This invention relates broadly to devices for underwater cleaning of manmade, lined bodies of water such as fish ponds, fountains, water features, swimming pools, and similar things. More specifically, it is directed to apparatus and methods involving an improved vacuum useful for (among other things) cleaning a swimming pool. As indicated herein, the inventions disclosed herein can be used in a broad range of applications and provide many benefits.
The present invention is described herein with reference to the accompanying Figures, which serve as illustrations of some of the many embodiments in which the invention may be practiced. Subject to the context and other factors (including for example the understanding of persons of ordinary skill in the arts relevant to the inventions), generally in those Figures and references similar reference numerals refer to similar or identical elements throughout this description.
Those Figures and references, and the other terminology used in these descriptions, are not intended to be interpreted in any limited or restrictive manner, simply because they are being utilized in conjunction with a detailed description of certain embodiments of the invention. Furthermore, various embodiments of the invention (whether or not specifically described herein) may include one or more of the novel features disclosed herein, no single one of which (a) is necessarily solely responsible for any particular desirable attribute(s) of the inventions or (b) is essential to practicing the inventions described.
For the purpose of summarizing the invention certain objects and advantages have been described herein. It is to be understood that not necessarily all such objects or advantages may be achieved in accordance with any particular embodiment of the invention. Thus, for example, those skilled in the art will recognize that the invention may be embodied or carried out in a manner that achieves or optimizes one advantage or group of advantages as taught herein without necessarily achieving other objects or advantages as may be taught or suggested herein.
These and other embodiments will become readily apparent to those skilled in the art from the following detailed description of the preferred embodiments having reference to the attached figures, the invention not being limited to any particular preferred embodiment(s) disclosed.
Many prior art underwater vacuums used for cleaning swimming pools consist of two components designed to be used together, namely, the vacuum head and vacuum hose. Pool vacuum heads tend to have a body element rectangular in shape and have a central hole formed to receive a vacuum hose; the heads are often made of flexible plastic, fitted with wheels (though some use brushes), and have a handle that can be attached to a telescopic pole to enable a user to manipulate the head and vacuum the bottom (underwater surfaces) of a pool while standing above the pool on the pool deck.
A flexible and generally water tight vacuum hose with a cuff mounted on each end is generally used with the vacuum head. The hose cuffs are designed to serve as both male and female attachments; their generally cylindrical shapes have inside dimensions sized to fit snugly over many male vacuum connectors, and their outside dimensions fit snugly within many female connectors. When in use for cleaning a swimming pool, the hose typically connects a source of vacuum to the vacuum head to provide the desired vacuum action as the head moves across the pool's underwater surfaces. Typically, one cuffed hose end is connected to the vacuum head's central hole (using either the male or female connection, based on what fitting is present on the vacuum head), and the other cuffed hose end is connected to suction plumbing (again with either a male or female connection) that is located either in the pool skimmer or a similar plumbing feature. The vacuum force within the hose tends to pull the head into tighter engagement with the hose, but as described herein, that “vacuum/friction fit” connection is less than satisfactory in many situations.
The overall combination of vacuum head, vacuum hose and attached telescopic pole enable a user to maneuver the vacuum head around the pool to remove dirt, leaves and other sorts of debris from the pool. The vacuum pulls the targeted debris under the typically rectangular body element of the vacuum head, through the vacuum head's central hole, through the hose, and then through the suction plumbing (to be filtered or otherwise disposed of, such as by straining it through baskets and/or other filters). This process thus draws the dirt, leaves, etc. out of the pool and removes it from the pool water.
Some problems with swimming pool vacuums and hoses of prior art, however, are associated with the failure of the vacuum head to effectively ‘pick up’ debris such as leaves, twigs, etc. from the pool bottom. In order for vacuum heads to effectively maintain suction suitable for cleaning, the head typically must relatively closely confront the swimming pool's surface that is being cleaned. Among other things, this relatively close proximity ensures that the debris is within the effective scope of the vacuum power. When used as intended, the heads thus have suction around their edges (the edges that are on or adjacent the surface being cleaned), much like a carpet vacuum operates in a home.
