Cleaning performance of a vacuum and mop in one depends on how clean the cleaning system stays over time. When a roller brush, mop system, or internal chamber collects grime, grease, and residue, that buildup can affect maintenance, hygiene, and long-term cleaning consistency. ThermoHub™ is designed to address that problem with high-temperature self-cleaning. What is ThermoHub™? ThermoHub™ is Dreame’s exclusive 100°C (212°F) immersive mop and roller mop self-cleaning system. As a high-temperature thermal self-cleaning technology, it delivers full internal chamber coverage with 100°C (212°F) hot water soaking, achieving deep dirt removal for roller brushes and base station interiors with nearly zero residue left after each cycle. It also boasts a 100% washboard decontamination rate under lab testing.  Its purpose is to clean the parts of the machine that do the cleaning, such as the mop system, roller brush area, or internal wash chamber, depending on product category and design. Instead of relying only on room-temperature rinsing, ThermoHub™ uses thermal cleaning to help break down grease, stuck-on dirt, and other residue more effectively. That matters because self-cleaning is not just about convenience. It also helps support cleaner maintenance, reduces the chance of residue staying behind in the system, and improves how ready the machine is for the next cleaning session. The easiest way to understand ThermoHub™ is this: it is a Dreame thermal self-cleaning system built to wash away grime inside the cleaning system more thoroughly than a basic rinse cycle.*100°C refers to the maximum temperature the washboard PTC system can reach when heated from room temperature (around 23°C/73.4°F). All decontamination and temperature claims are based on in-house lab data; actual performance may vary slightly in real use.  Why does ThermoHub™ matter? A vacuum mop or floor washer can encounter more than dry dust. Kitchens, entryways, pet areas, and high-traffic rooms often create messes that include grease, sticky residue, damp debris, and fine dirt that can cling to the cleaning system itself. Over time, that buildup can make maintenance less pleasant and less effective. If residue stays on a mop, roller, or inside the wash area, it can affect cleanliness, create extra cleanup work, and reduce the freshness of the overall system. ThermoHub™ matters because it is designed to handle that maintenance challenge more effectively. By using heat as part of the self-cleaning process, it helps loosen stubborn grime that is harder to remove with cooler water alone. It also matters because not all thermal functions do the same job. A hot-water floor-washing function is about how the machine cleans the floor. ThermoHub™ is about how the machine cleans itself. That makes it an important part of the full Dreame care system, especially on products designed for frequent use and more demanding household messes.It is also worth noting the clear distinction between ThermoHub™ and AceClean™ DryBoard. While AceClean™ DryBoard focuses on baseplate and mop cleaning via a multi-outlet spray system and antibacterial filter, ThermoHub™ prioritizes deep, full-cleaning of roller brushes and the entire internal chamber through 100°C hot water immersion soaking.  How does ThermoHub™ work? At a high level, ThermoHub™ works by using hot water and a controlled self-cleaning cycle to clean core components more thoroughly. 1. The system brings heat into the self-cleaning process Instead of treating self-cleaning as a basic rinse, ThermoHub™ adds thermal cleaning into the cycle. Heat helps soften grease, loosen stuck-on grime, and break down residue that is harder to remove with lower-temperature washing alone. 2. Hot water reaches the parts that need cleaning most During the self-cleaning cycle, ThermoHub™ directs hot water through the cleaning area so key components can be cleaned more thoroughly. Depending on the product type, that may involve the mop system, roller brush, internal cavity, or wash chamber. 3. Residue is loosened and removed more effectively Once grime is exposed to hot water, it becomes easier to lift away from the cleaning components. This is especially useful for residue that builds up over repeated runs, such as kitchen grease, sticky dirt, and damp debris that can cling to the system instead of rinsing away easily. 