Solution Description
ZD Horizontal Kind High Precision 52mm ZDR Series Planetary Gearbox
Merchandise Description
ZDR series planetary gearbox has adopted helical equipment design, so the meshing of gears can be smoother. This sequence has a double-supported and sealed composition, less difficult to install for buyers. It is widely used in linear manipulators, packaging machinery, assembly strains and and so forth. The optimum backlash of the ZDR sequence is less than 5 arc.min and the reduction ratio handles 3~81.
The Product Advantages of Planetary Gearbox:
one.Flexible framework design and style, in line with different working problems.
2.Ring gear processing engineering: Using inside equipment slotting machine and hobbing machine the precision of ring equipment following processing can reach GB7.
three.Hardened gear secondary scraping technology: secondary substantial-speed dry slicing of equipment gets rid of gear deformation brought on by warmth remedy. Equipment accuracy can achieve GB6.
4.Trustworthy backlash tests.
How to Go through:
fifty two ZDR twenty ( ) (S) – 750 T1 ( )
a b c d e f g h
| a | Frame Measurement | fifty two =52mm |
| b | Series code:ZDR | Indirect tooth precision |
| c | Reduction Ratio | One Phase: 3,4,5,6,7,8,9,10 Two Stages: 15,20,25,35,45,eighty one. |
| d | Backlash | One Phase: 12arc.min Two Stages: 15arc.min |
| e | Input shaft kind | S:General locking(Omission)(irrespective regardless of whether the motor with keyway can use it. But D Lower can’t use) S1:Locking with locking ring(no matter no matter whether the motor with keyway can use it. But D Lower can’t use) S2:Locking with keyway (enter shaft with important) K:With keyway A:0ther sort (you should get in touch with with us) |
| f | Applicable servo motor energy (W),Make sure you get in touch with us for particular electricity | |
| g | Please speak to us for the mouting sort of the flang | |
| h | Please get in touch with us for the model of servo motor | |
Spesifications & Information
When enter pace is 3000rpm
| Product NO. | Reduction Ratio | Motor | Output Shaft Speed (rpm) | Standard Output Torque (N.m) | Instantaneous max.Output Torque (N.m) | Permissible Radial Load (N) | Permissible Axial Load (N) | Interior Instant Ohnertia Of Input Shaftconversion (x10-4 kg.m2) | Perrmissible Output Torque (N.m) | Instantaneous Max. Permissible Output Torque (N.m) |
| 52ZDR | 3 | 50 | 1000 | .255 | .784 | 392 | 196 | .571 | 3.43 | 10.three |
| 100 | .715 | two.06 | .571 | |||||||
| 200 | 1.forty seven | 4.51 | .135 | |||||||
| 400 | 3.forty three | 10.three | .145 | |||||||
| 5 | 50 | 600 | .510 | 1.forty seven | 490 | 245 | .04 | one.fifty seven | 4.70 | |
| a hundred | one.18 | 3.72 | .04 | 1.57 | four.70 | |||||
| two hundred | 2.sixty five | 8.04 | .118 | two.84 | eight.fifty three | |||||
| 9 | fifty | 333 | .921 | two.74 | 588 | 294 | 0.035 | 2.35 | 7.25 | |
| a hundred | 2.twenty five | six.86 |
Note1) The second of enter shaft conversion is only gained from the reducer, so it does not contain moment of inertia of the motor.
Note2) The max. input speed is 5000rpm. Typically established to 3000rpm or much less.
Note3) The permissble radial load is indicated on the centre of the output shaft.
Note4) All values are within the assortment corresponding to helical equipment.
When enter speed is 3000rpm
| Item NO. | Reduction Ratio | Motor | Output Shaft Velocity (rpm) | Regular Output Torque (N.m) | Instantaneous max.Output Torque (N.m) | Permissible Radial Load (N) | Permissible Axial Load (N) | Inside Second Ohnertia Of Input Shaftconversion (x10-4 kg.m2) | Perrmissible Output Torque (N.m) | Instantaneous Max. Permissible Output Torque (N.m) |
| 52ZDR | 15 | 50 | 200 | one.sixty seven | 5.00 | 784 | 392 | 0.035 | 4.02 | 12.two |
| 100 | 3.seventy two | eleven.4 | ||||||||
| 20 | fifty | 150 | two.21 | six.63 | 804 | 402 | 0.034 | 5.00 | 15. | |
| 100 | five.00 | 15. | ||||||||
| 25 | fifty | 120 | two.74 | eight.33 | 882 | 441 | 0.0325 | 4.02 | 12.2 | |
| a hundred | 6.27 | 19. | 6.27 | 19. | ||||||
| 35 | 50 | 85 | 3.eighty four | eleven.5 | 882 | 441 | 0.030 | 3.84 | 11.5 |
Note1) The minute of enter shaft conversion is only obtained from the reducer, so it does not contain moment of inertia of the motor.
Note2) The max, input pace is 5000rpm. Normally set to 3000rpm or less.
Note3) The permissble radial load is indicated on the middle of the output shaft.
Note4) All values are inside of the assortment corresponding to helical equipment.
