| Flexible pickup lips for use with fixed vacuum shoes on self-contained and propelled carpet cleaning equipment -> Monitor Keywords |
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Flexible pickup lips for use with fixed vacuum shoes on self-contained and propelled carpet cleaning equipmentRelated Patent Categories: Brushing, Scrubbing, And General Cleaning, Machines, With Air Blast Or Suction, Power Propelled Vehicle Or CarrierFlexible pickup lips for use with fixed vacuum shoes on self-contained and propelled carpet cleaning equipment description/claimsThe Patent Description & Claims data below is from USPTO Patent Application 20070240276, Flexible pickup lips for use with fixed vacuum shoes on self-contained and propelled carpet cleaning equipment. Brief Patent Description - Full Patent Description - Patent Application Claims
FIELD OF INVENTION [0001] The present invention is directed toward self-contained and propelled cleaning equipment and devices, and focuses upon a vacuum shoe and/or shoe attachment is provided that improves the cleaning ability and overall functionality of the cleaning machine. BACKGROUND OF THE INVENTION [0002] Cleaning machines are used extensively for cleaning flooring surfaces comprised of carpets and other soft floor surfaces. Maintaining the cleanliness of these surfaces, especially in high-volume areas, in commercial, industrial, institutional, and public buildings is an on-going and time consuming process. There are several different mechanisms that can be employed to clean such surfaces. [0003] One such example would be self-propelled walk-behind devices, i.e., vacuums or self-cleaning carpet machines. These apparatus typically have a scrub deck followed by a vacuum shoe. The vacuum shoe has the ability to follow the path of the scrub deck as the machine changes direction. This type of equipment is generally more efficient in cleaning large surface areas than conventional hand-cleaning techniques. Also, walk-behind machines can be equipped with relatively wide vacuum pickups. These characteristics limit the machines ability to maneuver and further limit the doorway that the machine can pass through. Typical three-foot doorways allow a machine with no more than a 33'' squeegee or vacuum shoe to fit through without removal. [0004] Another example would be self-propelled ride-on cleaning devices. Such devices are generally well-known in the field and are employed to treat large floor surfaces, such carpeted floors found in hospitals, department stores, schools, gyms, etc. These devices generally provide the operator with seating from which he/she can control operation of the device. These devices are ideal for cleaning large open areas because they are capable of containing large amounts of cleaning and waste fluids and/or debris without having to repeatedly perform time-consuming fluid replacement or removal. Moreover, because these devices provide the user with seating, the user does not become prematurely fatigued, increasing overall worker productivity. [0005] Unfortunately, these previously mentioned types of cleaning devices have drawbacks. For example, they are not as efficient as possible. The drag created by the vacuum shoe is often excessive, mainly due to the weight of the machine, the amount of pressure required to maintain a vacuum seal to the floor, and drag characteristics of the componentry that actually contacts the surface to be cleaned. Additionally, typical vacuum shoes tend to vibrate at higher cleaning speeds. This additional vibration may lead to more mechanical failures through the life of the machine. Heavy equipment, such as ride-on cleaners, also tend to roll the carpet forward during cleaning, which is undesirable because if the carpet is pushed in the same direction a number of times and rolled forward in that same direction, the carpet in that area may become irreversibly ruined. [0006] An example of a prior-art vacuum shoe used on a walk-behind or ride-on cleaning machine can be seen with reference to FIG. 1. The vacuum shoe 100 comprises a shoe housing 102, a vacuum chamber 104, an opening to the vacuum chamber 106, and a hose 108. The hose is fluidically connected to the vacuum chamber and a preferably air-tight seal is maintained between the shoe housing 102 and the hose 108. Negative pressure is applied, for example, by a vacuum motor connected at the opposite end of hose 108, thereby creating a vacuum pressure within the vacuum chamber 104, creating suction at the opening 106 of the vacuum shoe 100. The suction enables dirt, water and other debris to be lifted up off of the surface. A major drawback to the vacuum shoe design shown in FIG. 1, however, is that the housing 102 intersects the floor surface abruptly, and typically is made with a material that is not specifically designed to effortlessly glide over wet carpeting, etc. Thus, as the vacuum