4. Achieve Zero Residue & Lower Long-Term Maintenance  Beyond simple high-temperature rinsing, ThermoHub™ is engineered to deliver an ultra-clean internal chamber with zero residual grime after each self-cleaning cycle. It minimizes built-up stains and grease inside the base station, greatly reducing manual wiping and daily upkeep while keeping the whole system fresh and ready for the next use.  5. Built-in Multiple Safety Protection Mechanisms ThermoHub™ is equipped with comprehensive safety designs. After completing the self-cleaning process, the PTC system of the washboard automatically cools down to a safe temperature before the robot returns to the base station. This prevents scalding risks to children and pets, as the mop pad only leaves the washboard when the PTC system reaches a fully safe level.  Where does ThermoHub™ help most? ThermoHub™ is especially useful in households where the cleaning system is exposed to messes that leave behind residue instead of lifting away cleanly in one pass. Kitchens and dining areas Grease, sauce splashes, crumbs mixed with moisture, and sticky floor messes create a more demanding cleaning environment. Thermal self-cleaning helps support cleaner recovery after those heavier jobs. Pet homes Pet-related messes are not always dry. Food residue, tracked dirt, damp debris, and repeated daily cleaning can place more demand on the self-cleaning system. ThermoHub™ helps support better maintenance in that kind of high-use environment. Homes with frequent floor washing When a product is used often, self-cleaning quality matters more. Frequent use means the cleaning system has more chances to collect residue. ThermoHub™ helps support a cleaner system between repeated runs. Homes that need lower-maintenance upkeep Many people want automated cleaning to feel more hands-free, not less. A thermal self-cleaning system can help reduce how often users feel they need to inspect, wipe down, or manually refresh the cleaning area after heavier jobs. How does ThermoHub™ fit into the full Dreame cleaning experience? On Dreame cleaning products, ThermoHub™ fits into a broader system that combines cleaning performance with easier upkeep. It works alongside powerful Vormax™ suction, intelligent ProLeap™ obstacle-crossing technology, brush systems, navigation, drying, and other maintenance features so the product can not only clean the floor effectively, but also stay cleaner between uses. For example, thermal self-cleaning sits naturally beside advanced cleaning functions on flagship products. The Dreame X60 Max Ultra Complete Robot Vacuum pairs strong robot vacuum cleaning with 212°F (100°C) mop self-cleaning designed to dissolve grime and grease more effectively. That kind of thermal care matters because a high-performance robot vacuum also needs a high-performance maintenance system. The same principle applies in wet dry vacuum cleaning. The Dreame Aero Pro Wet Dry Vacuum combines 194°F (90°C) hot self-cleaning with 203°F (95°C) flash drying in 5 minutes, supporting a cleaner and more ready-to-use system after washing. In that context, thermal self-cleaning is part of a larger maintenance cycle that includes cleaning, drying, and easier post-use care. Similar high-temperature immersive cleaning logic is adopted by ThermoTub™ Immersive 100°C Hot Water Brush Wash featured on models like the H15 Pro Heat Wet Dry Vacuum. It delivers full 100°C immersive self-cleaning with 300ml large-volume hot water soaking, offering a 147.9% increase in water output compared with the previous generation and achieving full refresh of the brush and brush head interior. Users can choose Standard default mode or Deep-Clean mode for heavy dirt via the Dreamehome App.  This broader system view is important because users do not experience self-cleaning as an isolated feature. They experience whether the machine stays fresher, cleaner, and easier to maintain after real household messes. Which Dreame products feature ThermoHub™? ThermoHub™ appears on select Dreame cleaning products. Because product availability, specifications, and feature combinations can vary by model, region, and release cycle, the best way to confirm whether a current Dreame product includes ThermoHub™ is to check the latest product page and product specifications directly on the Dreame website. When comparing products, it also helps to look at ThermoHub™ alongside related systems such as self-cleaning, drying, hot-water floor washing, suction, and brush design. That gives a clearer picture of how each product is built for different cleaning routines and maintenance needs. Conclusion ThermoHub™ is Dreame’s thermal self-cleaning technology designed to help clean the cleaning system more thoroughly with high-temperature washing. It is built to loosen residue, remove grime more effectively, and support a cleaner machine between uses. The simplest way to understand ThermoHub™ is as a maintenance-focused thermal cleaning system with a practical purpose: helping the machine stay cleaner after it cleans your home. To see how ThermoHub™ appears on current Dreame products, check the latest live product specifications and compare how each model combines cleaning performance with self-cleaning and drying systems.

