ZD Safety Grade IP65 Higher CZPT 98mm ZDR Collection Planetary CZPT
Solution Description
ZDR sequence planetary gearbox has adopted helical equipment design, so the meshing of gears can be smoother. This series has a double-supported and sealed framework, less complicated to install for clients. It is broadly used in linear manipulators, packaging equipment, assembly lines and and so forth. The optimum backlash of the ZDR collection is less than 5 arc.min and the reduction ratio covers three~eighty one.
The Product Advantages of Planetary CZPT:
1.Versatile construction layout, in line with different operating circumstances.
2.Ring equipment processing engineering: Using inside gear slotting device and hobbing device the precision of ring gear soon after processing can reach GB7.
3.Hardened equipment secondary scraping technologies: secondary high-pace dry cutting of gear eradicates equipment deformation brought on by heat treatment method. Gear precision can get to GB6.
four.CZPT backlash screening.
How to Read through:
98 ZDR 20 ( ) (S) – 750 T1 ( )
a b c d e f g h
a | Frame Measurement | 98 =98mm |
b | Series code:ZDR | Oblique tooth precision |
c | Reduction Ratio | Single Phase: 3,four,five,six,7,eight,9,ten Two Levels: 15,20,twenty five,35,forty five,eighty one. |
d | Backlash | Single Stage: 8arc.min Two Phases: 12arc.min |
e | Input shaft variety | S:Overall locking(Omission)(no matter whether the motor with keyway can use it. But D Minimize can’t use) S1:Locking with locking ring(no matter whether the motor with keyway can use it. But D Minimize can not use) S2:Locking with keyway (enter shaft with important) K:With keyway A:0ther kind (please get in touch with with us) |
f | Applicable servo motor energy (W),Please speak to us for certain electricity | |
g | You should get in touch with us for the mouting type of the flang | |
h | Make sure you speak to us for the product of servo motor |
Spesifications & Information
When enter pace is 3000rpm
Product 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) | Internal Second Ohnertia Of Input Shaftconversion (x10-four kg.m2) | Perrmissible Output Torque (N.m) | Instantaneous Max. Permissible Output Torque (N.m) |
98ZDR | 3 | one thousand | 1000 | 7.fifty five | 22.eight | 882 | 441 | two.43 | 18.3 | fifty four.9 |
1500 | 12.three | 37.one | ||||||||
2000 | 17.2 | fifty one.5 | ||||||||
five | a thousand | 600 | 13.four | 40.five | 1080 | 539 | one.eighty five | 23.five | 70.six | |
1500 | 21.five | sixty four.four | ||||||||
nine | 750 | 333 | eighteen.2 | fifty four.7 | 1470 | 735 | .650 | 18.two | 54.7 |
Note1) The second of enter shaft conversion is only gained from the reducer, so it does not incorporate minute of inertia of the motor.
Note2) The max. enter speed is 5000rpm. Typically set to 3000rpm or much less.
Note3) The permissble radial load is indicated on the heart of the output shaft.
Note4) All values are within the assortment corresponding to helical equipment.
When enter velocity is 3000rpm
Item 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) | Internal Minute Ohnertia Of Input Shaftconversion (x10-four kg.m2) | Perrmissible Output Torque (N.m) | Instantaneous Max. Permissible Output Torque (N.m) |
98ZDR | fifteen | 750 | 200 | thirty.4 | ninety one.2 | 1760 | 882 | .seven-hundred | thirty.four | 91.2 |
twenty | 750 | a hundred and fifty | forty.6 | 122 | 1910 | 955 | .690 | forty.six | 122 | |
twenty five | 750 | 120 | fifty.seven | 152 | 2060 | 1030 | .680 | fifty.seven | 152 | |
35 | four hundred | eighty five | 37. | 111 | 2060 | 1030 | .269 | 37. | 111 | |
45 | two hundred | 66 | 21.one | sixty three.5 | 2060 | 1030 | .5716 | 28.three | eighty five.two | |
81 | 100 | 37 | 14. | forty two. | 2060 | 1030 | .030 | 17.eight | fifty three.five |
Note1) The moment of input shaft conversion is only obtained from the reducer, so it does not include second of inertia of the motor.
Note2) The max, input pace is 5000rpm. Normally set to 3000rpm or significantly less.
Note3) The permissble radial load is indicated on the centre of the output shaft.
Note4) All values are inside the range corresponding to helical gear.
