ZD Agricultural CZPT High CZPT 78mm ZDR Series Planetary CZPT
Solution Description
ZDR series planetary gearbox has adopted helical gear layout, so the meshing of gears can be smoother. This collection has a double-supported and sealed structure, less difficult to install for consumers. It is extensively used in linear manipulators, packaging equipment, assembly lines and and many others. The highest backlash of the ZDR collection is much less than five arc.min and the reduction ratio handles 3~81.
The Product Advantages of Planetary CZPT:
one.Adaptable framework layout, in line with different operating circumstances.
two.Ring equipment processing technological innovation: Making use of inner equipment slotting machine and hobbing machine the precision of ring equipment after processing can reach GB7.
three.Hardened gear secondary scraping technologies: secondary substantial-pace dry cutting of gear gets rid of gear deformation caused by heat treatment. Gear accuracy can achieve GB6.
4.CZPT backlash screening.
How to Read:
78 ZDR 20 ( ) (S) – 750 T1 ( )
a b c d e f g h
a | Frame Dimensions | 78 =78mm |
b | Series code:ZDR | Indirect tooth precision |
c | Reduction Ratio | Single Phase: three,4,five,six,7,8,9,ten Two Stages: 15,20,twenty five,35,45,81. |
d | Backlash | One Stage: 8arc.min Two Phases: 12arc.min |
e | Input shaft sort | S:Total locking(Omission)(irrespective whether or not the motor with keyway can use it. But D Cut can not use) S1:Locking with locking ring(irrespective whether the motor with keyway can use it. But D Reduce are unable to use) S2:Locking with keyway (enter shaft with key) K:With keyway A:0ther type (please make contact with with us) |
f | Relevant servo motor energy (W),You should speak to us for certain power | |
g | Please make contact with us for the mouting kind of the flang | |
h | Make sure you speak to us for the design of servo motor |
Spesifications & Details
When input speed is 3000rpm
Solution NO. | Reduction Ratio | Motor | Output Shaft Velocity (rpm) | CZPT Output Torque (N.m) | Instantaneous max.Output Torque (N.m) | Permissible Radial Load (N) | Permissible Axial Load (N) | Interior Second Ohnertia Of Input Shaftconversion (x10-4 kg.m2) | Perrmissible Output Torque (N.m) | Instantaneous Max. Permissible Output Torque (N.m) |
78ZDR | three | 750 | one thousand | six.37 | 19.3 | 784 | 392 | .913 | 6.86 | 20.6 |
five | 400 | 600 | five.39 | sixteen.two | 980 | 490 | .363 | six.57 | 19.seven | |
750 | 10.7 | 32.one | .713 | eleven.5 | 34.three | |||||
9 | two hundred | 333 | 3.seventy two | eleven.three | 1180 | 588 | .275 | 9.70 | 29.2 | |
four hundred | 9.51 | 28.five |
Note1) The second of input shaft conversion is only received from the reducer, so it does not contain second of inertia of the motor.
Note2) The max. enter velocity is 5000rpm. Normally set to 3000rpm or less.
Note3) The permissble radial load is indicated on the centre of the output shaft.
Note4) All values are inside of the selection corresponding to helical equipment.
When enter pace is 3000rpm
Product NO. | Reduction Ratio | Motor | Output Shaft Speed (rpm) | CZPT Output Torque (N.m) | Instantaneous max.Output Torque (N.m) | Permissible Radial Load (N) | Permissible Axial Load (N) | Inner Minute Ohnertia Of Input Shaftconversion (x10-4 kg.m2) | Perrmissible Output Torque (N.m) | Instantaneous Max. Permissible Output Torque (N.m) |
78ZDR | fifteen | two hundred | 200 | six.27 | 18.eight | 1470 | 735 | .300 | 16.2 | forty eight.six |
400 | fifteen.eight | 47.five | ||||||||
twenty | 200 | a hundred and fifty | 8.69 | 26.1 | 1570 | 785 | .294 | 21.1 | sixty three.3 | |
400 | 21.one | sixty three.3 | ||||||||
twenty five | two hundred | one hundred twenty | eleven.1 | 33.three | 1670 | 833 | .288 | 21.seven | sixty four.nine | |
400 | 26.four | seventy nine.two | 26.four | 79.2 | ||||||
35 | one hundred | 85 | 7.24 | 21.7 | 1670 | 833 | .065 | thirteen.nine | 41.7 | |
200 | fifteen.5 | forty six.6 | .262 | 15.five | 46.6 | |||||
forty five | fifty | 66 | 3.86 | 11.six | 1670 | 833 | .5715 | nine.50 | 28.6 | |
100 | nine.31 | 28. | ||||||||
81 | 50 | 37 | 7.02 | twenty.8 | 1670 | 833 | .571 | nine.70 | 29.2 |
Note1) The second of input shaft conversion is only gained from the reducer, so it does not include minute of inertia of the motor.
Note2) The max, enter velocity is 5000rpm. Typically set to 3000rpm or less.
Note3) The permissble radial load is indicated on the center of the output shaft.
Note4) All values are inside the variety corresponding to helical equipment.