Hair is one of the biggest reasons robot vacuum brushes need manual maintenance. Long strands can wrap around the roller, pet hair can build up after repeated runs, and once enough hair collects, the brush system can become harder to clean and less effective over time. For homes with pets, long-haired family members, or both, that can turn routine cleaning into repeated brush maintenance. HyperStream™ Detangling DuoBrush is designed to change that. At Dreame, HyperStream™ Detangling DuoBrush is our dual-brush anti-tangle technology for robot vacuums. It combines a TPU rubber brush with a bristled rubber brush and uses an aerodynamic air-duct design to guide hair into the suction stream more efficiently. The goal is not only to reduce tangling, but also to maintain strong pickup across hard floors and carpets with lower noise and more balanced cleaning performance than a single-brush solution. What is HyperStream™ Detangling DuoBrush? HyperStream™ Detangling DuoBrush is Dreame’s dual-brush anti-tangle system for robot vacuums. It is designed to solve one of the most frustrating maintenance problems in robotic cleaning: hair wrapping around the brush roll.   Instead of relying on one roller to handle every floor type and every kind of debris, HyperStream™ Detangling DuoBrush uses two different brushes working together: a TPU rubber brush a bristled rubber brush This structure allows the system to do more than pick up hair. It also helps the robot handle fine dust in floor gaps, larger particles on carpets, and mixed debris across multiple surfaces. At the same time, the air path is designed to move hair into the suction channel instead of allowing it to wrap tightly around the roller. On supported models, the system is designed to handle hair up to 11.8 in (30 cm) in length. The simplest way to understand HyperStream™ Detangling DuoBrush is this: it is a dual-brush cleaning system built to keep hair moving into the dust path instead of staying behind on the brush. Why does HyperStream™ Detangling DuoBrush matter? Hair pickup and hair handling are not the same thing. A robot vacuum may collect hair on the first pass, but that does not mean it is managing hair efficiently over time. Hair can still wrap around the roller, build up near the ends of the brush, or create clumps that make the system harder to maintain. That matters because hair buildup affects more than convenience. It can reduce airflow, interfere with pickup consistency, increase maintenance, and make a supposedly hands-free cleaning routine feel less automatic than it should. HyperStream™ Detangling DuoBrush is designed to reduce that burden while maintaining cleaning performance across more of the home. It helps address several common problems at once: long hair that wraps tightly around a roller pet fur that builds up across repeated runs mixed debris that behaves differently on hard floors and carpets noisy brush designs that trade comfort for pickup power In practical terms, HyperStream™ Detangling DuoBrush matters because it helps a robot vacuum do two jobs at once: manage hair more effectively and maintain strong cleaning performance across different surfaces. How does HyperStream™ Detangling DuoBrush work? At a high level, HyperStream™ Detangling DuoBrush works by combining two complementary brushes, a specialized airflow path, and a brush geometry designed to keep hair moving toward the suction channel rather than wrapping around the roller.  1. The TPU brush handles carpets and larger debris The TPU front rubber brush is designed to make gentle contact with the floor and lift larger particles more effectively, especially from carpets. Its full TPU construction helps reduce points where hair can cling, while also helping create the initial separation of hair and debris from the floor surface.  2. The bristled brush supports hard floors and floor gaps  The bristled rubber brush is designed for broader floor contact, especially on hard floors and in floor gaps or crevices. It combines soft nylon bristles with rubber contact so it can sweep fine dust, pat loose debris, and guide hair toward the suction path. The old article also highlighted details such as anti-static bristle properties and carefully tuned bristle angles to reduce resistance and improve hair movement.  