, Principal Control Valve MCV, Diesel Motor, Appropriate for Komatsu, Hitachi, Caterpillar, Volvo, Hyundai, Kobelco, Sumitomo, Kato, Doosan, JCB, and many others.

 

Coupling li EPT :
 

Coupling Type Components Identify Standard Model 
8A Coupling SK04V2 PC20
16A Coupling PC60 PC40 EX50
16AS Coupling PC40-5 EX55
30A Coupling SK100-5/MS070/70B E307
30AS Coupling EX60 Hd250 SK60-6 SK07
30H Coupling MS110 DH55
40H Coupling EX200-two
50A Coupling E312 E120B HD450 E3118B
50AS Coupling MS120 MS110 MS140 HD512
  Coupling SH120 LS120 HD450 E120 SH100
50AC  Coupling E200B SH200
50AM Coupling MS180-8/E320/E240
50H Coupling EX200-1 EX200-3/five
  Coupling HD700 PC200-1 HD800
  Coupling PC200-3/5 HD900 E320
  Coupling SK200 SK901D SK220
  Coupling R210 LS160 LS70
  Coupling E320B SK200-6/3 E320C
  Coupling DH220-5 R220-5 R225
110H Coupling EX220 EX300-1/2/3 SK230
  Coupling SK220-3 ZAX330 EX350-5
  Coupling EX330 E325 LS430 EX300
140H Coupling 280 HD1430/PC300-1 HD1250
  Coupling R300 HD300 E330/SK912
  Coupling SK820 HD1880 DH320-two
160H Coupling LS380 R290 R300-5 SH300A2
28AS Coupling EX120
28A Coupling EX120-5 EX100
45H Coupling ZAX200
25H Coupling R60-7 ZAX55
50AMS Coupling SH280

.
Technological Information :
 

COUPLING “H” SERI EPT Technological Data
                           SIZE  30H 40H 50H 110H 140H 160H
TECHNICAL Data
DESCRIPTION Image Unit 500 600 800 1200 1600 2000
Nominal Torque Tkn Nm
Greatest Torque Tkmax Nm 1400 1600 2000 2500 4000 4000
Maximum Rotational pace Nmax Min-1 4000 4000 4000 4000 3600 3600
COUPLING “A” SERI EPT Specialized Information
SIZE 4A/4AS 8A/8AS 16A/16AS 25A/25AS 30A/30AS 50A/50AS 140A/140AS
TECHNICAL Knowledge
DESCRIPTION Symbol Unit 50 100 200 315 500 700 1700
Nominal Torque Tkn Nm
Highest Torque Tkmax Nm one hundred twenty five 280 560 875 1400 2100 8750
Maximum Rotational velocity Nmax Min-1 7000 6500 6000 5000 4000 4000 3600

We – EPG Team the bigge EPT gearbox & motors , vee pulleys, timing pulleys, couplings and gears manufacturing unit in China with 5 distinct branches. For far more information: Cellular/whatsapp/telegram/Kakao us at: 0086~13083988828 13858117778 0571 88828 The use of first tools manufacturer’s (OEM) portion quantities or trademarks , e.g. CASE® and John Deere® are for reference functions only and for indicating merchandise use and compatibility. Our business and the detailed substitution elements contained herein are not sponsored, accredited, or made by the OEM.

Coupling  factory  made in China - replacement parts -  in La Paz Bolivia   250 as for EEPT avator with top quality

Coupling  factory  made in China - replacement parts -  in La Paz Bolivia   250 as for EEPT avator with top quality

Coupling  factory  made in China - replacement parts -  in La Paz Bolivia   250 as for EEPT avator with top quality