- 1 Passport characteristics, package and price
- 2 iClebo Omega – price. Where is the best place to buy?
- 3 Appearance of iClebo Omega
- 4 Comparison of iCLEBO Omega with iCLEBO Arte
- 5 ICLEBO Omega and iCLEBO Arte functional comparison
- 6 Testing
- 7 iClebo Omega – Cleaning in a real house, video
- 8 Conclusions about iClebo Omega
The manufacturer lures the buyer with the following words: “iClebo Omega is a model of the new generation of Yujin Robot. It combines unrivaled power, improved navigation algorithms, deep corner cleaning technology and great design.”
Passport characteristics, package and price
|The name of the model / series||iClebo Omega White|
|Kinematic system||Two driving wheels and a fixed support roller|
|Dust collection method||Inertial movement and vacuum filtration|
|Dust Collector||One Office|
|Main brush||One with blades|
|Optional||Wiping tip with microfibre cloth|
|Cleaning modes||Automatic with navigation, maximum with navigation, local, manual, daily timer cleaning|
|Speed of movement||35 cm / s|
|Noise level||68 dB|
|Obstacle sensors||Mechanical front / side bumper, proximity and height difference sensors|
|Orientation sensors||Infrared sensors for searching the base, top camera, gyro, rotation sensor for the reference roller, etc.|
|Body Control||Touch Buttons|
|Remote Control||IR Remote Control|
|Notification||LED indication and beeps|
|Battery life||80 min. (60 minutes with increased fan power)|
|Charging time||180 min|
|Charging method||On the charging base with automatic return or from the power supply|
|Power Supply||Rechargeable Li-ion Battery, 14.4V, 4400mAh|
|Dimensions (W x D x H)||34 × 35 × 8.7 <n|
|Features||HEPA filter E11, garbage detection sensor, obstacle clearance mode up to 15 mm, map creation and selection of the optimal cleaning route, magnetic Motion limiter, brushless fan motor|
iClebo Omega – price. Where is the best place to buy?
The recommended retail price for the iClebo Omega in the US is $ 599,99. At this cost, you can order it on Amazon. Plus Shipping, so the total cost of iClebo Omega when ordering on Amazon will be about $ 620,00. I would not recommend ordering anywhere else except on Amazon. Since you are less likely to find cheaper, and if you do not take into account the fact that Amazon is probably the most reliable online store, it still very often provides free shipping.
Appearance of iClebo Omega
The vacuum cleaner has the form of an ovoid that is unusual for robotic vacuum cleaners.
The broadened front shape of the body allowed the side brushes to be moved forward and to the sides. This should improve the quality of cleaning in the corners. The edges of the bottom are beveled, which helps the robot to overcome obstacles.
The transition from the sides upwards is also smoothed, but to reduce the likelihood that the vacuum cleaner will get stuck under obstacles with a small clearance, there is a low border on the top of the bumper. This protrusion is the highest part of the vacuum cleaner and, accordingly, determines the minimum clearance of the obstacle (for example, the sofa), under which the vacuum cleaner can still climb. According to our measurements, this gap is 91 mm (we will also give the obtained values of width and length – 345 and 354 mm, respectively). The upper part of the body is made of plastic with a smooth white and a relatively resistant to damage coating. The variant is not bright, and the light-colored color of the case makes it easier to search for the robot in the dark corners of the apartment when, for some reason, it does not return to the base, it is also easier for the robot to notice the lateral vision when it gets confused under the feet, which means, with less probability, To come. On the manufacturer’s website there is another version of the color design of the model with a golden bumper and dark top.
On the upper panel, closer to the front of the case is a control panel with three capacitive touch buttons, an LED segment display and mode / status icons, illuminated LEDs.
In a single block with a control panel, there is an upward-facing video camera, as well as an IR receiver of the remote control. The control panel is covered by a plate, which, judging from the ideal smoothness and absence of scratches, is made of mineral glass. The entire surface of this plate, except for the camera’s eyes and the sensor, is a semi-transparent mirror, which often makes it difficult to read the indicators because of reflected light sources. Also note that the indicator-icons of the modes in the upper row are very similar to the buttons in the bottom row, which at times slightly confuses. The lower part of the case is made of non-mark black plastic with a matte surface. The whole front half of the body is skirted by a spring-loaded bumper with a small stroke. Behind him there are optical collision sensors that react to the movement of the bumper. The bumper has a varnish covering on a silvery paint. It looks nice, but, as the tests showed, in collisions with objects, the bumper can scratch to the white base, which spoils this beauty. The front part of the bumper is closed with a tightly tinted window made of transparent plastic. Behind the window – IR sensors approaching the obstacle, determining the base and most likely duplicating reception of signals from the remote control. Under the window on the bumper is glued a narrow strip of hard rubber, which protects the furniture from scratches on contact with the robot. But, unfortunately, not all obstacles are located exactly at the height of this strip.