3. The dual-brush structure improves collection across surfaces  Instead of asking one brush to do everything, HyperStream™ Detangling DuoBrush uses two brushes with different strengths. The combined design supports stronger overall cleaning across hard floors, mixed surfaces, and carpets. One brush can compensate when the other misses a certain kind of debris, helping create a more complete pickup path.  4. The air-duct design prevents tangles A key part of HyperStream™ Detangling DuoBrush is its airflow design. The innovative air duct is built to help fling and guide hair directly into the suction stream. Rather than allowing hair to stay in prolonged contact with the roller and build into tangles, the system is designed to move hair through the cleaning path more smoothly.  5. The suspended-arm layout helps direct hair away  A single suspended arm with a side-mounted suction inlet helps create natural hair movement toward the non-fixed end of the brush. Combined with fan suction, brush rotation, and hair-guard structures, this helps reduce the chance of hair entering the rotation axis where tangling typically becomes more severe.  6. Balance pickup power and lower noise Brush design affects sound as well as cleaning. HyperStream™ Detangling DuoBrush is designed to deliver strong debris pickup without relying on a harsher all-rubber contact pattern. Softer bristles help reduce sound on hard floors, while the dual-brush structure maintains strong cleaning performance across different surface types.  7. HyperStream™ evolves On select models, HyperStream™ Detangling DuoBrush has evolved into HyperStream™ Detangling DuoBrush 2.0. That version keeps the core two-brush structure while adding upgrades such as 60% thicker rubber strips, a higher rotation speed of 1,600RPM up from 1,150RPM, and a retractable pressure chamber that helps form a semi-sealed zone for stronger carpet pickup while maintaining 100% detangling efficiency in the provided draft. Where does HyperStream™ Detangling DuoBrush help most? HyperStream™ Detangling DuoBrush is especially useful in homes where hair is part of the everyday cleaning routine. Homes with long hair Long strands are more likely to wrap tightly around conventional rollers. HyperStream™ Detangling DuoBrush is designed to guide hair into the suction path more effectively, helping reduce manual detangling even with hair up to 11.8 in (30 cm) in length. Pet homes Pet fur behaves differently from long human hair. It can gather along edges, mix with litter and dust, and build up over repeated runs. HyperStream™ Detangling DuoBrush is designed to handle that mixed cleaning environment more effectively across multiple floor types. The older piece also positioned it as particularly useful for multi-pet households and heavy shedding seasons.  Mixed hard-floor and carpet homes The two-brush structure is one of the system’s biggest practical advantages. Hard floors benefit from the bristled brush’s ability to reach dust in gaps and crevices, while carpets benefit from stronger debris lifting and tapping action.  Homes that want lower-maintenance cleaning Some anti-tangle systems reduce tangles only partly, or work better on short hair than long strands. HyperStream™ Detangling DuoBrush is designed for households that want strong everyday pickup without constant brush cleanup.  How does HyperStream™ Detangling DuoBrush fit into the full Dreame cleaning experience? On Dreame robot vacuums, HyperStream™ Detangling DuoBrush is part of a broader pickup and maintenance system. It works together with suction, navigation, obstacle handling, and edge-cleaning functions so the robot can not only reach more of the home, but also keep its brush system working more effectively over time. That full-system approach matters because brush performance does not exist in isolation. Hair handling, floor contact, suction strength, and surface response all work together during real cleaning. For example, when a robot vacuum moves from open hard floors to rugs, then into tighter spaces with corners, furniture, or tracked debris, the brush system has to stay effective across changing conditions. HyperStream™ Detangling DuoBrush supports that by combining multi-surface brush performance with anti-tangle design, helping the robot maintain consistent pickup throughout the cleaning run. Which Dreame products feature HyperStream™ Detangling DuoBrush? HyperStream™ Detangling DuoBrush appears on select Dreame robot vacuums.Models like the Dreame X60 Max Ultra Complete Robot Vacuum, for instance, often integrate this brush technology alongside OmniSight™ navigation and VersaLift™ systems (among other features) to deliver a comprehensive cleaning solution, though specific configurations may vary by region and release. Because product availability, feature combinations, and version updates can vary by model, region, and release cycle, the best way to confirm whether a current Dreame product includes HyperStream™ Detangling DuoBrush or HyperStream™ Detangling DuoBrush 2.0 is to check the latest product page and product specifications directly on the Dreame website. When comparing models, it also helps to look at HyperStream™ Detangling DuoBrush alongside related systems such as suction, carpet response, navigation, and edge cleaning. That gives a clearer picture of how each robot vacuum is designed for different home layouts, floor types, and hair-management needs.  