The present disclosure generally relates to plumbing maintenance, and more particularly to apparatus and chemical compositions for removing clogs from drain pipes.
Various types of apparatus and chemical compositions are known for removing clogs formed in drain pipes. In some of these, a mechanical apparatus is provided for engaging and removing the clog-forming material from the drain pipe. In one example, the device includes an elongate, flexible strip sized for insertion into the drain pipe. The strip has a length sufficient so that a distal end will contact the clog. The user may then apply pushing, pulling, twisting, or other force to the strip in an attempt to engage and/or dislodge all or part of the clog. The strip may include barbs or other projections extending from an exterior surface to improve the ability to snag or otherwise engage fibrous material that may be stuck in the drain pipe. Once the clog material is engaged, the device is withdrawn from the drain pipe, bringing the clog-forming material with it.
Other types of devices attempt to dislodge the clog by providing a fluid jet that is directed toward the clog. These devices may be connected to a source of pressurized fluid such as water or air, and may include an elongate member having a channel extending therethrough to direct pressurized fluid toward the location of the clog.
Alternatively, various chemical compositions are known which are adapted to disintegrate or dissolve clogs formed in drain pipes. The chemical compositions are typically provided in containers, and the user simply pours the chemical composition from the container into an inlet of the drain. Other chemical dispensing devices may include a tube that is inserted into the drain pipe and through which chemical composition flows via gravity.
While the above-noted mechanical and chemical approaches have met with some success, there is still a need for devices which more quickly and efficiently eliminate clogs from drain pipes.
In a first nonlimiting embodiment, the present invention is directed to an apparatus for removing drain clog material from a drain pipe assembly. The assembly has: (a) a container, and (b) a shaft. The container defines a reservoir adapted to receive a drain cleaning composition. The container also has an outlet. The shaft is attached to the outlet of the container and is in fluid communication with the container. The shaft also has an X-direction, Y-direction perpendicular thereto, and a Z-direction perpendicular to both the X- and Y-directions, in addition to a plurality of barbs extending outwardly. The barbs have a force to remove of less than 20 lbs.; and a peak bend force of less than 4 lbs.
In a second nonlimiting embodiment, the present invention is directed to a shaft for use with an apparatus for removing clog material from a drain pipe assembly. The shaft has: (a) an X-direction, Y-direction perpendicular thereto, a proximal end and a distal end, the shaft further comprising a conduit for fluid communication between the proximal end and distal end; and (b) a plurality of projections extending outwardly therefrom.
In a third nonlimiting embodiment, the present invention is directed to a kit for a drain clog remover, the kit has: (i) a chemical means; and (ii) a mechanical means. The mechanical means comprises a shaft, the shaft comprising a plurality of projections that extend outwardly from the shaft. The chemical means and mechanical means are contained in a unitary packaging unit.
For a more complete understanding of the disclosed methods and apparatuses, reference should be made to the embodiment illustrated in greater detail on the accompanying drawings, wherein:
It should be understood that the drawings are not necessarily to scale and that the disclosed embodiments are sometimes illustrated diagrammatically and in partial views. In certain instances, details which are not necessary for an understanding of the disclosed methods and apparatuses or which render other details difficult to perceive may have been omitted. It should be understood, of course, that this disclosure is not limited to the particular embodiments illustrated herein.
As used herein, the term “drain cleaning composition” encompasses any liquid, gel, or solid material, other than water or water from a plumbing supply (e.g. softened water; hard water), or combination thereof, which is used or marketed for use to remove drain clogs and/or to protect against drain clogs. Exemplary drain cleaning compositions include, but are not limited to, caustic materials such as sodium hydroxide, mixtures of sodium hydroxide, metal (e.g. aluminum) chips, and sodium nitrate, or alkaline sodium hypochlorite solutions (e.g. U.S. Pat. No. 4,080,305), as well as other cleaners such as laundry bleach or those with additives such as surfactants, proteolytic enzymes, and disulfide reducing agents. See e.g. U.S. Pat. Nos. 4,540,506, 4,619,710 and 3,503,890.
Drain clog removers are disclosed herein for removing clog-forming material from drain pipes. The drain clog removers may advantageously engage the clog both mechanically and chemically, thereby to efficiently remove the clog.