The cover on the top panel hides the dust bin compartment.
On the inside of the cover are descriptions of errors. On the right side, closer to the back are the power connector and the robot turn off button.
At the rear is an air outlet grille.
Turning the vacuum cleaner upside down, we see two contact areas for charging on the base, a front non-turning roller, two side brushes, a compartment with a main brush, two driving wheels on spring-loaded levers and a battery compartment cover.
There are infrared height difference sensors – these are the three pairs of emitter-receiver on the bottom in the front end close to the edge. Thanks to these sensors, the vacuum cleaner does not fall off the steps. The front sensor in this set is also used to determine the obstacle height. The front roller axis rotates in two ball bearings.
A brown disc attached to one end of the roller is part of a magnetic rotation sensor (odometer) with Hall sensors.
In the room, the robot is guided by an upper camera with an overview of 130 degrees. Also for information orientation and diagnostics, information is used from the gyro, odometer, speed sensors and hanging drive wheels. The driving wheels are located approximately on one conditional diameter of the circle, into which you can enter the body contours. Such a kinematic scheme allows the robot to make a turn in place with a minimum change in the boundaries of the area occupied by the robot. However, in this case, the axles of the wheels are at an angle to each other, which increases the load on the motors of the drives due to the inevitable lateral slip in motion. The indicated speed of the manufacturer is 35 cm / s. The stroke of the hinges at the point of the centers of the driving wheels reaches 29 mm, the diameter of the wheels is 70 mm. Therefore, the robot easily overcomes the obstacles encountered of small depth and height. It is stated that the robot can overcome obstacles (thresholds) with a height of up to 15 mm (when selecting a special mode). However, the distance from the floor to the bottom point of the bumper of the vacuum cleaner is 18 mm, which in theory slightly increases the real maximum height of the obstacle being overcome.
When cleaning, the two front brushes grab the garbage to the center, then the main brush raises it from the floor. Part of the debris in the center of the brush can be thrown into the dustbin by inertia. But the main task of moving garbage into the dust collector is assigned to the flow of air pumped by the fan through the main brush compartment, the dust collector and the filter at the dust collector outlet. By the way, in the air duct from the main brush to the dust collector an optical sensor is installed, apparently, to estimate the amount of debris in the sucked in air. Note the unusual configuration of the side brushes – five bundles of long bristles and five short beams. Bristles are relatively stiff. Tests have shown that the side brushes work efficiently and do not lose their shape for a long time. When servicing the vacuum cleaner, the side brushes are simply removed with force from the axes, no tools are needed for this. The right and left brushes differ in the direction of the bristle tufts, and the color of the bristles helps to distinguish them. Also, the landing nests exclude the wrong installation of the brushes.
The frame on the plastic snaps retains the main brush in its place. The main brush consists of six flexible petals of fine rubber fixed on a plastic shaft of relatively large diameter.
At one end of the main brush, a ball bearing is mounted in the elastic anti-vibration sleeve.
The bushing is recessed into the sleeve at the end of the brush, which, we hope, will prevent dirt and hair from entering the bearing separator. In addition, at the ends of the brush are installed felt elements, apparently to protect the rotating parts of the bearing and drive from getting debris. The brush unit is mounted on the lever hinge, so when the robot moves, the brush fits well to the floor even if it is not very even.
The body of the dust collector is made of lightly tinted transparent plastic, which allows you to evaluate its fullness by simply opening the cover on the robot.
The dust collector has a reclining handle for carrying, and accidental debris is prevented by a curtain of rigid transparent plastic fixed to the hinge at the inlet. To empty the dust bag, you must detach the filter with the yellow plastic frame. The filter is certified by HEPA E11. The filter is closed with a removable plastic mesh so that large debris does not clog it.