shoe 100 is moved forward and backwards in the direction of the depicted arrows 109, excessive drag forces are created on the vacuum shoe 100, resulting in undesired efficiency losses. These efficiency losses contribute to both slower overall cleaning of a surface, as well as, increased power usage by the cleaning machine. [0007] Additionally, when vacuum shoes 100 of the prior art are used, the vacuum shoe opening 106 has to be large enough to mitigate clogging of the vacuum inlet. If the vacuum shoe is too small, then the chance of having particles become trapped in the vacuum shoe opening 106 increase. As the vacuum shoe opening 106 becomes larger, more vacuum pressure is required to create enough suction to lift debris from the surface to be cleaned. If more suction is required, then a larger vacuum motor may be required, which further increases the weight of the cleaning machine. Indeed, more power will also be required to operate the cleaning machine effectively. Moreover, in the event that a smaller vacuum motor is used in an attempt to keep the cleaning machine weight at a reasonable level, there is a chance that the vacuum motor may not be capable of supplying the required suction for adequate pickup. [0008] There have been attempts to remedy some of these and related problems associated with hand-held cleaning wands. For example, TurboTeck has introduced a superlips glide and superglide wand glides that decrease the amount of force required for an operator to move the wand over a surface. Although used in hand-held wands and other hand-held cleaning devices, the inventions claimed in this invention have not been adapted for use in ride-on or walk-behind self-propelled cleaning machines. Indeed, glide technology was developed for use with hand-held wands in an attempt to relieve the back pains associated with operating a hand-held wand. The challenges associated with implementing a gliding attachment onto a self-propelled or ride-on cleaner are much different than those associated with attaching a glide onto hand-held cleaning wand. For example, the weight of a ride-on cleaner and its cleaning power is much more substantial than a hand-held cleaning wand. [0009] The extra weight and power of a ride-on cleaner creates many complicating issues. For example, typical vacuum shoes have abrupt edges that can damage floor transitions (i.e., a transition from one type of carpet to another) and the additional weight of the ride-on cleaner causes these transitions to be damaged over time. Furthermore, when typical vacuum shoes get caught on these transitions, the forces applied to the machine may cause further damage to other machine parts. Moreover, access to a vacuum shoe is much more difficult than with a hand-held cleaning wand making cleaning and maintenance a difficult task. SUMMARY [0010] It is desired to have self-propelled cleaning machines that have an increased efficiency of suction, which results in quicker drying times, increased battery life, decreased wear on a surface to be cleaned, all of which result in improved productivity and efficiency. It is thus one aspect of the present invention to provide a self-propelled cleaning apparatus comprising a vacuum shoe that is more efficient and easier to clean than prior used vacuum shoes. A self-propelled cleaning apparatus having a more efficient vacuum shoe provides for several advantages. [0011] One such advantage that may be provided by an apparatus with an efficiently gliding vacuum shoe is decreased amount of required power needed to propel the equipment, thus resulting in increased run time for some cleaning machines. A decrease in required power consumption may also result in the use of a smaller battery or power source on the cleaning machine, which in turn may result in the use of a lighter battery, more efficient propulsion systems, etc. A lighter battery translates to a lighter cleaning machine, which corresponds to decreased wear on a surface to be cleaned. Economic efficiencies in overall machine production costs may also be realized. [0012] Another advantage that may be offered by embodiments of the present invention is decreased drying times may be realized. The suction rate of an efficient vacuum shoe is greater than the suction rate afforded by vacuum shoes used in the prior art. With an increased suction rate, quicker drying times result because more debris and water may be picked up with a single pass of the vacuum shoe than would have otherwise been picked up with machines of the prior art. The result is quicker cleaning times, because fewer passes with the cleaning machine is required. The bottom line is that after a cleaning apparatus employing the vacuum shoe of the present invention has cleaned an area, one does not have to wait for an extraordinarily long amount of time before the surface can be walked on again. [0013] Another aspect of