Wheeled vacuum heads can involve performance trade-offs. The wheels are often positioned in such a way that the vacuum head sits some quarter inch or so above the surface being cleaned. Although this permits small debris to easily be drawn under the vacuum head's housing, it is not uncommon for the vacuum head to be so low (or so close to the surface being cleaned) that the head passes under large debris such as leaves or twigs, failing to remove them from the pool. In some instances, such large debris is even pushed away or otherwise moved by the vacuum head (without being sucked into the vacuum), resulting in a further failure to effectively clean the swimming pool or water feature.
Another common problem with prior art systems occurs with the connection between the vacuum head and hose. As indicated above, typically the connection involves a male/female mating fitting. Due to a number of factors, the snugness of that fitting (and the resulting effectiveness of transmission of the vacuum pull through that male/female joint) can deteriorate over time (or may even be deficient from its first use). Among other things, mating parts can be damaged or worn down after repeated use, especially in view of the environments in which they are used (commonly outdoors, with extreme sun exposure that itself can damage the integrity of the typically plastic male/female fittings), and in view of the lack of careful handling that is common by persons operating the equipment. Even if the fittings are made from metal or a combination of materials, such damage and/or wear and tear can occur (and can negatively affect the quality of the male/female fit). These issues can occur on both or either end of the hose (and the related corresponding fitting), and can occur regardless of the orientation and/or position of the male versus the female fitting.
Other factors and usages/actions can similarly damage the quality of the hose/head joint. For example, some suction plumbing connections (such as pool skimmers and/or similar hookups) are located in areas that are relatively distant from parts of the pool that need cleaning. In such situations, a user sometimes must ‘stretch’ the hose to (or even beyond) its normal limits in order to vacuum one or more of those distant portions of the pool. Sometimes this stretching can cause the connection between the vacuum head and hose to fail (such as becoming disconnected). If the failure occurs while the hose is in the pool water and before actual vacuuming begins, the hose (having a natural tendency to float and coil) will tend to drift away from the vacuum head, and the user will be forced to retrieve the hose end, reconnect it to the vacuum head, and start the “stretching” again. If the hose separates from the head during vacuuming, the internal suction action in the hose will cause the hose almost immediately to float to the pool's surface, where the end of the hose commonly breaches the surface and sucks air into the vacuum plumbing. This air intake sometimes causes the pool pump to lose prime, so that not only will the user need to start the entire process again (see above), but he/she will also have the additional burden of priming the pump.
Furthermore, many pool owners and professionals find it convenient to keep the vacuum head and hose connected when they are not in use. Doing so can make transporting the hose/head assemblies easier, especially if the hose is coiled around the vacuum head and bound with a bungee cord or strap. However, accidental separation at the male/female joint can and does occur while such assemblies are being carried. In addition to being generally irritating, such separations also result in the inconvenience or even danger of the user having to catch and/or pick up falling/fallen pieces when the user's hands are already full from carrying the vacuum hose and vacuum head. Such situations may even lead to minor injury of the user's feet (since people are often barefooted when around swimming pools) or of other persons who may happen to be in the vicinity.
As indicated above, the inventions disclosed herein can be used in a broad range of applications and provide many benefits. One object of my invention is to provide an improved apparatus and methods for vacuum-cleaning the underwater surfaces of swimming pools or similar bodies of water.
In passing,
As used within the attached drawings, the following numbers refer generally to the following elements discussed herein:
Certain embodiments of the invention (with or without the flared/urging elements discussed elsewhere herein) preferably provide a vacuum head and hose with one or more interlocking features that help prevent the unintentional separation of the hose from the vacuum head. This can be useful to address many of the problems discussed above, and to help extend the useful life of a desired/required “snug fit” between the hose and head of a vacuum system.
In one example, and as illustrated in
Persons of ordinary skill in the art will understand that any of a wide variety of “releasably locking” structures can be used to provide the desired enhanced engagement between the hose and head. By way of example and not by way of limitation, any “quick connect” tubing engagements can be used, such as cooperating structures formed on the male/female elements that are engaged by inserting the male into the female and rotating the elements to engage those cooperating structures in a friction and/or interference fit with each other. Persons of ordinary skill in the art will understand that the selection of any particular embodiment of enhanced engagement apparatus between the hose and head will depend on a number of factors, which typically will be balanced by a product designer, user, and/or other person(s) involved in making and/or using the particular embodiment of the invention.