When enter pace is 2000rpm
| Solution NO. | Reduction Ratio | Motor | Output Shaft Speed (rpm) | Common Output Torque (N.m) | Instantaneous max.Output Torque (N.m) | Permissible Radial Load (N) | Permissible Axial Load (N) | Interior Instant Ohnertia Of Input Shaftconversion (x10-4 kg.m2) | Perrmissible Output Torque (N.m) | Instantaneous Max. Permissible Output Torque (N.m) |
| 52ZDR | 3 | fifty | 666 | .477 | one.43 | 450 | 225 | .571 | 3.43 | 10.three |
| one hundred | one.05 | three.fifteen | .a hundred thirty five | |||||||
| 200 | two.48 | seven.45 | .a hundred forty five | |||||||
| 5 | fifty | 400 | .795 | 2.39 | 560 | 280 | .040 | 1.fifty seven | 4.70 | |
| a hundred | 1.fifty seven | four.70 | .118 | |||||||
| 9 | fifty | 222 | 1.57 | 4.seventy two | 670 | 335 | 0.035 | 2.35 | 7.twenty five | |
| 15 | fifty | 133 | two.sixty two | seven.87 | 882 | 441 | 0.035 | 4.02 | 12.two | |
| 20 | fifty | 100 | three.5 | 10.5 | 910 | 455 | 0.034 | 5.00 | 15. | |
| 25 | fifty | 80 | 4.37 | thirteen.one | 882 | 441 | 0.0325 | 6.27 | 19. |
Note1) The minute of input shaft conversion is only obtained from the reducer, so it does not incorporate minute of inertia of the motor.
Note2) The permissble radial load is indicated on the centre of the output shaft.
Note3) All values are within the selection corresponding to helical gear.
Dimensions (Unit: mm):
| Item NO. | Reduction Ratio | Motor | Complete Duration L | Output Shaft | Flange | |||||||||||||
| Panasonic- made MSMA |
Yaskawa-made SGMASH SGMSH | Mitsubishi-produced HC-KFS HC-RFS |
LR | S | Q | QM | QM | W×U | T | D | LB | LE | LA | LZ | X | |||
| 52ZDR | 3,5,nine | fifty | 99.5 | 32 | 12 | 20 | 18 | M4(depth)twelve | 4×13.five | 4 | 52 | 50 | 3 | 60 | M5 | 12 | ||
| fifteen,20,25,35 | fifty | 110 | ||||||||||||||||
| three,5,nine | a hundred | 99.five | ||||||||||||||||
| 15,twenty,twenty five | a hundred | 110 | ||||||||||||||||
| 3,five | two hundred | 104.five | ||||||||||||||||
| 3 | 400 | 104.five | ||||||||||||||||
Note1) You should inquire to us if motor model just isn’t standard (Matching motor checklist). (The flange dimension might be different if motor assension is distinct.)
Note2) Rotation of the output shaft is in the identical route as that of motor enter.
Note3) All values are within the assortment corresponding to helical equipment.
System
Double assist mechanism
one.The planetary gear is placed in the middle of the output shaft.
2.The output shaft bearing is placed at equally finishes of the planetary equipment.
3.Separate sunlight gear and coupling.
Compact output shaft mechanism
It adopts the layout of output shaft built-in system, compact construction, high rigidity, and it can withstand massive influence. Location the enter CZPT and the sunshine equipment at the center of the output shaft to improve the concentricity of the elements, thereby successfully managing the equipment clearance and improving the backlash of the complete gearbox.
Framework
Complete needle construction
The internal bearing of the planetary gear adopts a full-needle design and style, the internal hole is made by a grinding approach, the surface hardness is HRC60, and the cylindricity is much less than .003mm.
Ring equipment structure
The integral structure of the ring equipment and the output flange increases its rigidity and decreases misassembly.
Other Model Sort of ZDR Series
A lot more merchandise,make sure you click on below…
Company Profile
Shipping
Our Companies
one.Maintenance time & Warranty: one yr right after leaving factory.
2.Other service: Including modeling choice information, installation guide, and difficulty taking pictures information, and so on.
FAQ
Q: What’re your principal merchandise?
A: We presently produce Brushed DC Motors, Brushed DC Equipment Motors, Planetary DC Equipment Motors, Brushless DC Motors, AC Motors, Large Precision Planetary Gearbox and Precision Cycloidal Gearbox etc.. You can examine the specifications for previously mentioned motors on our web site and you can e mail us to recommend required motors per your specification way too.
Q: How to decide on a ideal motor or gearbox?
A:If you have motor images or drawings to demonstrate us, or you have detailed specifications, such as, voltage, speed, torque, motor measurement, operating method of the motor, necessary lifetime and sound stage and so forth, you should do not wait to allow us know, then we can recommend suited motor for every your request appropriately.
Q: Do you have a tailored support for your standard motors or gearboxes?
A: Indeed, we can personalize per your request for the voltage, velocity, torque and shaft dimension/condition. If you want added wires/cables soldered on the terminal or want to insert connectors, or capacitors or EMC we can make it as well.
Q: Do you have an person layout support for motors?
A: Indeed, we would like to design and style motors separately for our buyers, but some variety of molds are necessory to be developped which might want actual cost and design and style charging.
Q: What’s your direct time?
A: Normally speaking, our regular regular merchandise will need to have fifteen-30days, a little bit for a longer time for custom-made merchandise. But we are extremely flexible on the guide time, it will depend on the particular orders.
The phrase “gearbox” is utilised to refer to any system that connects a motor to a equipment and consists of a series of gears, also acknowledged as a equipment set. It receives the primary input pace from the motor and alterations it to a distinct output pace employing its gears. Distinct varieties and combos of gears provide specific reasons. The types of gears located in gearboxes include spur gears, bevel gears, helical gears, helical gears and worm gears. The overall performance performance of a gearbox is represented by the gearbox ratio, which is the ratio of the pace of the enter supply to the pace of the output supply
Equipment reducers are also referred to as reducers. Mechanical accessories, by possibly of these two names, are made to reduce the electricity transferred amongst the motor and the machine between the rotational speeds (revolutions for each moment). The reducer successfully lowers the rotational velocity created by the motor, thereby controlling the pace at which the device runs and escalating the torque made by the motor. Multiplying the torque made by the motor will increase the machine’s offered power – a process acknowledged as “mechanical dominance”. In a greater context, gear reducers are fundamentally equipment used to improve the performance of products procedure.