Elastic gaskets in the dust collector in front of the filter and in the compartment of the dust bag exclude spurious air sucking. There is no fan in the dust collector itself, so the dust collector can be washed under water, but only the body itself (and it is necessary to dry it well before installing it in place). It is forbidden to wash the HEPA filter. To clean the filter, it is recommended to use a brush from the kit and / or a normal vacuum cleaner.
For additional cleaning of smooth floors on the bottom of the main brush, you can attach a special wiper attachment, which is attached to the velcro terry cloth of microfiber (it can be moistened), completely wiping the surface.
When installing this attachment, the robot automatically selects the wet cleaning mode, in which the obstacle override mode is disabled. Thus, the maximum height of the obstacle to be overcome is reduced to 5 mm. This is done to ensure that the robot with the wiping nozzle does not call on carpets. In a set of two napkins, at least they differ in the color of the fleecy.
This robotic vacuum cleaner has a lithium-ion battery. It is assembled from 8 elements of the popular 18650 standard, manufactured by Samsung SDI with a capacity of 2200 mAh each. The user can replace the battery using only a medium-sized cross-head screwdriver.
In normal mode, the robot is charged on the base.
The case base is made of black matte plastic. In front there is a narrow window of tinted transparent plastic, behind which, apparently, are parking and repelling IR beacons.
Behind the base there is a niche where you can hide the excess cable (its length is 1.5 m) from the power adapter (the bay needs to be placed inside, and not like in the photo).
The base of the base is large in area, and three rubber platforms are glued to it from below.
The combination of these features prevents the unexpected movement of the base during vacuum cleaner maneuvers.
A small IR remote control is attached to the vacuum cleaner. Its body is made of black plastic with a matte surface. The designations of the buttons are read well.
The robot is sold packed in a not very large strictly decorated box with a plastic handle.
Additional accessories included in the scope of supply include a spare filter, a comb brush and a restrictive tape.
Warn that this vacuum cleaner should not be used in a damp room or on surfaces with spilled liquids. After contact of the vacuum cleaner with liquids, if you are lucky you will have to clear it for a long time from the adhered layer of dust, in the worst case, the vacuum cleaner can fail.
This model has four main cleaning modes:
- Automatic (Auto) – single cleaning in snake mode from obstacle to obstruction of all available area using navigation.
- Maximum (Max) – cleaning the entire available area first with a snake, as in the Auto mode, then also with a snake, but in a perpendicular direction.
- Local (Spot) – intensive cleaning of a specific place. At this point, the vacuum cleaner is either simply transferred, or sent in manual mode.
- Manual – manual motion control with the remote control, but first you need to start the robot for cleaning, otherwise it moves but does not clear.
The manufacturer claims that in the Auto and Max modes the robot can once again return to the base for recharging, if it does not clean up the entire available area on the first charge. The modifier of the harvesting modes is the option to overcome obstacles (Climb), when choosing it, the robot will try to overcome obstacles up to 15 mm in height, and if this option is not active, then the height of obstacles to be overcome is limited to 5 mm. We will remind, that at installation of a wiping nozzle the robot automatically disables option Climb. There is an option for increased fan power (Turbo), it is also stated that the vacuum cleaner automatically turns Turbo on the carpets. You can set the automatic start of cleaning in the selected mode every day at the set time.
Spatial planning of cleaning is provided with the help of a restrictive magnetic tape, which can be glued to a smooth surface (a piece of double-sided adhesive tape is attached) or hidden under a thin coating of the floor. In the delivery set there is a piece of such a tape 1 m long.
The vacuum cleaner informs about its condition with the help of LED indicator and sound signals. Unfortunately, you can not turn off the sound notification.
