- Stock: In Stock
- Product code: 10251-000002
- Weight Brutto: 140.00kg
The PUDU MT1 Vac is a commercial-grade, AI-powered 3-in-1 autonomous cleaning robot — sweeping, vacuuming, and dust-mopping — engineered for large-scale indoor environments including airports, five-star hotels, and banquet halls. Guided by a fused LiDAR SLAM + VSLAM navigation stack and a dual-fan deep-suction system, it achieves a peak cleaning throughput of 1,400 m²/h across a 55 cm vacuum path, while a 14 L dual dustbag system and 60 Ah battery sustain up to 6.5 hours of uninterrupted operation per charge.
| Max. Cleaning Coverage | 1,400 m²/h |
|---|---|
| Vacuuming Width | 55 cm |
| Total Dustbag Capacity | 14 L (7 L × 2) |
| Runtime | 3–6.5 h (standard hard-floor mode: 4 h) |
The front view below shows the MT1 Vac's low-slung profile with its distinctive dual counter-rotating side brushes, which funnel debris inward toward the 55 cm central suction path before the roller brush completes the extraction cycle.
Dual-Fan Deep Suction: 200% More Airflow Per Pass
Conventional commercial vacuums rely on a single air duct; the MT1 Vac deploys a dual independent air duct system that boosts suction efficiency by 200% versus single-duct designs. High-velocity airflow pins fine dust to the floor surface before the roller brush reaches it — suppressing the dust clouds that single-pass machines inevitably scatter. Paper shreds, wood chips, sand, and granular debris are all within specification. Strong, consistent suction also handles hard-floor-to-carpet transitions without manual brush-speed adjustment.
The 3/4 angle view below captures the full body of the MT1 Vac: the compact PC+ABS enclosure, the PUDU MT1 Vac model designation on the side panel, and the robust drive wheels that give the robot its stable, low-centre-of-gravity stance.
55 cm Vacuum Path, 70 cm Sweep Width: Twice the Ground Coverage Per Pass
Most commercial upright vacuums operate on a 25–30 cm head. At 55 cm suction width and 70 cm total sweep width (side brushes deployed), the MT1 Vac completes in one pass what a conventional machine needs two or three passes to cover. At cruise speeds up to 1.2 m/s, that geometry translates directly into the 1,400 m²/h throughput figure — sufficient to clean a full airport concourse within a single operational window. The 52 cm low-clearance profile slides under racks, display stands, and lobby furniture without any operator intervention.
LiDAR SLAM + VSLAM: Navigation That Adapts to Dynamic Environments
The MT1 Vac's positioning stack fuses three complementary methods: LiDAR SLAM for laser-precise spatial mapping, VSLAM (visual simultaneous localisation and mapping) for feature-rich environment recognition, and visual Marker positioning for deterministic startup-location anchoring. This redundant architecture re-localises reliably even when furniture is rearranged, temporary stalls appear, or crowds move through the cleaning zone. Minimum path clearance is 75 cm; corridors wider than 80 cm allow the robot to pass through without speed reduction.
The visualisation below shows the MT1 Vac scanning a large vacant hall, with the LiDAR beam cone rendered in real time across the entire floor plane — the computational foundation of its autonomous route planning at scale.
AI Floor Recognition: Carpet and Hard Floor, Zero Manual Switching
An onboard AI vision module classifies floor surface type in real time. Entering a carpet zone triggers automatic adjustment of suction intensity and roller-brush speed — protecting delicate pile while extracting embedded particulate. Returning to hard floor, the system reverts to standard parameters without operator input. A companion feature — AI Exemption — lets operators teach the robot to ignore decorative floor patterns or graphics that the camera might otherwise misidentify as debris.
The image below captures the MT1 Vac precisely at the transition boundary between hard tile and a carpeted surface — the exact scenario where single-mode cleaning robots lose effectiveness.
AI Smart Spot Cleaning: Proactive Waste Detection and Targeted Response
During standard inspection passes, the AI vision system continuously scans for debris concentrations. When a contamination hotspot is identified — a drink spill, scattered litter — the robot autonomously deviates from its planned route, executes a targeted cleaning sequence, then returns to the original path. Ultra Spot Clean mode extends this further: heat-map analysis of high-traffic areas triggers extra passes in zones statistically likely to accumulate waste, all without supervisor input.
14 L Dustbag + 6 L Bin: Extended Runs Without Interruption
Cleaning throughput means nothing if the robot requires constant emptying. The MT1 Vac carries two independent 7 L dustbags — total 14 L capacity — backed by a separate 6 L hard-shell dustbin for larger debris that bypasses the bag circuit. This dual-reservoir architecture substantially extends the distance the robot covers before a maintenance stop is needed. Under typical mixed-duty conditions, emptying frequency drops well below once per shift.
The transparent cutaway view below reveals both dustbags sitting side-by-side inside the robot chassis, with the 7 L × 2 = 14 L capacity label confirming total storage volume without opening any panels.
