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Shockless / high-speed rotary actuator.
[Features]
· Positioning repeatability: ±0.03° (high-precision type).
· Rotation angle: 360°.
· Possible to set speed, acceleration/deceleration and positioning up to 64 points.
· Energy-saving product: Automatic 40% power reduction after the table has stopped.
· Step motor (servo 24 V DC).
· RoHS compliant.
Part Number
Configured Part Number is shown.
LERH50K-1-R56N5D
LER Series Electric Rotary Table, Continuous Rotation Specification external appearance
LER: basic type / LERH: high-precision type
Table rotation angle range
*1 Range within which the table can move. Make sure the workpiece mounted on the table does not interfere with the workpieces and equipment around the table.
*2 The sensor detection range is recognized as the origin. When detecting the sensor, the table rotates in the reverse direction within the sensor detection range.
(Unit: mm)
LER□10□ dimensional drawing 1
LER□10□ dimensional drawing 2
LER□30 dimensional drawing 1
LER□30 dimensional drawing 2
LER□50 dimensional drawing 1
LER□50 dimensional drawing 2
Model | LER□10K | LER□10J | LER□30K | LER□30J | LER□50K | LER□50J | ||
---|---|---|---|---|---|---|---|---|
Actuator specifications | Rotation angle (°) | 360 | ||||||
Angle setting range (°)*9 | ±20,000,000 | |||||||
Max. rotating torque (N·m) | 0.32 | 0.22 | 1.2 | 0.8 | 10 | 6.6 | ||
Max. pushing torque 40 to 50% (N·m)*1*3 | 0.13 to 0.16 | 0.09 to 0.11 | 0.48 to 0.60 | 0.32 to 0.40 | 4.0 to 5.0 | 2.6 to 3.3 | ||
Max. moment of inertia (kg·m2)*2 *3 | 0.0040 | 0.0018 | 0.035 | 0.015 | 0.13 | 0.05 | ||
Angular speed (°/sec)*2 *3 | 20 to 280 | 30 to 420 | 20 to 280 | 30 to 420 | 20 to 280 | 30 to 420 | ||
Pushing speed (°/sec) | 20 | 30 | 20 | 30 | 20 | 30 | ||
Max. angular acceleration/deceleration (°/sec2)*2 | 3,000 | |||||||
Backlash (°) | Basic type | ±0.3 | ±0.2 | |||||
High-precision type | ±0.1 | |||||||
Positioning repeatability (°) | Basic type | ±0.05 | ±0.05 | |||||
High-precision type | ±0.03 | |||||||
Lost motion (°)*4 | Basic type | 0.3 or less | 0.3 or less | |||||
High-precision type | 0.2 or less | |||||||
Impact/vibration resistance (m/s2)*5 | 150/30 | |||||||
Actuation type | Special worm gear + belt drive | |||||||
Max. operating frequency (c.p.m) | 60 | |||||||
Operating temp. range (°C) | 5 to +40 | |||||||
Operating humidity range (%RH) | 90 or less (no condensation) | |||||||
Weight (kg) | Basic type | 0.51 | 1.2 | 2.3 | ||||
High-precision type | 0.55 | 1.3 | 2.5 | |||||
Electric specifications | Motor size | □20 | □28 | □42 | ||||
Motor type | Step motor (servo 24 V DC) | |||||||
Encoder | Incremental A/B phase (800 pulse/rotation) | |||||||
Proximity sensor (for return to origin) / Input circuit | 2-wire | |||||||
Proximity sensor (for return to origin) / Input point | 1 input | |||||||
Power supply (V) | 24 V DC ±10% | |||||||
Power consumption (W)*6 | 11 | 22 | 34 | |||||
Standby power consumption when operating (W)*7 | 7 | 12 | 13 | |||||
Max. instantaneous power consumption (W)*8 | 14 | 42 | 57 |
*1 Pushing force accuracy is LER10: ±30% (F.S.), LER30: ±25% (F.S.), LER50: ±20% (F.S.).
*2 The angular acceleration, angular deceleration and angular speed may fluctuate due to variations in the moment of inertia. Refer to the "Moment of Inertia—Angular Acceleration/Deceleration, Effective Torque—Angular Speed" graphs for confirmation.
*3 The speed and force may change depending on the cable length, load, mounting conditions, etc. Furthermore, if the cable length exceeds 5 m, then the speed and force will decrease by up to 10% for each 5 m. (At 15 m: reduced by up to 20%)
*4 A reference value for correcting an error in reciprocal operation.
*5 Impact resistance: No malfunction occurred when the slide table was tested with a drop tester in both an axial direction and a perpendicular direction to the lead screw. (Test was performed with the actuator in the initial state.)
Vibration resistance: No malfunction occurred in a test ranging from 45 to 2,000 Hz. Test was performed in both an axial direction and a perpendicular direction to the lead screw. (Test was performed with the actuator in the initial state.)
*6 The power consumption (including the controller) is for when the actuator is operating.
*7 The standby power consumption when operating (including the controller) is for when the actuator is stopped in the set position during operation.
*8 The maximum instantaneous power consumption (including the controller) is for when the actuator is operating. This value can be used for the selection of the power supply.
*9 The angle displayed on the monitor is automatically reset to 0° every 360°. To set an angle (position), use the "Relative" movement mode. If an angle of 360° or more is set using the "Absolute" movement mode, the correct operation cannot be performed.