Comparison of iCLEBO Omega with iCLEBO Arte
|Cope with cleaning carpets, fine dust and animal hair in the room up to 75 square meters. M (or up to 150 sq. M in two cleaning cycles).||Effective on any smooth surfaces, suitable for large rooms up to 150 square meters. (Or up to 300 sq. M. In two cleaning cycles), one of the most silent robots on the market.|
|vSLAM navigation technology + NST + gyro + odometer + sensors||vSLAM navigation technology + gyro + odometer + sensors|
|Design features: two side brushes, special design for better corner cleaning, dust collector located at the top of the case, floating brush module, rubber turbo brush.||Design features: two side brushes, a round design, a dust bag located in the back of the case, a rubber scraper is used to aid the bristling turbo-brush.|
|Cleaning modes: Auto (Snake), Max (Double Snake), Local. There is also a wet floor wipe mode, the napkin is increased by about 30%.||Cleaning modes: Auto (Snake), Maximum (Snake + Chaotic), Chaotic, Local, Wet floor wipe (there is an additional squeegee sensor).|
|Sensors: Camera, optical, infrared, dust sensor, gyro, odometer, filter presence sensor, Hall sensor, mechanical (bumper, wheels and others). A total of about 35 sensors.||Sensors: Camera, infrared, gyro, odometer, Hall sensor, mechanical (bumper, wheels and others). A total of about 25 sensors.|
|Battery Li-Ion 4400 mAh. 80 minutes in Auto mode (60 minutes in Turbo mode). Charging time 180 minutes.||Battery Li-Ion 2200 mAh. 120 minutes. Charging time 110 minutes.|
|The side brushes are 10-ray rigid. Basic: Rubber V6 Blade||The side brushes are 3x-ray soft. Basic: bristled + rubber scraper|
|Noise level: 68 dB||Noise level: 55 dB|
|Комплектация: База с блоком питания для зарядки, пульт ДУ, дополнительный гофрированный HEPA-фильтр, магнитная лента-ограничитель, боковые щетки, модуль швабры с двумя салфетками из микрофибры, батарейки для пульта, щетка для очистки пылесоса, инструкция||Комплектация: База с блоком питания для зарядки, пульт ДУ, два дополнительных антибактериальных HEPA-фильтра, магнитная лента-ограничитель, боковые щетки, модуль швабры с двумя салфетками из микрофибры, батарейки для пульта,щетка для очистки пылесоса,инструкция|
The main differences are shown in the table. As you can see, in many respects the new model Omega is ahead of Arte. However, there are also weaknesses, for example, Arte will be able to work in large rooms with a cleaning area of up to 300 square meters. Meters, Omega this area can’t clear this area. Arte is quiet enough, you can comfortably watch TV while the vacuum cleaner is running. Omega is also not very loud in comparison with competitors, but talking on the phone will not be very comfortable. In general, Arte is an excellent robot, if you use it primarily on smooth floors and with short-haired pets. Omega, on the contrary, works well on carpets and easily collects the wool of long-haired animals. Here it is necessary to note that we are talking about carpets with low pile. On carpets with high nap, none of the robots on the market will work (or it will be useless to skid over it). There is a younger model in the line – iCLEBO Pop. It does not have a technology for building a map of the room, so this model is suitable for small apartments, up to 60 square meters. In such apartments for 2 hours of operation, the vacuum cleaner will most likely be able to remove all available space.
ICLEBO Omega and iCLEBO Arte functional comparison
The iClebo Arte robot cleaner can operate in five modes: automatic (snake), maximum (snake plus chaotic movement), local, chaotic movement, and wet cleaning. In automatic mode, the robot cleans the entire available surface in the territory, moving from one obstacle to another. At maximum mode, debris removal is also carried out over the entire area to the full discharge of the battery. Local mode is used to clear a pre-defined area of the room. If you use chaotic movement, the robot moves along an arbitrary route, but its working time is limited in advance. When installing a tray for a special microfiber nozzle, the robot automatically switches to wet cleaning.
IClebo Omega has fewer modes of operation than Arte. There are only three modes of operation: auto-mode, maximum and local. In local mode, the robotic vacuum cleaner rotates in a circle, or spirally, capturing a small area of the surface. Due to this, it is able to cleanse not too large most polluted places. In automatic mode, the vacuum cleaner selects the route of travel itself, moving with a snake. A distinctive feature of this function is that the robot cleaner remembers the location of the base. After cleaning the apartment, the vacuum cleaner moves to the base for charging. In maximum mode, the robot vacuum cleaner moves first along parallel lines, and then along perpendicular lines. Therefore, this mode is called a “double snake”.
Both robotic vacuum cleaners have a special cloth for wiping the floor. However, compared to Arta, Omega is able to perform wet cleaning in addition to any of the three modes. At model Omega lateral brushes rigid and have ten beams, the main brush is executed from rubber. In comparison with Omega, in Arte the side brushes are soft, three-beam, the main brush bristles, and also there is a rubber scraper.