H11 HEPA Filtration — Optional H13 Upgrade Available
The standard H11-grade HEPA filter captures over 98% of particles down to 0.3 µm — fine enough to trap the airborne particulates generated by high-traffic floor cleaning. Facilities with stricter air quality requirements — pharmaceutical corridors, allergy-sensitive hotels, healthcare reception areas — can specify the optional H13 filter, raising capture efficiency to 99.97% at 0.3 µm. Neither grade is washable; the recommended replacement interval is weekly under standard commercial use.
Tool-Free Modular Maintenance: Five Consumables, Zero Tools Required
Commercial cleaning robots accumulate wear across five consumable categories. The MT1 Vac addresses this with a fully modular component architecture: dust mop plates, dustbin, dustbag assembly, roller brush, and side brushes all detach without tools. Each swap takes seconds rather than minutes — critical in airport and hotel environments where the cleaning fleet must return to service quickly between maintenance windows.
The exploded-view image below lays every removable component side by side: the main unit, twin side brushes, roller brush, dual dustbags with HEPA filters, and the dust mop plate — the complete consumable map at a glance.
Hand-Vacuum Extension: Cleaning Where the Robot Cannot Reach
A quick-release vacuum hose extends the MT1 Vac's cleaning reach to surfaces the robot body cannot access: sofa cushion edges, vertical wall bases, glass partitions, and elevated display surfaces. This one feature closes the gap between autonomous floor cleaning and the residual manual work that every facility supervisor knows remains after a robot pass — without requiring a separate machine.
IoT Integration: Elevators, E-Gates, and PUDU Link
The MT1 Vac supports full building IoT integration via the PUDU Link platform. Elevator dispatch APIs allow the robot to call and board lifts autonomously, enabling multi-floor facility cleaning without human escort. Electronic gate integration means access-controlled zones — terminal boarding corridors, hotel restricted areas — open automatically as the robot approaches. Communication options include 4G, Wi-Fi, Bluetooth, and optional LoRa / 2.4G for facilities with specific network topologies.
Electronic flap-barrier turnstile gates — like those shown below — are navigated autonomously by the MT1 Vac via IoT integration, eliminating the need for staff to hold gates open during cleaning passes in access-controlled areas.
Modern elevator cabins present no obstacle once elevator API integration is configured. The MT1 Vac calls the lift, boards, rides to the target floor, and exits — the full multi-floor scenario captured in the cabin view below.
The PUDU Link mobile application — shown on a smartphone below — gives facility managers live visibility into robot status, battery level, task progress, and remote call capability from a single dashboard, accessible from anywhere on-site or remotely.
Automatic Charging and 24/7 Operation
A dedicated auto-charging base station enables continuous 24/7 deployment cycles. When the battery level approaches its minimum threshold, the MT1 Vac autonomously navigates to the dock, connects via contact electrodes, and resumes its cleaning schedule once recharged — with no operator involvement. Full recharge takes approximately 3.5 hours. Scheduled cleaning tasks run at pre-set times, maximising cleaning hours during off-peak periods when facilities are empty and floors are accessible.
The image below shows the MT1 Vac precisely aligned at its charging base station, the robot's contact electrodes engaging the dock pins — the fully autonomous return-to-charge cycle in operation.
Technical Specifications of the PUDU MT1 Vac
Mechanical Dimensions
| Model | MTBC02 |
|---|---|
| Dimensions (L × W × H) | 840 × 600 × 490 mm |
| Weight | ~77 kg |
| Enclosure Material | PC+ABS |
| Screen | 10.1-inch LCD |
| Operating System | Android |
Cleaning Performance
| Cleaning Capabilities | Sweeping, Vacuuming, Dust Mopping |
|---|---|
| Max. Cleaning Coverage | 1,400 m²/h |
| Vacuuming Width | 55 cm |
| Sweeping Width (with side brush) | 70 cm |
| Max. Surmountable Height | 20 mm |
| Max. Surmountable Gap | 30 mm |
| Max. Cleaning Slope | 3° |
| Air Filter Level | H11 (optional H13) |
| Dustbag Capacity | 14 L (7 L × 2) |
| Dustbin Capacity | 6 L |
Navigation and Mobility
| Navigation Method | LiDAR SLAM + VSLAM + Marker |
|---|---|
| Cruise Speed | 0.2–1.2 m/s (adjustable) |
| Min. Path Width | 75 cm |
| Min. Height Clearance | 52 cm |
| Max. Climbing Angle (non-cleaning) | 8° |
| IP Rating | IPX3 |
| Operating Noise | <65 dB(A) (noise reduction mode) |
Power and Battery
| Working Voltage | DC 23 V–29.2 V |
|---|---|
| Power Input | AC 100 V–240 V, 50/60 Hz |
| Power Output (Max.) | 29.2 V, 20 A |
| Battery Capacity | 60 Ah |
| Charging Time | ~3.5 h |
| Runtime | 3–6.5 h |
Connectivity
| Communication | 4G, Wi-Fi, Bluetooth, LoRa / 2.4G (optional) |
|---|---|
| Mobile App | PUDU Link (supported) |
What's in the Box
- PUDU MT1 Vac main unit × 1
- Charger × 1
- Sweeping side brush × 2
- Sweeping roller brush × 1
- Dustbag × 6
- HEPA filter × 4
- Dust mop cloth × 2
- Positioning code × 1
- Warning flagpole × 1
- User Manual × 1
- Certificate of Conformity × 1
How to Set Up and Start Your First Automatic Cleaning Task on the PUDU MT1 Vac
This procedure covers the initial charge, power-on sequence, positioning, and task launch required to begin autonomous cleaning on the PUDU MT1 Vac (model MTBC02).
