Small Robots OVR
3-Axis Cartesian Robot
- The Three Axes of Electric Linear Slide Delivered Assembled
- Movable Range 300 mm x 300 mm x 100 mm (X-Y-Z), payload 2.5 kg
- Easy Operation With Dedicated Controller and Programming Software
- Reduced Time for Equipment Design, Assembly, and Start-Up
Features | 3-Axis Cartesian Robot
Reduced Time to Equipment Start-Up
The use of cartesian robots can reduce the time required to start up the equipment.
Reduced Time for Creating BOMs and Diagrams
When building an in-house cartesian robot using an actuator, it can take days to select parts, collect CAD data, and design metal fittings. Prefilled CAD data can be used to reduce design time.
The small number of parts also reduces the time and effort required for creating BOMs, and ordering and receiving those parts.
Reduced Assembly and Wiring Time
Delivered assembled and can be installed simply by attaching them to the equipment with screws.
Fewer parts to assemble, thus reducing work time.
*Cable holders should be installed by the customer during cable routing.
Usage of the Electric Linear Slide EZS Series (driven with αSTEP AZ Series).
- No home sensor, limit sensor, or associated wiring required
- Only 3 motor cables are required, which reduces wiring time
- The cable uses a locking lever type connector that does not require screw fastening, making connection easy.
The Motor Can be Replaced by the Customer
The motor can be replaced by the customer. Reduces the maintenance load (cost and time) post-installation.
Easy-to-Control Robot Controller
The MRC01-C robot controller is a dedicated controller for cartesian robots.
It can be used to control Small Robots OVR 3-axis cartesian robots or in-house cartesian robots.
Click here for details on the MRC01-C robot controller
The programming software MRC Studio (free of charge) is so simple that even those inexperienced in controlling robots can master it quickly.
- Note: When using the robot, please consider its safety as an industrial robot. (Cannot be used as a collaborative robot)
Using AZ Series With Battery-Free Built-In Absolute Encoder
All axes use the αSTEP AZ Series (DC input).
Absolute mode eliminates the need for external sensors, reduces wiring, and reduces maintenance by eliminating the need for battery management.
DC input allows easy power supply line routing. Installation and layout changes to the line can be adapted to flexibly.
Useful Tools Before Installing Robots
MRC Studio Simulator
This software (free of charge) enables simulation of actual movements on a PC at the stage of considering the introduction of a robot, without the robot itself or MRC01.
Click here for detailsMRC Reality
Virtual robots can be set up in real space to simulate operations.
Apps are available for smartphones/tablets and for head-mounted displays (Meta Quest 3).
Specifications
Product Name | OVR3AL030030Z10K-C (L type) | |
---|---|---|
OVR3AR030030Z10K-C (R type) | ||
Number of Axes | 3-axis | |
Input Voltage | V | 24 VDC |
Payload*1 | kg | 2.5 |
Movable Range | mm | X-axis: 300, Y-axis: 300, Z-axis: 100 |
Maximum speed*2 | mm/s | X-axis: 600, Y-axis: 600, Z-axis: 600 |
Repetitive Positioning Accuracy | mm | ±0.02 |
Body Mass | kg | 18.4 |
Installation Type | Floor mount | |
List Price | MYR 29496 |
- *1: When acceleration is 1 m/s2
- *2: Varies depending on the payload and acceleration.
Dimensions (Unit: mm)
OVR3AL030030Z10K-C (L type)
- *Ensure there is enough space around the cable holder as the amount of protrusion cannot be guaranteed.
OVR3AR030030Z10K-C (R type)
- *Ensure there is enough space around the cable holder as the amount of protrusion cannot be guaranteed.
Various Data
Technical Reference | Cartesian |
---|---|
3DCAD | R015.zip(OVR3AL030030Z10K-C), R016.zip(OVR3AR030030Z10K-C) |
2DCAD | R015.dxf(OVR3AL030030Z10K-C), R016.dxf(OVR3AR030030Z10K-C) |
System Configuration
Aside from the robot and motor, the robot controllers, drivers, and cables must be ordered separately.
The robot can be easily controlled by using the robot controller MRC01-C and the programming software MRC Studio.
The recommended drivers that can be connected to MRC01-C are the DC input type compact driver AZD-KD or the mini Driver AZD-KR2D.
Configuration Price Example
Product Name | Quantity | List Price | Subtotal | |
---|---|---|---|---|
Robot | OVR3AR030030Z10K-C | 1 | MYR 29496 | MYR 29496 |
Robot Controller | MRC01-C | 1 | MYR 4518 | MYR 4518 |
Driver | AZD-KD | 3 | MYR 1937 | MYR 3874 |
Cable Between Motor and Driver (3 m) | CCM030Z1CBF | 1 | MYR 512 | MYR 512 |
CCM030Z1CVR | 1 | Please contact us for more information | Please contact us for more information | |
CCM030Z1DFR | 1 | Please contact us for more information | Please contact us for more information | |
RS-485 Communication Cable (0.1 m) | CC001-RS4 | 3 | MYR 120 | MYR 360 |
Please contact us for more information |
- *An end effector and a DC power supply are required in addition to the above.