Conclusion HyperStream™ Detangling DuoBrush is Dreame’s dual-brush anti-tangle technology for robot vacuums. It is designed to reduce hair wrapping, improve multi-surface pickup, and help the brush system stay effective across repeated cleaning sessions. The simplest way to understand HyperStream™ Detangling DuoBrush is as a brush system built for two practical goals: handling hair more effectively and maintaining strong cleaning performance across hard floors and carpets. To see where HyperStream™ Detangling DuoBrush appears today, check the latest live product specifications and compare how each model combines brush design, suction, navigation, and floor-response systems.

A robot vacuum can map a room accurately and still run into a very practical problem: getting over the obstacles between one space and the next. Door tracks, raised thresholds, layered floor transitions, and certain furniture bases can interrupt cleaning, leave areas unvisited, or force the robot to turn back early. ProLeap™ is tailored to solve such mobility challenges and is featured on selected Dreame robot vacuums. What is ProLeap™? ProLeap™ is Dreame’s obstacle-crossing system for robot vacuums featuring an obstacle-crossing wheel and robotic retractable leg in front of the drive wheel. The leg is motor-driven to rotate and lift the chassis so the robot can cross thresholds, tracks, and steps more effectively. This advanced system prevents the vacuum from getting stuck, ensuring seamless and efficient cleaning. It is built to help the robot vacuum move through more complex home layouts by lifting itself over transitions that are difficult for standard robot vacuums. On select models, ProLeap™ helps the vacuum cross obstacles up to 3.47 in (8.8 cm), depending on obstacle type and cleaning conditions. The integrated shock absorption system prevents harsh collisions and keeps noise levels impressively low, providing quiet, efficient cleaning in every environment. Its auto-lift technology intelligently adjusts the robotic legs to glide over door tracks, multi-step thresholds and furniture bases, without scratching the floor. For example, Dreame L60 Pro Ultra's robotic retractable legs power through an impressive 30,000 cycles, ensuring durability you can rely on. (30,000 cycles: Based on our in-house lab data. Actual performance may vary.) The goal of ProLeap™ is not just to make a robot vacuum stronger on paper, but to support continuous cleaning in uneven home layouts for real-world movement challenges.  Why does ProLeap™ matter? Many robot vacuums perform well on flat, open floors but become less reliable in complex home environments. Raised thresholds and uneven transitions can stop a cleaning run even with accurate navigation. Mobility directly affects cleaning coverage. Poor room-to-room movement causes missed areas and frequent manual rescue, limiting the practical performance of a smart robot vacuum. ProLeap™ is designed to reduce cleaning interruptions for smoother movement over daily household transitions, enabling continuous cleaning across connected spaces. ProLeap™ provides two specialized crossing modes: Synchronized Obstacle Crossing: Both clearance legs cross obstacles simultaneously. Recommended for threshold areas. Hurdle-style Obstacle Crossing: Clearance legs cross obstacles sequentially. Recommended for sliding door tracks. A Climbing Mat can help crossing thresholds that are higher. It is also important to clarify that ProLeap™ is an advanced obstacle-crossing system, not a stair-climbing system, designed for ledges, tracks and raised transitions within regular cleaning areas.  How does ProLeap™ work? At a high level, ProLeap™ works by giving a robot vacuum a way to lift its body and cross obstacles more deliberately instead of pushing against them and stopping. 1. The robot vacuum identifies the barrier ahead Before any crossing happens, the robot recognizes upcoming transitions and approaches steadily. On select Dreame robot vacuums, ProLeap™ works with advanced obstacle detection, navigation and positioning systems to assess the environment in advance. 