The present invention pertains generally to apparatus and methods for cleaning facades of high rising buildings.
The number of buildings with large glass or flat façades is increasing all over the World. These façades must be periodically cleaned using manual cleaning which is the conventional method today to clean external surface of high rising building.
Cleaning windows on high-rise buildings is both difficult and expensive. Workers utilize the Building Maintenance Unit (BMU) to reach the façade. While the cradle of BMU is moving in front of building's windows, the workers spray water and/or cleaning detergent on window then wipe it with sponge. This procedure has high risk for the workers and takes weeks to clean the facades of a single high rise structure. The workers sometimes have to perform their work under intense conditions leading risking injury. The method is also messy in operation and is highly sensitive to the weather condition. After cleaning one high rise structure the workers need to move to other side of the building with the equipment making it a laborious and time consuming process.
Apart from the high cost and time for cleaning, another disadvantage of current systems is that windows can only be cleaned in longer intervals, and it is not cost effective to wash individual sections of the building even if the need persists. Also as the façade workers are not always a part of Building Maintenance, important information could be seen or leaked during the cleaning process.
Though a few automated or semi-automatic applications exist for cleaning buildings in the market, but have failed due to reasons like; a weak safety concept, poor cleaning quality, requiring additional construction to the façade, expensive initial or operating costs, unable to avoid obstacles such as an open window or minor structural protrusion. Even though some methods have been successful to some extent but are applicable only to a particular building.
Accordingly, a need exists for a window cleaning system that can be operated autonomously and which can be utilized for performing overall periodic cleaning or performing cleaning on an as needed basis. The present invention overcomes the weaknesses of existing systems by simple designing of the machine to clean wide range of high rise building of glass or flat façades.
An automated façade cleaning system is described that is particularly well-suited for washing the exterior surfaces or glass windows on high-rise buildings. The system can be configured for semi-automatic cleaning, or for fully automated remote cleaning operations. Although the bulk of the description herein describes a fully automated system, it will be appreciated that the invention may be implemented without one or more of the inventive aspects described and may thereby require manual intervention when so implemented.
The invented machine is a block of equipments and components referred to as the Main unit which can be attached to the existing BMU. The unit requires electric power supply that may be provided through electric power cable either from the roof of the building or ground underneath it.
In an aspect of the present invention the main unit lifting and lowering is provided by the existing hoist of BMU that is located on the roof part of system, however on some BMU systems the hoist unit is installed on a cradle, therefore the main unit of the invented machine has an optional winch device which can be integrated to the unit and shall provide the desired up & down movement.
While the main unit is vertically moving on front of the façade, the surface is cleaned by being wiped by a micro fabric sheet that is rolling on a spongy roller extended from the main unit through supported arms.
In an aspect of the present invention thrust providing equipment generates air flow that may provide the necessary pushing force towards the window, thereby keeping the spongy roller and the micro fabric in contact with the surface.
The fabric sheet then enters a Laundry Chamber where it gets sprayed by high pressure water and/or cleaning solution from nozzles that are directed into fabric sheet to remove the particles. Afterwards the sheet is run between two or more rollers that are pressed against each other squeezing most of the water out from it.
In an aspect of the present invention a tray collects all sprayed and squeezed water and a small pump sends the sprayed and squeezed water to a filtration unit to remove dust, dirt, sand and other particles. The purified water is then sent back to a water reservation tank.
In an aspect of the present invention the water in the tank may be optionally heated by an electrical water heater.
An aspect of the present invention is the ability to accomplish the cleaning task for different types of towers and skyscrapers depending on its construction of the external surface.
Another aspect of the present invention is to allow installing the fully automated façade cleaning system without the need of structural changes to the building.
Another aspect of the present invention is the reduced time of performing the façade cleaning tasks in comparison with the conventional methods and also lower consumption of water for the façade cleaning process.
Since the present invention eliminates direct human interference for façade cleaning it is safer, more reliable and can be operated on a wide range of weather conditions.
Yet another aspect of the present invention is its environmental friendly nature and cost effective solution over the conventional methods without degradation of the cleaning quality.
Further aspect and advantages of the invention will be brought out in the following portions of the specification, wherein the detailed description is for the purpose of fully disclosing preferred embodiments of the invention without placing limitations thereon.
Further features and advantages of the present invention will become apparent from the following detailed description, taken in combination with the appended drawings, in which:
Referring more specifically to the drawings for illustrative purposes, the present invention is embodied in the method generally described as shown in
The scope of the invention will be pointed out in the appended claims. Furthermore, aspects of the invention may be implemented separately or in various combinations without departing from the teachings of the present invention. Specific embodiments are typically shown having a given set of features for the sake of clarity; however, it will be appreciated that the invention may be implemented with more or fewer aspects without departing from the present invention. Few aspects of the invention may also be replaced by mechanical means without departing from the scope of the present invention.
As shown in
Thus the thrust provider helps the machine to cling on to the surface to be cleaned and a cloth fabric sheet cleans the facades/surface.
Once the machine nears the façade a pushing force is required by the machine against the façade.
After the initial cleaning of façade the fabric sheet runs in between the squeezing rollers 15 that are pressed against each other squeezing most of the water from it. The cycle of cleaning the façade and squeezing out the water from it is continuance. One of the rollers may be rotated by the electrical motor 60 attached to gearbox to provide the movement and pulling force for the sheet.
Underneath the squeezing rollers and the sprayed water area is tray 70, which collects the water and sends it to the filtration unit 45. The water is then sent back to the reservation tank 50 where water is store to be reused. In an embodiment of the invention a smaller water pump 43 may be used to discharge the water in to the filtration unit 45 collected by the tray 70.
In an embodiment of the present invention, the water in the tank is optionally heated by an electrical water heater 52. The water is then sent to the high pressure discharge pump 55 which pumps the water through a high pressure hose 57 to the nozzles 4 and discharges pressurized water 2 it onto the fabric sheet 28.
The roller 20 is attached to the end of the extended arms 30 that are connected to the main unit. In an embodiment of the present invention, the roller may be a spongy roller. The spongy roller is to offer cushion contact with façade surface and improve on the cleaning coverage by being able to reach into corners. The arms on the other end are fixed to the main unit frame with a retractable mechanism.
In an embodiment of the present invention, the arms are attached to force resistant shock absorbers to dump the arms movement and apply a specific force against the façade. The main functions of the arms are; firstly, allowing the machine to avoid obstacles like an open window or a minor structural outcrop while continuing to perform the cleaning job; secondly, providing controllable mechanism for the pushing force against façade.