You do not know what is the best choice for cleaning carpets? We recommend the robotic vacuum cleaner iCLEBO Omega. For smooth surfaces iCLEBO Arte is the best choice. It’s important to note that both robotic vacuum cleaners are ineffective in cleaning carpets with high pile.
There is one conclusion, summing up a comparison of what kind of vacuum cleaner is better for choosing at home: all individually and depends on the requirements of the buyer for the vacuum cleaner. Each of the presented robotic vacuum cleaners has its own peculiarities. For example, iClebo Arte has excellent cross-country ability and overcoming thresholds, low noise level, significant cleaning area. And Omega allows you to achieve better results when cleaning carpet in small rooms. At the same time, it better removes the wool of pets, which, when suctioned, is not wound on the main brush.
Methodology of testing
To test robotic vacuum cleaners in an office space, a space of 3 × 3 m is enclosed by means of improvised tools (boxes, an inverted table, columns on the side, etc.). The floor covering of this arena is a black carpet with a dense loop-like pile, which is some intermediate variant between a long carpet and a smooth surface. Imitation of possible obstacles is a computer case of typical dimensions, a cylinder and a tight breech depth of 60 cm and a width of 5 cm more than the body of the vacuum cleaner in the widest place. The cylinder serves as some imitation of a small obstacle such as a table leg or a sofa, around which you need to remove the debris.
We did not create obstacles simulating thresholds, since there are no such concepts as the standard threshold height and the shape of its profile. In this case, the use of a threshold with adjustable height or a set of different thresholds in order to, for example, determine the maximum height of the threshold that a vacuum cleaner can overcome would lead to an unjustified complication of the tests. Approximately in the center of one of the walls is a charging base with a vacuum cleaner on it. The scheme below shows all geometric parameters.
The boundaries of objects and arenas are indicated by thick black lines, gray areas are painted over the areas inaccessible to the vacuum cleaner.
As a simulation of garbage, we chose long grain polished rice.
The results of our testing
|Mode||Cleaning time *, mm: ss||Cleared,%|
|* From the beginning of the cleaning to the arrival at the base.|
Tests have shown that in the Auto mode, the cleaning area of the robot once passes a snake with minimal overlap and in the most rational way possible. In Max mode, the first half of the cleaning is the same as in the Auto mode, and then the second half of the cleaning is performed from the base, but the direction of the snake is already perpendicular to the direction in the first part. The robot definitely builds and uses a map of the surface to be cleaned, this can be seen from the route of movement – it removes the surface as much as possible only once and purposely moves to the place that it has not yet removed. Такое поведение было бы невозможно осуществить без карты. During harvesting, the robot treats very carefully with the charging base, approaches it close, but does not run into it, does not push it and does not move it from the spot. The robot readily climbs into a narrow paddock (50 mm wider than the width of the robot) and carefully removes it there. Between high vertical and well-reflecting IR-rays walls and the robot body, there is usually a gap of only about 1 cm, whereas to low, inclined (for example, skirting) or to very dark walls, the robot drives up to physical contact – before the bumper sensors operate. The result of this behavior is that not only in the given area, but also in the enclosure, along the walls and near the base, very little untreated garbage remains. IClebo Omega removes test garbage faster and better than all robotic vacuum cleaners that have been before us in testing. After a single start in Auto + Turbo mode:
And after successive work, first in Auto mode, then in Max mode (98.9% of rice is removed).
Under the conditions of our experiment, the inclusion of increased fan power (Turbo) did not lead to an increase in the quality of cleaning. But even with Turbo turned off, the fan still turned on periodically to maximum power, apparently the robot believed that it was cleaning up the carpet, which was partly true.
In addition, full-scale tests were carried out. For this purpose, a section of several premises with a total area of approximately 160 m² (without taking into account that it occupies furniture, etc.) was fenced in an office and relatively clean compartment. The first few minutes revealed the problem – the robot very badly crossed the sill (in some cases, with slightly protruding heads of screws), he was constantly clinging to the bottom for them. Closer to the end (the indicator showed low battery power) of the first cycle, the robot caught on one of the flaps, in an attempt to overcome the obstacle, hung out the wheel and stopped working with the C1 error. The investigation revealed that the robot was clinging to the pins with a rigid scraper of the main brush block frame. Clung so that the frame scraper partially broke away, but without breaking the latches.