Another embodiment provides for a locking feature on a hose cuff (i.e. a spring loaded clip) that automatically ‘snaps’ together with a corresponding feature on a vacuum head.
Still another embodiment provides for the locking feature (i.e. spring loaded clip) being mounted on the vacuum head, with a corresponding locking feature (i.e. a ridge) on the hose cuff.
Still another embodiment provides a vacuum head and hose with interlocking features that prevent the unintentional separation of the hose from the vacuum head. A clip element molded into or attached onto the hose cuff near or adjacent to where the cuff joins the vacuum head's central hole retains the hose on the vacuum head. Physical features of the hose vacuum head temporarily interlock with the hose cuff's clip element and can be released easily when separation is desired.
A further embodiment of my invention provides a vacuum head and hose with a plurality of interlocking features between the vacuum head and hose.
Yet another embodiment of my invention provides a vacuum head for cleaning swimming pools, the vacuum head further having a central hole to receive a vacuum hose, a vacuum hose with cuffs on its ends, and both the vacuum head and at least one hose cuff having interlocking/mating features that prevent the hose from unintentionally separating from the vacuum head.
Still another embodiment of my invention provides a vacuum for cleaning swimming pools, in which a vacuum head and hose are tethered or otherwise held together to prevent unintentional separation. An additional component such as a strap, cord or loop holds the vacuum head and hose together in connected positions
Another embodiment provides for the central hole of a vacuum head (which is normally round/circular in shape) having at least one additional feature/side/indentation/protrusion that is keyed with at least one corresponding feature/side/indentation/protrusion to prevent the cuff from rotating within the vacuum head's central hole.
A further embodiment includes a vacuum head with a central hole that a) keys with a correspondingly shaped hose cuff, and b) further includes at least one interlocking feature between the vacuum head and hose.
A further embodiment includes a vacuum head with a central hole that a) keys with a correspondingly shaped hose cuff, and b) further includes at least one interlocking feature between the vacuum head and hose.
Yet another preferred embodiment includes a vacuum head with a central hole that a) keys with a correspondingly shaped hose cuff, and further includes at least one flared feature to urge debris under the vacuum head so that it may be sucked into the hose.
Other embodiments include a vacuum for cleaning swimming pools in which any array/combination of flares described above is also used with any hose-to-body locking device described above, and/or a cuff that is keyed to the central hole.
In certain embodiments of the invention, and independently of whether the embodiment includes any improved interlocking structure between the head and hose as discussed above, the vacuum head 1 preferably has one or more flared or otherwise extending features along various portions of its body, and the flared and/or extending features 8 are designed, shaped, sized, and positioned to urge targeted debris (including large leaves, etc. as mentioned above) under the vacuum head's body element so that that debris may then be pulled by suction into the vacuum hose and subsequently caught in a strainer basket or filter (and thereby be removed from the pool). The flared and/or extending features 8 may further be designed to extend upwards and away from the pool bottom so as to enable the vacuum head to overtake large debris such as leaves, twigs, etc., or otherwise prevent or make it less likely that those large pieces of debris will float “over” the vacuum head, be pushed away from the head, etc.
In another embodiment (as illustrated in
Persons of ordinary skill in the art will further understand that the flares 8 need not always be permanently molded as part of the vacuum head 1, but instead can be operably attached to the body by any of a wide range of suitable methods, including gluing, tacking, snap-fit, interference fits, etc.
One of the many alternative embodiments of the present inventions is illustrated in
Persons of ordinary skill in the art will understand that, among other things,
Another embodiment of my invention preferably includes flares 8 that allow the vacuum head to maintain its flexibility (so that the confronting surface of the vacuum head 1 can flex and better approach the shape of the underwater surface to be cleaned, thereby better positioning the vacuum hole nearer to the debris to be removed). Among the many ways this can be achieved, a flare 8 can be mounted so that there is a single contact point between it and the vacuum's body 1, the flares can have slots (as shown in
In yet another preferred embodiment, the flared and/or extending features are separate components and may be removed and/or reattached to the body of the vacuum head. Such removable/replaceable components are provided with flares of different sizes and shapes and enable a user to choose which flare/extended feature that is most appropriate for the cleaning conditions. Persons of ordinary skill in the art also will understand that such modular embodiments also permit ready repair of broken or damaged flares, and allow the user to customize the assembly for any given situation and/or needs.