the present invention is to provide a selectively attachable gliding surface that may be fastened to a prior art vacuum shoe. An easily detachable and re-attachable gliding member provide for easy access to clear blockages from the main vacuum shoe since the gliding member may be easily removed. Moreover, smaller slots increase the suction forces at the surface without requiring more suction power. Additionally, the gliding surface helps to reduce the impact forces applied to the vacuum shoe by transitions in the floor surface, which in turn helps to decrease the amount of maintenance required for the vacuum shoe and the cleaning apparatus. The gliding member may be easily and relatively cheaply replaced by a new gliding member after it has been worn out by use, whereas a vacuum shoe is expensive and sometimes difficult to replace after it has been worn out. [0014] In accordance with one embodiment of the present invention, a cleaning apparatus is provided. The cleaning apparatus comprises a vacuum shoe comprising a shoe housing have a proximal end a distal end with a vacuum chamber there between. The proximal end is defined by an opening that is adapted interface with a gliding member. The distal end is adapted to interface with a hose and/or vacuum source on the cleaning apparatus. The gliding member comprises a surface that easily glides across a surface to be cleaned. For example, the gliding surface intersects the surface to be cleaned at an angle that has a decreased drag coefficient compared to vacuum shoes of the prior art. An angle of intersection typically is defined by the angle between the intersecting surface and the surface to be cleaned. Suitable angles of intersection include, but are not limited to, between about 2.degree. and about 80.degree.. The shallower the angle of intersection the more easily the vacuum shoe can traverse the surface to be cleaned. Additionally, the outer surface of the gliding member extends from the intersection point outwardly (in a general direction of travel) such that the incident angle between the outer surface and the surface to be cleaned increases such that the chances of intersecting the surface to be cleaned with an abrupt surface is decreased. Further, the gliding member is preferably made of a material that moves over a surface to be cleaned much more efficiently and effectively than materials used on prior art vacuum shoes. Examples of suitable materials include, but are not limited to, Delrin.RTM., Teflon.RTM., and other materials having a low coefficient of friction. [0015] In accordance with at least one embodiment of the present invention, a gliding member 110 may be configured to apply a solution or fluid to a surface just prior to the surface being vacuumed. When fluid is applied by the gliding member 110, the fluid does not have as much time to penetrate the surface to be cleaned. However, enough fluid is applied by the gliding member 110 such that any debris, or other cleaning solution in the surface, can be released and picked up by the suction of the vacuum. [0016] These and other advantages will be apparent from the disclosure of the invention(s) contained herein. The above-described embodiments and configurations are neither complete nor exhaustive. As will be appreciated, other embodiments of the invention are possible using, alone or in combination, one or more of the features set forth above or described in detail below. BRIEF DESCRIPTION OF THE DRAWINGS [0017] FIG. 1 is a cross-sectional view of a vacuum shoe in accordance with embodiments of the prior art; [0018] FIG. 2 is a cross-sectional view of one configuration of a vacuum shoe equipped with a gliding member in accordance with embodiments of the present invention; [0019] FIG. 3 is a cross-sectional view of another configuration of a vacuum shoe equipped with a gliding member in accordance with embodiments of the present invention; [0020] FIG. 4 is a cross-sectional view of another configuration of a vacuum shoe equipped with a gliding member in accordance with embodiments of the present invention; Continue reading about Flexible pickup lips for use with fixed vacuum shoes on self-contained and propelled carpet cleaning equipment... Full patent description for Flexible pickup lips for use with fixed vacuum shoes on self-contained and propelled carpet cleaning equipment Brief Patent Description - Full Patent Description - Patent Application Claims Click on the above for other options relating to this Flexible pickup lips for use with fixed vacuum shoes on self-contained and propelled carpet cleaning equipment patent application. ###  How KEYWORD MONITOR works... a FREE service from FreshPatents1. Sign up (takes 30 seconds). 2. Fill in the keywords to be monitored. 3. Each week you receive an email with patent applications related to your keywords. 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