The scraper was snapped back, but to continue the test, the frame and the main brush were removed. Thus, the purpose of the test was only to find out how the robot is oriented in a complex situation. At the same time, the available space was reduced to 110 m², that is how much according to our estimation the robot can remove batteries on one charge. The layout of the room is shown below. On it colored rectangles marked the available room robot and a red circle marked the location of the base.
During the second test, the robot removed virtually all available space from the snake, but without additional cleaning in places where the snake did not capture small areas of the floor.The robot cleaned for 70 minutes (remember that this is without the main brush, that is, with a slightly lower consumption). Note that in this test, the increased power of the fan was forced (Turbo mode). According to the manufacturer, the robot cleans approximately 1 m² per minute and runs from 60 to 80 minutes. That is, taking into account the intermediate charging, the robot can remove 120-160 m². These data are consistent with the results of our tests, we recall that of the 110 m² we have to subtract a significant area occupied by furniture and equipment. After completing the first cleaning cycle, the robot went to recharge, and at first slightly missed the doorway when leaving the room, for a couple of minutes safely reached the base station. The flashing time on the robot’s display indicated that after the charging it had to perform the second cycle and remove the remaining area, but we did not wait for the charging to finish and continue the cleaning.
The first test, which still with the main brush, made it possible to understand how typical household rubbish is collected. The side brushes tightly wound the hair and threads, but also easily cleaned with fingers without tools.
The main brush is not wound up, this is the main advantage of a brush without pile. The garbage in the dustbin was slightly tamped to the filter, which indirectly indicates a high suction power. ПUnder the mesh filter penetrated a bit rubbish, but it was easily removed using a conventional vacuum cleaner. Despite the filter frame, debris easily left the interior of the dust bag when shaking out.
In the local cleaning mode (Spot), the robot on the unfolding and then collapsing spiral clears in a circle with a diameter of more than 2 m, which from our point of view is too much for local cleaning.
Testing using a restrictive tape showed that it really does not allow the robot to cross it. But if you just put it on the floor, then the robot with a high probability will hit it with the edge and move it. Therefore, as the manufacturer recommends, the tape should be glued to the floor or laid under a thin floor covering – under the carpet, the tape can not be noticed by the robot.
The robot is expected to rustle louder in the mode with a higher power fan (Turbo):
|Mode||Noise level, dBA|
The robot vacuum cleaner is relatively loud, the nature of the noise delivers a certain discomfort. The main contribution is made by the tap of the main brush on the floor and howls of the fan, which is amplified when the Turbo is turned on. The situation is exacerbated by the fact that the housing clearly acts as a resonator, translating vibrations into sound. Also at the main brush the blades are straight, not twisted, so each blade strikes the floor immediately along the entire length.
While charging the vacuum cleaner on the base, the consumption from the mains reaches 40 W. To fully charge a discharged battery, it is sufficient for the robot to perform about 2 hours and 40 minutes on the base. If the vacuum cleaner is on, charged and is on the base, then 0.45 W is consumed from the network, with a periodic short-term increase to 17 W, apparently to restore the battery charge. If the vacuum cleaner is removed from the base, the consumption will drop to 0.3 W – so much the base and the power unit consume.
iClebo Omega – Cleaning in a real house, video
No description of the possibilities of such a device as a robot vacuum cleaner can replace real living impressions of use, and therefore we will not separate even an interesting, but only a theory from priceless practice, and immediately proceed to verify the existing programs in the arsenal of work programs in the matter . But we still advise the user to get acquainted with the instruction manual. Firstly, it is very well designed and written in the language of localization, without any “Chinese” in its different forms, and secondly, if you do not read the instructions, it will be difficult to understand the purpose of the operating modes of the vacuum cleaner.
We remind you that the vacuum cleaner has only three modes of operation. In the basic automatic harvesting mode, the robot moves around the room with a snake or close to the trajectory computed when drawing a map of this room. At the first use it is better to start this mode of operation and try to remove from the floor all things that usually lie elsewhere. In other words, the socks scattered around the floor can not only damage the vacuum cleaner itself, but also prevent the drawing up of an accurate map for subsequent cleaning. You need to be prepared for the fact that the vacuum cleaner will do the first cleaning long enough, making a map of the room with the help of the upper chamber and checking for any obstacles. It does not always, but often enough. However, neatness does not take it, so you will not see scratches on a family chest of drawers made of mahogany. As for crystal dishes, it is not recommended to store it on the floor without any robots – it will be safer on the shelf.