2. ProLeap™ lifts the chassis to raise the vacuum’s height ProLeap™ uses robotic legs to lift the chassis and help the robot cross obstacles more effectively. This lifting action raises the robot’s height so it can move over barriers that would otherwise interrupt cleaning. 3. The robot vacuum crosses the obstacle instead of stopping at it Once lifted, the vacuum can move across transitions that challenge lower, fixed-body designs. That extra mobility is especially useful in homes with thicker thresholds, sliding door tracks and layered floor transitions. 4. The motion is designed to support everyday cleaning Obstacle crossing requires both height and stable performance for home use. ProLeap™ ensures smoother whole-home movement with fewer interruptions and manual interventions. Where does ProLeap™ help most? ProLeap™ is especially useful in homes with multiple room transitions. Door tracks and raised thresholds Door tracks are one of the most common examples. They are easy to overlook, but they can interrupt automated cleaning in daily use. ProLeap™ helps the robot move over these transitions more effectively instead of stalling or turning away. Uneven room transitions Some homes have older flooring, decorative room dividers, layered thresholds, or uneven joins between surfaces. In those spaces, obstacle-crossing performance can matter just as much as suction or navigation because the robot has to reach the area before it can clean it. Furniture-heavy layouts In practice, a robot vacuum may need to get over a threshold first and then continue under lower furniture beyond it. That is one reason mobility and low-profile cleaning often work together so well. A robot that can cross into the space is much more useful when it can also continue cleaning beneath beds, cabinets, and sofas. Larger homes with connected spaces In homes with more rooms, more transitions, and more varied flooring, mobility becomes even more important. ProLeap™ helps support cleaning continuity across a broader part of the floor plan, which can reduce interruptions and improve total coverage. How does ProLeap™ fit into the full Dreame cleaning experience? On Dreame robot vacuums, ProLeap™ is part of a broader cleaning system. It works alongside navigation, obstacle avoidance, suction, edge cleaning, and dock functions so the robot vacuum can not only understand the home, but also move through it more effectively. For example, the Dreame L60 Pro Ultra Robot Vacuum combines ProLeap™ robotic legs that cross up to 3.47 in (8.8 cm) obstacles with 104°F (40°C) hot-water mopping, liftable LiDAR navigation for 3.5 in (8.9 cm) low-profile cleaning, detection of 280+ object types, and an extendable mop and side brush for corner-to-crevice cleaning. The Dreame X60 Max Ultra Complete Robot Vacuum also shows how mobility works as part of a full-system approach. It pairs obstacle crossing up to 3.47 in (8.8 cm) with a 3.13 in (7.95 cm) slim design for under-furniture cleaning, recognition of 280+ objects, proactive light for darker areas, 35,000Pa Vormax™ Suction, and 212°F (100°C) mop self-cleaning. This matters because users do not experience mobility in isolation. They experience the total result: how well the robot reaches a space, avoids clutter, adapts to the floor plan, and keeps cleaning once it gets there. Which Dreame products feature ProLeap™? ProLeap™ is featured on selected L series, X series Dreame robot vacuums. Because product availability, specifications, and feature combinations can vary by model, region, and launch cycle, the best way to confirm whether a current Dreame product includes ProLeap™ is to check the latest product page and product specifications directly on the Dreame website. When comparing models, it also helps to look at ProLeap™ alongside related systems such as navigation, obstacle detection, suction, edge cleaning, and low-profile design. That gives a clearer picture of how each robot vacuum is designed for different home layouts and cleaning needs. Conclusion ProLeap™ is Dreame’s obstacle-crossing technology for robot vacuums. It is designed to help the robot move over thresholds, tracks, raised transitions, and other everyday barriers that can interrupt automated cleaning. The simplest way to understand ProLeap™ is as a mobility feature with a very practical purpose: helping the robot keep going where conventional designs are more likely to stop. To see how ProLeap™ appears on current Dreame robot vacuums, check the latest live product specifications and compare how each model combines mobility, navigation, suction, and cleaning systems. For powerful home cleaning solutions beyond robot vacuums, explore our lineup of best wet dry vacuum options built to tackle tough indoor messes efficiently. 

