China SWC Cardan Shaft/Shaft/Drive Shaft From High Quality Factory Supplier drive shaft components

Product Description

HangZhou  Xihu (West Lake) Dis. common shafts Co.,LTD  is a foremost  professional producer of cardan shafts in China. It is situated in HangZhou ,ZheJiang Province. Our firm has centered on the investigation and improvement , design and style and manufacture with distinct varieties of cardan shafts for practically fifteen years.

Our producted cardan shafts are broadly employed in domestic massive metal enterprises, such as ZheJiang Baosteel, HangZhou Iron and Steel Company, HangZhou Metal Corp and other domestic huge-scale iron and metal enterprises.Now a lot more merchandise are exported to Europe, North America and Southeast Asia and other areas.

Our cardan shafts can be utilized to resist vibration and influence in the severe setting of steel rolling, and the provider lifestyle of cardan shafts is lengthier. We can also personalize the particular connection modes of cardan shafts in accordance of customers’ demands .Substantial precision, adaptable joints, straightforward set up, ideal right after-revenue services and so on are highlight functions of our items.  

SWC-I Sequence-Light-Duty Types Cardan shaft
Types

Data and Dimension of SWC-I Series Universal Joint Couplings
 

Type Desian
Information
Product
SWC-I
   58 
SWC-I
   65
SWC-I
   75
SWC-I
  90
SWC-I
  100
SWC-I
a hundred and twenty
SWC-I
a hundred and fifty
SWC-I
one hundred eighty
SWC-I
two hundred
SWC-I
225
A L 255 285 335 385 445 500 590 640 775 860
Lv 35 40 forty 45 55 eighty 80 80 one hundred 120
m(kg) two.two 3. 5. 6.6 nine.five seventeen 32 40 seventy six 128
B L a hundred and fifty one hundred seventy five 200 240 260 295 370 430 530 600
m(kg) one.seven 2.four three.8 5.seven seven.7 thirteen.1 23 28 fifty five 98
C L 128 156 one hundred eighty 208 220 252 340 348 440 480
m(kg) 1.three 1.95 three.1 five. seven. 12.three 22 30 fifty six 96
  Tn(N·m) 150 two hundred four hundred 750 1250 2500 4500 8400 16000 22000
  Tf(N·m) seventy five 100 two hundred 375 630 1250 2250 4200 8000 11000
  β(°) 35 35 35 35 35 35 35 25 twenty five 25
  D 52 63 72 92 one hundred 112 142 154 187 204
  Df fifty eight 65 75 ninety a hundred one hundred twenty a hundred and fifty one hundred eighty 200 225
  D1 47 fifty two sixty two seventy four.5 eighty four 101.5 one hundred thirty one hundred fifty five.five 170 196
  D2(H9) 30 35 forty two forty seven 57 seventy five ninety a hundred and ten one hundred twenty five one hundred forty
  D3 38 38 4 fifty 60 70 89 102 114 one hundred forty
  Lm 32 39 45 52 fifty five sixty three 85 87 110 one hundred twenty
  k 3.5 four.five 5.5 6. 8. eight. ten. twelve. 14. 15.
  t one.5 1.7 two. 2.five two.five two.5 three. 4. four. five.
  n 4 4 six 4 six eight eight 8 eight 8
  d 5.1 six.five six.five 8.five eight.5 10.5 thirteen fifteen 17 seventeen
  MI(kg) .14 .16 .38 .38 .53 .53 .87 .87 one.65 2.fourteen
Flange bolt size M5 M6 M6 M8 M8 M10 M12 M14 M16 M16
Tightening torque(N·m) 7 13 thirteen 32 32 64 a hundred and ten a hundred and eighty 270 270

one. Notations: 
L=Standard length, or compressed length for designs with length compensation 
LV=Length compensation 
M=Weight 
Tn=Nominal torque(Yield torque 50% over Tn) 
TF=Fatigue torque, I. E. Permissible torque as determined according to the fatigue strength
Under reversing loads 
β=Maximum deflection angle 
MI=weight per 100mm tube
2. Millimeters are used as measurement units except where noted 
3. Please consult us for customizations regarding length, length compensation and
Flange connections. 

Material: Alloy Steel
Load: Drive Shaft
Stiffness & Flexibility: Stiffness / Rigid Axle
Journal Diameter Dimensional Accuracy: IT6-IT9
Axis Shape: Straight Shaft
Shaft Shape: Hollow Axis

###

Customization:

###

Type Desian
Data
Item
SWC-I
   58 
SWC-I
   65
SWC-I
   75
SWC-I
  90
SWC-I
  100
SWC-I
120
SWC-I
150
SWC-I
180
SWC-I
200
SWC-I
225
A L 255 285 335 385 445 500 590 640 775 860
Lv 35 40 40 45 55 80 80 80 100 120
m(kg) 2.2 3.0 5.0 6.6 9.5 17 32 40 76 128
B L 150 175 200 240 260 295 370 430 530 600
m(kg) 1.7 2.4 3.8 5.7 7.7 13.1 23 28 55 98
C L 128 156 180 208 220 252 340 348 440 480
m(kg) 1.3 1.95 3.1 5.0 7.0 12.3 22 30 56 96
  Tn(N·m) 150 200 400 750 1250 2500 4500 8400 16000 22000
  Tf(N·m) 75 100 200 375 630 1250 2250 4200 8000 11000
  β(°) 35 35 35 35 35 35 35 25 25 25
  D 52 63 72 92 100 112 142 154 187 204
  Df 58 65 75 90 100 120 150 180 200 225
  D1 47 52 62 74.5 84 101.5 130 155.5 170 196
  D2(H9) 30 35 42 47 57 75 90 110 125 140
  D3 38 38 4 50 60 70 89 102 114 140
  Lm 32 39 45 52 55 63 85 87 110 120
  k 3.5 4.5 5.5 6.0 8.0 8.0 10.0 12.0 14.0 15.0
  t 1.5 1.7 2.0 2.5 2.5 2.5 3.0 4.0 4.0 5.0
  n 4 4 6 4 6 8 8 8 8 8
  d 5.1 6.5 6.5 8.5 8.5 10.5 13 15 17 17
  MI(kg) 0.14 0.16 0.38 0.38 0.53 0.53 0.87 0.87 1.65 2.14
Flange bolt size M5 M6 M6 M8 M8 M10 M12 M14 M16 M16
Tightening torque(N·m) 7 13 13 32 32 64 110 180 270 270
Material: Alloy Steel
Load: Drive Shaft
Stiffness & Flexibility: Stiffness / Rigid Axle
Journal Diameter Dimensional Accuracy: IT6-IT9
Axis Shape: Straight Shaft
Shaft Shape: Hollow Axis

###

Customization:

###

Type Desian
Data
Item
SWC-I
   58 
SWC-I
   65
SWC-I
   75
SWC-I
  90
SWC-I
  100
SWC-I
120
SWC-I
150
SWC-I
180
SWC-I
200
SWC-I
225
A L 255 285 335 385 445 500 590 640 775 860
Lv 35 40 40 45 55 80 80 80 100 120
m(kg) 2.2 3.0 5.0 6.6 9.5 17 32 40 76 128
B L 150 175 200 240 260 295 370 430 530 600
m(kg) 1.7 2.4 3.8 5.7 7.7 13.1 23 28 55 98
C L 128 156 180 208 220 252 340 348 440 480
m(kg) 1.3 1.95 3.1 5.0 7.0 12.3 22 30 56 96
  Tn(N·m) 150 200 400 750 1250 2500 4500 8400 16000 22000
  Tf(N·m) 75 100 200 375 630 1250 2250 4200 8000 11000
  β(°) 35 35 35 35 35 35 35 25 25 25
  D 52 63 72 92 100 112 142 154 187 204
  Df 58 65 75 90 100 120 150 180 200 225
  D1 47 52 62 74.5 84 101.5 130 155.5 170 196
  D2(H9) 30 35 42 47 57 75 90 110 125 140
  D3 38 38 4 50 60 70 89 102 114 140
  Lm 32 39 45 52 55 63 85 87 110 120
  k 3.5 4.5 5.5 6.0 8.0 8.0 10.0 12.0 14.0 15.0
  t 1.5 1.7 2.0 2.5 2.5 2.5 3.0 4.0 4.0 5.0
  n 4 4 6 4 6 8 8 8 8 8
  d 5.1 6.5 6.5 8.5 8.5 10.5 13 15 17 17
  MI(kg) 0.14 0.16 0.38 0.38 0.53 0.53 0.87 0.87 1.65 2.14
Flange bolt size M5 M6 M6 M8 M8 M10 M12 M14 M16 M16
Tightening torque(N·m) 7 13 13 32 32 64 110 180 270 270

How to tell if your driveshaft needs replacing

What is the cause of the unbalanced drive shaft? Unstable U-joint? Your car may make clicking noises while driving. If you can hear it from both sides, it might be time to hand it over to the mechanic. If you’re not sure, read on to learn more. Fortunately, there are many ways to tell if your driveshaft needs replacing.

unbalanced

An unbalanced driveshaft can be the source of strange noises and vibrations in your vehicle. To fix this problem, you should contact a professional. You can try a number of things to fix it, including welding and adjusting the weight. The following are the most common methods. In addition to the methods above, you can use standardized weights to balance the driveshaft. These standardized weights are attached to the shaft by welders.
An unbalanced drive shaft typically produces lateral vibrations per revolution. This type of vibration is usually caused by a damaged shaft, missing counterweights, or a foreign object stuck on the drive shaft. On the other hand, torsional vibrations occur twice per revolution, and they are caused by shaft phase shifts. Finally, critical speed vibration occurs when the RPM of the drive shaft exceeds its rated capacity. If you suspect a driveshaft problem, check the following:
Manually adjusting the imbalance of a drive shaft is not the easiest task. To avoid the difficulty of manual balancing, you can choose to use standardized weights. These weights are fixed on the outer circumference of the drive shaft. The operator can manually position the weight on the shaft with special tools, or use a robot. However, manual balancers have many disadvantages.
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unstable