It is better to turn on the vacuum cleaner not somewhere in the center of the room or the depths of the corridor, but on the charging station placed next to the wall. Around the station, you will have to make a half-circle with a radius of about half a meter for the robot’s parking maneuvers. If the device is turned on far from the charging station, after cleaning the room it will return to the start point, not the charging station.
The robot can try well-fitting furniture with its damper bumper, but in most cases it does not reach it about a centimeter and turns. At the same time protruding far beyond the dimensions of the rotor brushes still reach out even to those places where a normal vacuum cleaner would cope with work only with the help of a special narrow nozzle. In this situation iClebo Omega even wins. It’s only in a narrow gap between the sofa and the wall that the robot, of course, can not fit. He can get confused and in the numerous legs of chairs pushed under the table, so it is better to prepare the territory for cleaning in advance.
The device is very interesting with the objects scattered around the room. Depending on the severity and size of these items, the vacuum cleaner can move them or go around, but sometimes it comes quite unexpectedly. So, a large children’s house made of cloth with a wire frame and a horizontal cylindrical hole, the robot flatly refused to perceive it as an immovable construction and began to struggle with it, pushing it aside. Finally buried in the fabric folds, he unexpectedly left for us and, as if nothing had happened, went further to vacuum the room. So you have to clean up the room before cleaning.
Another advantage of the robot iClebo Omega in front of a conventional vacuum cleaner is that the thin enough body of the device allows it to climb under the sofas, beds, open kitchen sets and other furniture on low legs. It also overcomes obstacles with surprising agility. To do this, you must connect the threshold crossing mode. Note that in the washing mode of the floors this mode does not turn on, as the mop prevents obstacles from overcoming. We tested these abilities of the robot with both the switched off and the threshold override enabled. In the first case iClebo Omega easily, though not without deliberation overcome small obstacles in the form of lower thresholds, but refuses to pass any obstacle higher than five millimeters.
With the included mode of overcoming the thresholds of the vacuum cleaner, an obstacle easily passed in the form of floor scales about one centimeter high, without even noticing it. But the high thresholds in the bathroom or toilet the robot were too tough. However, this is even for the better.
Door rug has become a much more serious obstacle for iClebo Omega. The vacuum cleaner has overcome it only with the second attempt. At the first call, the rug unsuccessfully got under the wheels of the robot, which perceived it as an insurmountable obstacle and hurried to change the trajectory of the movement. But for the second time the automatic cleaner quite easily entered this floor covering and cleaned it perfectly.
Despite some drawbacks associated with the logic of the process, the cleaning of the room itself with the help of iClebo Omega causes only pleasant feelings. First, the above vacuum cleaner attempts to avoid repeated mistakes. Secondly, the quality of cleaning we pleasantly surprised. The vacuum cleaner removes garbage completely from the surface of carpets or smooth floor coverings. If somewhere he misses something, then only in such remote corners, where his rotor brushes simply do not reach. If you need to clean at a particular point (for example, you spilled flour in the center of the kitchen), you just need to bring the vacuum cleaner there with the remote control (or bring it there with your hands) and activate the Spot mode. In this mode, the vacuum cleaner starts to move in a spiral, starting from the center outwards, and then back.
Well, the last mode of operation, called the manufacturer’s maximum, makes iClebo Omega perform a sequential cleaning of the room, building its snake first in one direction, and then unfolding it by 90 degrees. After that, the robot returns to the base for recharging. If necessary, you can connect Turbo mode for the most effective cleaning, in which the suction power reaches the limit value. If this function is enabled, the battery life decreases. In the normal mode of operation iClebo Omega is able to recharge for about an hour without charging, and in Turbo mode this time goes down to fifty minutes. This is quite enough for cleaning a two- or even three-room apartment.