When input pace is 2000rpm
Solution NO. | Reduction Ratio | Motor | Output Shaft Velocity (rpm) | CZPT Output Torque (N.m) | Instantaneous max.Output Torque (N.m) | Permissible Radial Load (N) | Permissible Axial Load (N) | Interior Moment Ohnertia Of Input Shaftconversion (x10-four kg.m2) | Perrmissible Output Torque (N.m) | Instantaneous Max. Permissible Output Torque (N.m) |
78ZDR | 3 | four hundred | 666 | 5.01 | fifteen. | 900 | 450 | .913 | 6.86 | twenty.6 |
5 | two hundred | four hundred | three.82 | 11.five | 1120 | 560 | .363 | six.fifty seven | 19.seven | |
400 | eight.35 | 25.one | .713 | eleven.5 | 34.three | |||||
nine | one hundred | 222 | two.35 | 7.04 | 1340 | 670 | .275 | nine.70 | 29.2 | |
two hundred | six.sixty four | 19.9 | ||||||||
fifteen | a hundred | 133 | 3.91 | eleven.seven | 1670 | 833 | .three hundred | 16.two | forty eight.6 | |
two hundred | 11.one | 33.two | ||||||||
20 | one hundred | 100 | 5.73 | seventeen.2 | 1790 | 895 | .294 | 21.one | sixty three.three | |
200 | 14.eight | forty four.4 | ||||||||
twenty five | 100 | 80. | 7.sixteen | 21.five | 1670 | 833 | .288 | 21.seven | 64.nine | |
200 | 18.5 | fifty five.four | ||||||||
35 | 50 | 57. | four.43 | 13.3 | 1900 | 950 | .262 | 15.5 | 46.six | |
100 | 12.7 | 38.one | ||||||||
forty five | 50 | 44.4 | 5.80 | seventeen.4 | 1670 | 833 | .5715 | nine.fifty | 28.six | |
eighty one | fifty | 24.6 | nine.70 | 29.2 | 1670 | 833 | .5710 | nine.70 | 29.2 |
Note1) The minute of input shaft conversion is only received from the reducer, so it does not include moment of inertia of the motor.
Note2) The permissble radial load is indicated on the middle of the output shaft.
Note3) All values are inside the selection corresponding to helical gear.
Dimensions (Device: mm):
Product NO. | Reduction Ratio | Motor | Overall Duration L | Output Shaft | Flange | |||||||||||||
CZPT- made MSMA |
Yaskawa-created SGMASH SGMSH | Mitsubishi-created HC-KFS HC-RFS |
LR | S | Q | QM | QM | W×U | T | D | LB | LE | LA | LZ | X | |||
78ZDR | forty five,eighty one | 50 | 142 | fifty | 19 | thirty | 26 | M5(depth)20 | 6×21.5 | 6 | eighty | 70 | 3 | 90 | M6 | twenty | ||
35 | one hundred | one hundred fifty | ||||||||||||||||
45 | one hundred | 142 | ||||||||||||||||
nine | 200 | 139.five | ||||||||||||||||
fifteen,20,twenty five,35 | two hundred | one hundred fifty | ||||||||||||||||
five,nine | 400 | 139.five | ||||||||||||||||
fifteen,twenty,25 | four hundred | a hundred and fifty | ||||||||||||||||
3,five | 750 | 143.five |
Note1) Remember to inquire to us if motor design is not normal (Matching motor list). (The flange dimension might be diverse if motor assension is distinct.)
Note2) Rotation of the output shaft is in the identical path as that of motor input.
Note3) All values are in the variety corresponding to helical gear.
System
CZPT support system
1.The planetary equipment is positioned in the middle of the output shaft.
two.The output shaft bearing is placed at equally finishes of the planetary gear.
three.Independent sun gear and coupling.
Compact output shaft system
It adopts the style of output shaft built-in method, compact structure, higher rigidity, and it can withstand massive effect. Area the enter coupling and the sun equipment at the center of the output shaft to increase the concentricity of the elements, thereby successfully managing the gear clearance and enhancing the backlash of the entire gearbox.
Structure
Entire needle structure
The internal bearing of the planetary equipment adopts a complete-needle design, the internal hole is made by a grinding procedure, the area hardness is HRC60, and the cylindricity is significantly less than .003mm.
Ring equipment framework
The integral structure of the ring gear and the output flange improves its rigidity and reduces misassembly.
Other Product Variety of ZDR Collection
A lot more items,please simply click below…
Organization Profile
Supply
Our Companies
one.Servicing time & Guarantee: one calendar year soon after leaving manufacturing unit.
two.Other services: Such as modeling assortment guidebook, installation manual, and dilemma shooting manual, etc.
FAQ
Q: What’re your principal products?
A: We at present generate Brushed DC Motors, Brushed DC Gear Motors, Planetary DC Gear Motors, Brushless DC Motors, AC Motors, Large CZPT Planetary CZPT and CZPT Cycloidal CZPT etc.. You can verify the specifications for earlier mentioned motors on our internet site and you can e mail us to suggest necessary motors for each your specification also.
Q: How to decide on a suitable motor or gearbox?
A:If you have motor photos or drawings to demonstrate us, or you have in depth specs, this kind of as, voltage, velocity, torque, motor dimensions, working method of the motor, required life time and sound stage and so on, make sure you do not wait to let us know, then we can advocate suitable motor for each your request accordingly.
Q: Do you have a CZPT support for your common motors or gearboxes?
A: Indeed, we can customize for every your ask for for the voltage, velocity, torque and shaft dimensions/form. If you need to have additional wires/cables soldered on the terminal or need to have to include connectors, or capacitors or EMC we can make it as well.
Q: Do you have an personal design provider for motors?
A: Yes, we would like to design motors independently for our clients, but some kind of molds are necessory to be developped which may need to have precise expense and design charging.
Q: What’s your guide time?
A: CZPTly speaking, our typical regular merchandise will want 15-30days, a bit more time for CZPT merchandise. But we are quite flexible on the guide time, it will rely on the certain orders.