When people compare robot vacuums, suction is often one of the first things they notice. It is the part of the cleaning system that helps lift dust, crumbs, pet hair, litter, and other debris off the floor and into the vacuum path. At Dreame, Vormax™ Suction is the technology name we use for our high-performance suction system in robot vacuums. That name matters because suction is more than a spec on a product page. In daily cleaning, it affects how well a robot vacuum handles fine dust on hard floors, loose crumbs in busy areas, pet hair around baseboards, and debris trapped deeper in rugs and carpets.Vormax™ Suction is designed to support strong pickup across those common home-cleaning situations while working as part of a complete Dreame cleaning system. What is Vormax™ Suction? Vormax™ Suction is Dreame’s high-suction technology for robot vacuums. It is designed to create strong airflow for effective debris pickup across different floor types and household messes. Suction output varies across product lines, starting from 6,000Pa on entry-level D-series models and reaching up to 35,000Pa on flagship X-series robot vacuums. Delivering up to 35,000Pa suction, Vormax™ Suction effectively captures debris like paper scraps, hair, and cat litter from various surfaces while maintaining quiet operation. All internal gearboxes adopt dedicated noise reduction and silent treatment, optimizing low-noise performance throughout the cleaning process. Users can also freely adjust multiple suction levels via the cleaning app to match different household cleaning needs. In practical terms, Vormax™ Suction helps a robot vacuum pull in everyday dust, paper scraps, crumbs, litter, hair, and other loose debris more effectively. It is especially relevant in homes where the robot is expected to move between hard floors, area rugs, and carpets in a single cleaning run. Rather than treating suction as only a number, Vormax™ Suction represents the broader pickup story: strong airflow, better debris removal, and more reliable cleaning across mixed surfaces. Why does Vormax™ Suction matter? A robot vacuum does more than move through a room. It has to collect what it reaches. That is where suction becomes essential. On hard floors, stronger suction helps pull in fine dust, powdery debris, and small crumbs before they scatter. In kitchens, dining areas, and entryways, this can make a visible difference in day-to-day maintenance cleaning. In pet homes, stronger suction helps move fur, tracked litter, kibble fragments, and other loose messes into the intake path more effectively. Cleaning rugs and carpets poses greater challenges, as debris sinks deeper into fiber gaps compared with sealed hard floors. Dust, hair, and crumbs easily settle within fibers, raising pickup difficulty. Vormax™ Suction is designed to support stronger debris removal in those situations, especially when combined with the right brush system and floor response. In other words, Vormax™ Suction matters because pickup performance is not just about reaching an area. It is about cleaning it well once the robot gets there. How does Vormax™ Suction work? At a high level, Vormax™ Suction works by generating strong airflow through the vacuum system so debris can be lifted from the floor and pulled into the intake path more efficiently. Here is the mechanism in simple terms. 1. The system generates strong airflow Like other vacuum systems, Vormax™ Suction relies on airflow and pressure difference to pull air inward through the cleaning path. As air moves through the intake, it helps lift loose debris off the floor and guide it into the dust collection system. 2. Suction works together with the brush system A robot vacuum does not rely on suction alone. Side brushes and main brushes help move dust and debris into the cleaning path.Vormax™ Suction then helps pull that material inward more effectively, which is especially useful for small particles, hair, and mixed everyday messes. 3. Stronger pickup supports more surface types On hard floors, Vormax™ Suction helps with fine dust, crumbs, and gritty debris. On rugs and carpets, it helps lift messes that sit deeper in the surface. This is why strong suction is especially important in homes with mixed flooring rather than a single floor type throughout. 