Electric Rotary Table structure drawing
Electric Rotary Table structure drawing (left: basic type / right: high-precision type)
No. | Description | Material | Note | |
---|---|---|---|---|
1 | Body | Aluminum alloy | Anodized | |
2 | Side plate A | Aluminum alloy | Anodized | |
3 | Side plate B | Aluminum alloy | Anodized | |
4 | Worm screw | Stainless steel | Heat treated + Specially treated | |
5 | Worm wheel | Stainless steel | Heat treated + Specially treated | |
6 | Bearing cover | Aluminum alloy | Anodized | |
7 | Table | Aluminum alloy | - | |
8 | Joint | Stainless steel | - | |
9 | Bearing holder | Aluminum alloy | - | |
10 | Bearing stopper | Aluminum alloy | - | |
11 | Pulley A | Aluminum alloy | - | |
12 | Pulley B | Aluminum alloy | - | |
13 | Grommet | NBR | - | |
14 | Motor plate | Carbon steel | - | |
15 | Basic type | Deep groove ball bearing | - | - |
High-precision type | Special ball bearing | - | - | |
16 | Deep groove ball bearing | - | - | |
17 | Deep groove ball bearing | - | - | |
18 | Deep groove ball bearing | - | - | |
19 | Belt | - | - | |
20 | Step motor (servo 24 V DC) | - | - |
No. | Description | Material | Note |
---|---|---|---|
21 | Proximity dog | Stainless steel | - |
22 | Sensor holder | Carbon steel | Chromate treatment |
23 | Sensor holder Spacer | Aluminum alloy | Anodized (Can only be used for high-precision type) |
24 | Square nut | Aluminum alloy | - |
25 | Proximity sensor assembly | - | - |
Mounting the workpiece to the electric rotary table
The load should be mounted to the product by screwing the screw into the female mounting thread. See the table below for appropriate tightening torque and screw length. If the threaded portion is too long, it can interfere with the body and cause a malfunction.
Model | Screw size | Thread length (mm) | Max. tightening torque (N·m) |
---|---|---|---|
LER□10 | M4 × 0.7 | 6 | 1.4 |
LER□30 | M5 × 0.8 | 8 | 3.0 |
LER□50 | M6 × 1 | 10 | 5.0 |
Part Number |
---|
LERH50K-1-R56N5D |
Part Number | Standard Unit Price | Minimum order quantity | Volume Discount | Days to Ship | Torque (N・m) | Torque (N・m) | Rigidity, Accuracy | Size | Motor cable entry direction | Actuator cable type | Actuator cable length (m) | Controller/driver type | I/O cable length, communication plug (m) | Controller/driver mounting method |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
- | 1 Piece(s) | Quote | 10 ~ Less than 20 | 10 | High Rigidity, High Accuracy | 50 | Basic type (entry on the right side) | Robotic (flexible) cable | 5 | LECP6 (step data input type) / NPN | 5 | DIN rail mounting |
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Type | Rotary Actuator One Side Shaft Output | Main Body Shape | Block Shape | Oscillation Angle A | 360° |
---|---|---|---|---|---|
Operation Method | Others | Environment, Applications | High-Speed | Valves | N/A |
Please check the type/dimensions/specifications of the part LERH50K-1-R56N5D in the LER Series Electric Rotary Table, Continuous Rotation Specification series.
Part Number |
---|
LER10J-1-6P3D |
LER10J-1-R1 |
LER10J-1-R16N |
LERH50K-1-R56P1D |
LERH50K-1-R56P3 |
LERH50K-1-R56P5 |
Part Number | Standard Unit Price | Minimum order quantity | Volume Discount | Days to Ship | Torque (N・m) | Torque (N・m) | Rigidity, Accuracy | Size | Motor cable entry direction | Actuator cable type | Actuator cable length (m) | Controller/driver type | I/O cable length, communication plug (m) | Controller/driver mounting method |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
- | 1 Piece(s) | Quote | Less than 1 | 0.22 | Standard | 10 | Basic type (entry on the right side) | Without cable | Without cable | LECP6 (step data input type) / PNP | 3 | DIN rail mounting | ||
- | 1 Piece(s) | Quote | Less than 1 | 0.22 | Standard | 10 | Basic type (entry on the right side) | Robotic (flexible) cable | 1.5 | Without controller | Without cable (without communication plug connector) | Screw mounting | ||
- | 1 Piece(s) | Quote | Less than 1 | 0.22 | Standard | 10 | Basic type (entry on the right side) | Robotic (flexible) cable | 1.5 | LECP6 (step data input type) / NPN | Without cable (without communication plug connector) | Screw mounting | ||
- | 1 Piece(s) | Quote | 10 ~ Less than 20 | 10 | High Rigidity, High Accuracy | 50 | Basic type (entry on the right side) | Robotic (flexible) cable | 5 | LECP6 (step data input type) / PNP | 1.5 | DIN rail mounting | ||
- | 1 Piece(s) | Quote | 10 ~ Less than 20 | 10 | High Rigidity, High Accuracy | 50 | Basic type (entry on the right side) | Robotic (flexible) cable | 5 | LECP6 (step data input type) / PNP | 3 | Screw mounting | ||
- | 1 Piece(s) | Quote | 10 ~ Less than 20 | 10 | High Rigidity, High Accuracy | 50 | Basic type (entry on the right side) | Robotic (flexible) cable | 5 | LECP6 (step data input type) / PNP | 5 | Screw mounting |
How can we improve?
How can we improve?