But there were some unpleasant features. For the high quality of cleaning the owner of iClebo Omega will have to pay the need to listen to a rather unpleasant noise, quite comparable to the noise that a normal vacuum cleaner emits. And if you use the latter to clean one-room apartment you will be ten minutes – no more, then the robot in pursuit of uncompromising quality of cleaning can explore the same room for an hour. Unpleasant, but there is a solution. An excellent solution is not to hear the noise of cleaning, forcing the device to work at a time when you simply do not have a home. To do this, the device is equipped with a timer, which is set with the remote control and display on the body of the vacuum cleaner. There is a small risk that the vacuum cleaner can not cope by chewing some object, or it will get stuck on a high threshold, but all this can be prevented by not scattering things around the corners and beforehand giving the robot a detailed map of your room.
Concluding the conversation about the quality and nuances of cleaning the room with iClebo Omega, you can not say a few words about cleaning it yourself. With rubbing with a soft damp cloth of his body, questions are unlikely to arise. Cleaning the brushes is a slightly more complicated operation that will need to be done after each cleaning. Even after cleaning, it would seem, an ideally clean room on the rotor brushes are winding the hair from the unknown where it came from, and garbage appears in the container and on the HEPA filter. But the short air path of the vacuum cleaner is not clogged, and with regular cleaning of other elements of the vacuum cleaner in general it is unlikely to clog.
An exception can only become foreign objects in the body of the device in the form of napkins, small papers, rags or other similar things. Without becoming very hard to torment the robot, we fed him a regular napkin. Stuck in the main brush, it never got into the garbage container. A typical vacuum cleaner would most likely swallow this napkin without even noticing it. But iClebo Omega cross-section of the air path is very small, and therefore even harmless at first glance, paper can block the normal operation of the device.
In general, the robot vacuum cleaner iClebo Omega copes with its basic functions for one hundred percent. It qualitatively cleans the floor of dirt and dust and at the same time does not make mistakes that require human intervention in the cleaning process. The latter circumstance allows us to call it a full-fledged robot, and not a semi-automaton with a not very developed algorithm of operation. The software component in this model is as well thought out and executed, as far as the hardware component.
Conclusions about iClebo Omega
We really liked the work of the iClebo Omega vacuum cleaner. It qualitatively produces cleaning and does not leave a speck of dust in the entire reach zone. But he does it not quickly, not quietly and can not reach all the corners and slots available to the various narrow nozzles of a conventional vacuum cleaner. The conclusion suggests itself: the model iClebo Omega is an ideal cleaner for every day, which will cope with any kind of pollution available for cleaning a conventional vacuum cleaner. But due to the fact that the robot can not physically clean the narrow cracks, it is hardly worth hurrying to give up the usual vacuum cleaner. It will also be needed for cleaning the elements of the robot itself – its filters, the air duct of the garbage container.
The robotic vacuum cleaner iClebo Omega cleans quickly and qualitatively. This result is achieved by the two side brushes, an effective, lint-free main brush, high suction power and navigation, which are moved forward and to the sides, thanks to which the robot travels less often to already cleaned places and does not leave unharvested areas in the available area.
Among the shortcomings can be noted only an insufficiently large volume of the garbage container and a fast clogging of the HEPA filter. Before the filter it would be nice to see some kind of grid or intermediate filter. As for the cost, the $ 600 you need to pay for iClebo Omega is a very competitive price, for which you get a really workable household appliance, not a handicraft with toy functions. It is for sure that this robot is worth its money.
In conclusion of our review, I would like to note that over the past few years, robotic vacuum cleaners have become as useful a household appliance as a washing or dishwasher. In many respects, they no longer only compete with conventional manual vacuum cleaners, but also outstrip them, and the hero of our current review in this regard is no exception. Well, those who still consider robots as vacuum cleaners a toy or an excess and will argue that it is not difficult to spend 10-20 minutes on daily cleaning in an apartment, I would like to recommend to refuse a vacuum cleaner altogether and take a broom in which, with due Effort and zeal can clean the apartment is guaranteed better than any modern vacuum cleaner, whose brushes will not go to every niche or crevice. Yes, and wash the retrograde, too, relies solely hands.
IClebo Omega advantages:
- High quality cleaning
- Orientation and rational route system
- Convenient dust container
- Interesting design
- HEPA E11 Filter
- Two side brushes
- Lint-free basic brush
- The possibility of installing the wiper nozzle
- Daily cleaning at a specified time
- Limiting traffic with tape
- A stable base
- There is a remote control
IClebo Omega deficiencies:
- High noise
- A rigid scraper clings to the pins