Step 1: Charge to 100% Before First Use
Connect the supplied charger to the charging port on the robot's side panel. Allow the battery to reach 100% before initiating any cleaning tasks. Never begin first-time operation on a partially charged battery — this protects long-term battery capacity and ensures full runtime on the first autonomous run.
Step 2: Power On the Robot
Press and hold the power button for approximately 3 seconds until the front LED light strip illuminates blue. Wait for the 10.1-inch LCD screen to complete its boot sequence before proceeding to the next step.
Step 3: Position the Robot at the Visual Marker
Place the MT1 Vac directly below or in front of the visual positioning Marker at the designated startup location. Accurate startup positioning is required for the LiDAR SLAM + VSLAM navigation system to anchor its coordinate reference correctly.
Step 4: Lower the Handlebar and Secure the Screen
Lower the handlebar fully to the robot body — automatic cleaning mode requires the handle in the down position. If the screen was detached for manual operation, re-insert it into the compartment on the robot chassis before starting the autonomous task.
Step 5: Configure the Cleaning Task on the LCD Screen
Using the 10.1-inch touchscreen, select the target cleaning zone, set the cleaning mode (suction level: Low / Medium / High), and configure a schedule if timed cleaning is required. Verify that battery level is above 10% before starting.
Step 6: Start the Automatic Cleaning Task
Tap the Start button on the LCD screen. The MT1 Vac will depart from the Marker position and execute the configured cleaning pass autonomously, returning to the charging dock when the task completes or battery level requires recharging.
What types of surfaces can the PUDU MT1 Vac clean?
The MT1 Vac is designed for flat indoor hard floors (tiles, marble, sealed concrete) and low-to-mid pile carpets. Its AI floor recognition module automatically adjusts suction intensity and roller-brush speed when transitioning between surface types. It is not suitable for slopes exceeding 3° in cleaning mode, outdoor use, or heavily oil-stained floors.
How long does the PUDU MT1 Vac battery last on a single charge?
The 60 Ah battery delivers 3–6.5 hours of operation depending on cleaning intensity and floor type. In standard sweep-and-vacuum mode on hard floors, runtime is approximately 4 hours. Full recharge from depleted takes approximately 3.5 hours. The auto-dock feature enables 24/7 operation cycles with scheduled overnight cleaning.
What is the MT1 Vac's maximum cleaning coverage rate?
At its maximum cruise speed of 1.2 m/s and 55 cm vacuum path width, the MT1 Vac achieves up to 1,400 m²/h. This makes it suitable for large-format venues — airport terminals, hotel ballrooms, exhibition halls — where conventional cleaning equipment would require multiple machines to cover equivalent ground within a single operational shift.
What filtration standard does the MT1 Vac use?
Standard configuration includes an H11 HEPA filter capturing over 98% of particles at 0.3 µm. An optional H13 HEPA upgrade is available, raising capture efficiency to 99.97% — suitable for healthcare, pharmaceutical, and premium hospitality environments. Neither filter is washable; replacement is recommended weekly under standard commercial use.
Can the PUDU MT1 Vac navigate elevators and electronic gates autonomously?
Yes. The MT1 Vac supports full IoT building integration through the PUDU Link platform, including elevator dispatch API and electronic gate (e-gate) control. The robot can autonomously call lifts, board them, and travel between floors without operator assistance. Communication options include 4G, Wi-Fi, Bluetooth, and optional LoRa / 2.4G for facilities with specific network topologies.
Why Choose EXPERT3D?
EXPERT3D has specialised in advanced robotics and professional-grade technology solutions since 2012 — over a decade of hands-on experience selecting, deploying, and supporting commercial cleaning and service robots across airports, hotel groups, and industrial facilities in Spain and across Europe. As an official representative of PUDU, we guarantee the best price, authorised service, and official warranty. Our team provides pre-sales technical consultation, delivery coordination throughout Spain and the EU, and post-sale support backed by direct manufacturer contacts. The PUDU MT1 Vac is a complex commercial system: we can help you navigate fleet configuration, IoT integr