Tapering of the flared urging element 8 can be illustrated in the embodiment shown in
Another embodiment provides for mounted flares 8 to be adjusted without removing them from the vacuum head 1 (i.e. a flare 8 may have an extended portion with a slot or groove and be locked into a desired position with a wing nut, snap, or other temporary locking/engagement device).
Another embodiment provides for a mounting feature or features molded into the vacuum body (i.e. a threaded post onto which a flare, slotted or otherwise, can be attached/adjusted with a wing nut, pin, or other temporary locking/engagement device).
In still another embodiment, the vacuum head has a combination of permanent and removable/replaceable flared/extending components, and such combinations may include at least some mounting features be molded into the vacuum head body.
In yet another embodiment, the present invention includes the combination of the vacuum head, vacuum hose, and handle 13 that can be attached to a telescopic pole which enables a user to maneuver the vacuum head around the pool to remove dirt, leaves and other sorts of debris from the pool.
The present invention is described herein with reference to the accompanying Figures, which serve as illustrations of some of the many embodiments in which the invention may be practiced. Subject to the context and other factors (including for example the understanding of persons of ordinary skill in the arts relevant to the inventions), generally in those Figures and references similar reference numerals refer to similar or identical elements throughout this description.
Those Figures and references, and the other terminology used in these descriptions, are not intended to be interpreted in any limited or restrictive manner, simply because it is being utilized in conjunction with a detailed description of certain embodiments of the invention. Furthermore, various embodiments of the invention (whether or not specifically described herein) may include one or more of the novel features disclosed herein, no single one of which (a) is necessarily solely responsible for any particular desirable attribute(s) of the inventions or (b) is essential to practicing the inventions described.
For the purpose of summarizing the invention, certain objects and advantages have been described herein. It is to be understood that not necessarily all such objects or advantages may be achieved in accordance with any particular embodiment of the invention. Thus, for example, those skilled in the art will recognize that the invention may be embodied or carried out in a manner that achieves or optimizes one advantage or group of advantages as taught herein without necessarily achieving other objects or advantages as may be taught or suggested herein.
The apparatus and methods of the invention have been described with some particularity, but the specific designs, constructions, and steps disclosed are not to be taken as delimiting of the invention. A wide range of modifications and alternative structures and steps for practicing the invention will make themselves apparent to those of ordinary skill in the art, all of which will not depart from the essence of the invention, and all such changes and modifications are intended to be encompassed within the appended claims.
Although the methods or processes of the present invention are illustrated herein with steps occurring in a certain order, the specific order of the steps, or any continuation or interruption between steps, is not required.
This application is based on and claims priority to U.S. provisional application Ser. No. 61/800,662, filed Mar. 15, 2013.
Number | Name | Date | Kind |
---|---|---|---|
1476119 | Van Nagell | Dec 1923 | A |
3509589 | Bond | May 1970 | A |
4240174 | Thiem | Dec 1980 | A |
4254525 | Combest | Mar 1981 | A |
4835810 | Hugo | Jun 1989 | A |
5033149 | Russo | Jul 1991 | A |
5079796 | Berfield | Jan 1992 | A |
5082028 | Leonard | Jan 1992 | A |
5352358 | Davey | Oct 1994 | A |
5799351 | Rief | Sep 1998 | A |
5897083 | Johnson | Apr 1999 | A |
D593186 | van der Meijden | May 2009 | S |
D634406 | Klimas | Mar 2011 | S |
8375497 | Fitzen | Feb 2013 | B1 |
20090007349 | Bauckman | Jan 2009 | A1 |
20100122949 | Van Der Meijden | May 2010 | A1 |
20110179590 | Klimas | Jul 2011 | A1 |
20140259467 | Resh | Sep 2014 | A1 |
20190048606 | Resh | Feb 2019 | A1 |
20210332602 | Resh | Oct 2021 | A1 |
Number | Date | Country |
---|---|---|
1234932 | Aug 2002 | EP |
WO-0073691 | Dec 2000 | WO |
Number | Date | Country | |
---|---|---|---|
20210332602 A1 | Oct 2021 | US |
Number | Date | Country | |
---|---|---|---|
Parent | 16162208 | Oct 2018 | US |
Child | 17235864 | US |