When enter speed is 2000rpm
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 Instant Ohnertia Of Input Shaftconversion (x10-4 kg.m2) | Perrmissible Output Torque (N.m) | Instantaneous Max. Permissible Output Torque (N.m) |
98ZDR | three | 750 | 666 | eight.73 | 26.2 | 1571 | 505 | 2.forty three | 18.three | fifty four.9 |
one thousand | twelve.three | 37.one | ||||||||
1500 | 18.three | 54.nine | ||||||||
five | 750 | four hundred | 15.five | forty six.five | 1230 | 615 | 1.85 | 23.5 | 70.six | |
one thousand | 21.five | 64.4 | ||||||||
nine | four hundred | 222 | fourteen. | 41.9 | 1680 | 840 | .650 | eighteen.2 | 54.seven | |
fifteen | four hundred | 133 | 23.3 | sixty nine.eight | 2571 | 1571 | .700 | thirty.4 | ninety one.two | |
twenty | 400 | one hundred | 31. | 93.1 | 2180 | 1090 | .294 | forty.six | 122 | |
25 | 400 | 80. | 38.8 | 116 | 2060 | 1030 | .680 | 50.seven | 152 | |
35 | two hundred | fifty seven. | 22. | sixty six. | 2340 | 1170 | .269 | 37. | 111 | |
forty five | one hundred | 44.four | 14. | 42.one | 2060 | 1030 | .5715 | 28.3 | 85.2 | |
two hundred | 28.3 | eighty five.2 | ||||||||
81 | 100 | 24.six | seventeen.8 | 53.5 | 2060 | 1030 | .0300 | seventeen.eight | 53.five |
Note1) The second of input shaft conversion is only gained from the reducer, so it does not contain moment of inertia of the motor.
Note2) The permissble radial load is indicated on the center of the output shaft.
Note3) All values are within the assortment corresponding to helical equipment.
Dimensions (Device: mm):
Solution NO. | Reduction Ratio | Motor | Whole Size L | Output Shaft | Flange | |||||||||||||
CZPT- produced MSMA |
Yaskawa-created SGMASH SGMSH | Mitsubishi-made HC-KFS HC-RFS |
LR | S | Q | QM | QM | W×U | T | D | LB | LE | LA | LZ | X | |||
98ZDR | eighty one | a hundred | 158 | sixty one | 24 | 40 | 35 | M6(depth)twenty | 8×27 | 7 | one hundred | ninety | five | a hundred and fifteen | M8 | 20 | ||
forty five | two hundred | one hundred sixty five | ||||||||||||||||
35 | 400 | |||||||||||||||||
9 | 750 | 158.5 | ||||||||||||||||
fifteen,twenty,25 | 750 | 171 | ||||||||||||||||
3,five | one thousand | 177 | ||||||||||||||||
three,five | 1500 | |||||||||||||||||
three | 2000 |
Note1) You should inquire to us if motor product just isn’t regular (Matching motor checklist). (The flange dimension may be diverse if motor assension is distinct.)
Note2) Rotation of the output shaft is in the very same direction as that of motor input.
Note3) All values are within the range corresponding to helical gear.
Mechanism
CZPT assist system
1.The planetary gear is put in the middle of the output shaft.
2.The output shaft bearing is placed at each finishes of the planetary equipment.
3.Individual solar equipment and coupling.
Compact output shaft system
It adopts the layout of output shaft integrated program, compact structure, substantial rigidity, and it can face up to huge influence. Location the enter coupling and the solar gear at the heart of the output shaft to increase the concentricity of the factors, thus effectively managing the gear clearance and strengthening the backlash of the total gearbox.
Composition
Complete needle structure
The inner bearing of the planetary gear adopts a total-needle layout, the internal gap is produced by a grinding method, the surface hardness is HRC60, and the cylindricity is much less than .003mm.
Ring gear framework
The integral construction of the ring gear and the output flange enhances its rigidity and reduces misassembly.
Other Product Sort of ZDR Sequence
Much more merchandise,make sure you click on below…
Company Profile
Shipping and delivery
Our Solutions
1.Upkeep time & Guarantee: 1 12 months right after leaving factory.
two.Other service: Such as modeling assortment guide, set up guide, and difficulty taking pictures guidebook, etc.
FAQ
Q: What’re your major goods?
A: We presently generate Brushed DC Motors, Brushed DC Gear Motors, Planetary DC Equipment Motors, Brushless DC Motors, AC Motors, Substantial CZPT Planetary CZPT and CZPT Cycloidal CZPT etc.. You can check the specifications for earlier mentioned motors on our site and you can electronic mail us to advocate required motors for every your specification too.
Q: How to select a ideal motor or gearbox?
A:If you have motor photographs or drawings to display us, or you have comprehensive specifications, these kinds of as, voltage, velocity, torque, motor measurement, operating mode of the motor, required life time and sound amount etc, please do not be reluctant to allow us know, then we can suggest appropriate motor for every your ask for accordingly.
Q: Do you have a CZPT provider for your regular motors or gearboxes?
A: Of course, we can customise per your ask for for the voltage, speed, torque and shaft dimension/shape. If you require additional wires/cables soldered on the terminal or need to have to add connectors, or capacitors or EMC we can make it way too.
Q: Do you have an personal design and style service for motors?
A: Of course, we would like to layout motors independently for our clients, but some sort of molds are necessory to be developped which might need to have actual value and design and style charging.
Q: What’s your lead time?
A: CZPTly speaking, our normal standard merchandise will need fifteen-30days, a bit for a longer time for CZPT items. But we are extremely flexible on the direct time, it will rely on the certain orders.