When the angular velocity of the output shaft is not constant, it is unstable. The angular velocity of the output shaft is 0.004 at ph = 29.5 and 1.9 at t = 1.9. The angular velocity of the intermediate shaft is not a problem. But when it’s unstable, the torque applied to it is too much for the machine. It might be a good idea to check the tension on the shaft.
An unstable drive shaft can cause a lot of noise and mechanical vibration. It can lead to premature shaft fatigue failure. CZPT studies the effect of shaft vibration on the rotor bearing system. They investigated the effect of flex coupling misalignment on the vibration of the rotor bearing system. They assume that the vibrational response has two components: x and y. However, this approach has limited application in many situations.
Experimental results show that the presence of cracks in the output shaft may mask the unbalanced excitation characteristics. For example, the presence of superharmonic peaks on the spectrum is characteristic of cracks. The presence of cracks in the output shaft masks unbalanced excitation characteristics that cannot be detected in the transient response of the input shaft. Figure 8 shows that the frequency of the rotor increases at critical speed and decreases as the shaft passes the natural frequency.

Unreliable

If you’re having trouble driving your car, chances are you’ve run into an unreliable driveshaft. This type of drivetrain can cause the wheels to stick or not turn at all, and also limit the overall control of the car. Whatever the reason, these issues should be resolved as soon as possible. Here are some symptoms to look for when diagnosing a driveshaft fault. Let’s take a closer look.
The first symptom you may notice is an unreliable drive shaft. You may feel vibrations, or hear noises under the vehicle. Depending on the cause, it could be a broken joint or a broken shaft. The good news is that driveshaft repairs are generally relatively inexpensive and take less time than a complete drivetrain replacement. If you’re not sure what to do, CZPT has a guide to replacing the U-connector.
One of the most common signs of an unreliable driveshaft is clanging and vibration. These sounds can be caused by worn bushings, loose U-joints, or damaged center bearings. This can cause severe vibration and noise. You can also feel these vibrations through the steering wheel or the floor. An unreliable driveshaft is a symptom of a bigger problem.
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Unreliable U-joints

A car with an unreliable U-joint on the drive shaft can be dangerous. A bad u-joint can prevent the vehicle from driving properly and may even cause you trouble. Unreliable u-joints are cheap to replace and you should try getting parts from quality manufacturers. Unreliable U-joints can cause the car to vibrate in the chassis or gear lever. This is a sure sign that your car has been neglected in maintenance.
Replacing a U-joint is not a complicated task, but it requires special tools and a lot of elbow grease. If you don’t have the right tools, or you’re unfamiliar with mechanical terminology, it’s best to seek the help of a mechanic. A professional mechanic will be able to accurately assess the problem and propose an appropriate solution. But if you don’t feel confident enough, you can replace your own U-connector by following a few simple steps.
To ensure the vehicle’s driveshaft is not damaged, check the U-joint for wear and lubrication. If the U-joint is worn, the metal parts are likely to rub against each other, causing wear. The sooner a problem is diagnosed, the faster it can be resolved. Also, the longer you wait, the more you lose on repairs.

damaged drive shaft

The driveshaft is the part of the vehicle that connects the wheels. If the driveshaft is damaged, the wheels may stop turning and the vehicle may slow down or stop moving completely. It bears the weight of the car itself as well as the load on the road. So even a slight bend or break in the drive shaft can have dire consequences. Even a piece of loose metal can become a lethal missile if dropped from a vehicle.
If you hear a screeching noise or growl from your vehicle when shifting gears, your driveshaft may be damaged. When this happens, damage to the u-joint and excessive slack in the drive shaft can result. These conditions can further damage the drivetrain, including the front half. You should replace the driveshaft as soon as you notice any symptoms. After replacing the driveshaft, you can start looking for signs of wear.
A knocking sound is a sign of damage to the drive shaft. If you hear this sound while driving, it may be due to worn couplings, damaged propshaft bearings, or damaged U-joints. In some cases, the knocking noise can even be caused by a damaged U-joint. When this happens, you may need to replace the entire driveshaft, requiring a new one.
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Maintenance fees

The cost of repairing a driveshaft varies widely, depending on the type and cause of the problem. A new driveshaft costs between $300 and $1,300, including labor. Repairing a damaged driveshaft can cost anywhere from $200 to $300, depending on the time required and the type of parts required. Symptoms of a damaged driveshaft include unresponsiveness, vibration, chassis noise and a stationary car.
The first thing to consider when estimating the cost of repairing a driveshaft is the type of vehicle you have. Some vehicles have more than one, and the parts used to make them may not be compatible with other cars. Even if the same car has two driveshafts, the damaged ones will cost more. Fortunately, many auto repair shops offer free quotes to repair damaged driveshafts, but be aware that such work can be complicated and expensive.

China SWC Cardan Shaft/Shaft/Drive Shaft From High Quality Factory Supplier     drive shaft components	China SWC Cardan Shaft/Shaft/Drive Shaft From High Quality Factory Supplier     drive shaft components
editor by czh 2023-01-04