4. Cleaning performance stays connected to the full system Suction is a core part of performance, but not the only part. Real-world cleaning also depends on brush design, floor contact, navigation, obstacle handling, and how the robot adapts to different parts of the home. That is why Vormax™ Suction is most meaningful when understood as part of a complete Dreame robot vacuum system rather than as an isolated number. Where does Vormax™ Suction help most? Vormax™ Suction is most useful in homes where the robot vacuum needs to handle more than one kind of mess or more than one kind of floor. Daily hard-floor cleaning In living rooms, hallways, kitchens, and entry areas, fine dust and crumbs build up quickly. Strong suction helps pull in loose debris before it gets spread around by foot traffic. Pet hair and everyday debris Pet homes often combine fur, litter, dust, and food fragments in the same space.Vormax™ Suction helps improve pickup of that loose debris, especially when paired with features built for hair management and brush performance. Rugs and carpets Carpets create a tougher pickup environment because debris settles between fibers. Strong suction helps support deeper removal of dust, hair, and crumbs from those surfaces. High-frequency maintenance cleaning A robot vacuum is often used for regular upkeep, not just occasional deep cleaning.Vormax™ Suction supports that maintenance role by helping the robot collect debris consistently across repeated cleaning sessions. How does Vormax™ Suction fit into the full Dreame cleaning experience? On Dreame robot vacuums, Vormax™ Suction works as part of a broader cleaning system rather than standing on its own. For example, the Dreame X60 Max Ultra Complete Robot Vacuum combines 35,000Pa Vormax™ Suction with features such as a 3.13in (7.95cm) slim design for under-furniture cleaning, recognition of 280+ object types for obstacle avoidance, proactive light for darker areas, obstacle crossing up to 3.47in (8.8cm), and 212°F (100°C) mop self-cleaning for dissolving grime and grease more effectively. The Dreame L60 Pro Ultra Robot Vacuum also shows how suction fits into a full-system cleaning approach. It pairs advanced pickup with 104°F (40°C) hot-water mopping, ProLeap™ robotic legs that cross obstacles up to 3.47in (8.8cm), liftable LiDAR navigation for 3.5in (8.9cm) low-profile cleaning, detection of 280+ object types, and an extendable mop and side brush for corner-to-crevice cleaning. This matters because users do not experience suction in isolation. They experience it as part of the total cleaning result: how well the robot reaches a space, avoids clutter, adapts to surfaces, and removes debris once it gets there. Suction Application Across Dreame Product Categories That same system mindset also helps explain why suction is discussed differently across categories. In wet dry vacuums, for example, suction remains central, but it works alongside different cleaning structures and thermal or drying systems. The Dreame Aero Pro Wet Dry Vacuum combines 25,000 Pa powerful suction with an ultra-slim 3.88in (9.86cm) design, TangleCut™ 2.0 technology, up to 60-minute runtime, 194°F (90°C) hot self-cleaning, and 203°F (95°C) flash drying in 5 minutes. The Dreame H15 Pro CarpetFlex Wet Dry Vacuum combines 23,000Pa powerful suction with hard floor and carpet cleaning, SmoothGlide multi-surface handling, TangleCut™ 2.0 Resilient Scraper, up to 60-minute runtime, MistLock dust control, and 194°F (90°C)quiet full-path drying. So whileVormax™ Suction is the robot vacuum technology term, it belongs to a broader Dreame approach: pairing strong cleaning power with intelligent systems that help that power work more effectively in real homes. Which Dreame products feature Vormax™ Suction? Vormax™ Suction is featured on select Dreame robot vacuums. Because product availability, specifications, and feature combinations can vary by model, region, and launch cycle, the best way to confirm whether a current Dreame product includes Vormax™ Suction is to check the latest product page and specifications directly on the Dreame website. When reviewing live specs, it also helps to look at Vormax™ Suction in context with other technologies on the same model, such as navigation, edge cleaning, obstacle crossing, dock functions, and brush design. That gives a clearer picture of how the full cleaning system is built for different homes and cleaning needs. Conclusion Vormax™ Suction is Dreame’s high-performance suction technology for robot vacuums. It is designed to support stronger debris pickup across everyday messes, from dust and crumbs on hard floors to hair and embedded debris on rugs and carpets. The simplest way to understand Vormax™ Suction is to see it as part of the complete Dreame cleaning system: strong airflow, practical pickup benefits, and better support for mixed-surface homes. To explore where Vormax™ Suction appears today, check the latest Dreame robot vacuum product specifications and compare how each model combines suction with navigation, edge cleaning, obstacle handling, and self-cleaning technologies.