As used herein, the term “chemical means” encompasses any composition or non-mechanical element(s) which may be used to remove a drain clog. A nonlimiting example of a chemical means for drain clog removal is the Drano® Max product available from the S.C. Johnson & Son. Co. (Racine, Wis.).
As used herein, the term “mechanical means” encompasses any physical element(s) which may be used to remove a drain clog. Nonlimiting examples of mechanical means for drain clog are described in U.S. Pat. Nos. 6,775,873, 6,698,317, and 6,363,566.
As used herein, the term “clog forming material” refers to any material, which includes, but may not be limited to, fibrous material such as hair or other natural fibers. It is thought that such clog forming material may accumulate in a drain pipe assembly and consequently obstruct flow in the drain pipe assembly.
As used herein, the term “compatible with a drain pipe assembly” refers to any mechanical means for removing clog forming material wherein the mechanical means may be inserted into, and relatively easily removed from, the drain pipe assembly. In one embodiment, a mechanical means that is compatible with a drain pipe assembly comprises an X-direction, Y-direction perpendicular to the X-direction, and a Z-direction perpendicular to both the X- and Y-directions.
As used herein, the phrase “adapted to grip” includes structures that may engage, snag, or otherwise hold or secure materials that may form a clog in drain pipes.
Referring to
As may be exemplified in
While the container 14 has been described herein as a pressurized aerosol can having a tilt valve, it will be appreciated that a variety of other types of containers or reservoirs may be used. The container may be formed of metal, plastic, or any other material suitable for holding the drain cleaning composition. Regardless of the material used, the walls of the container may be rigid or flexible. Other types of valves may be substituted for the tilt valve assembly, or the valve may be omitted from the container 14 altogether.
The container may include a propellant as described above, may be provided with mechanical means for increasing the interior pressure of the container 14 (such as a piston or plunger), or may omit any pressurization of the container interior and instead rely on gravity, manual force, or other means to dispense the composition. For example, one possible alternative to the illustrated container 14 may be a flexible plastic pouch having a frangible seal across the outlet. Upon application of manual pressure to an exterior of the flexible pouch, the seal may break to allow the composition to flow through the outlet. In this alternative example, the manual pressure not only opens the seal but also pressurizes the interior of the pouch to discharge the composition with additional force.
As understood from the foregoing examples, the container 14 may be designed for repeated use or may be intended to be disposable after a single use. Furthermore, any container 14 may hold any chemical composition that is known to dissolve, break-up, or otherwise remove clog-forming material in drain pipes.
The shaft 12 allows a user to manually remove drain-clogging material while providing a conduit to provide a relatively precise directional guidance of the composition 15 to the desired location within a drain pipe. As is exemplified in
The shaft 12 includes projections 42 that are adapted to grip clog-forming material located within the drain pipe. As exemplified in
Surprisingly, even without a sharp end point, the barbs 42 are particularly suited for gripping clog materials, such as hair, that may be lodged in the drain pipe. It is thought that a user may lower the shaft 12 into a drain, causing the barbs 42 to engage clog materials, and then subsequently remove the clog materials from the drain upon withdrawal of the shaft 12 from the drain. In some embodiments for usage, a user may agitate or otherwise mechanically disturb the clog material to help loosen, or otherwise disengage it, to provide a relatively optimal usage.
In other embodiments, it is envisioned that structures may be used such as hooks, bristles, bumps, or other extensions that may be suitable for engaging clog material. One of skill in the art may appreciate that the distal end 34 may also be used to engage and dislodge drain-clogging material. In one nonlimiting embodiment, one or more projections may further include a projection port in fluid communication with the delivery passage 38 through which fluid may pass in a direction substantially perpendicular to an axis of the shaft.
The shaft 12 may be formed of a flexible material which allows it to be bent into an arcuate shape so that it can traverse a tortuous path, such as those commonly presented by typical P-trap and U-trap drain pipes. Accordingly, the shaft 12 may be formed of any flexible or semi-flexible metal, plastic, or other material, such as polypropylene, polyethylene, polyethylene terephthalate, high density polyethylene, low density polyethylene, or similar material.
In a nonlimiting embodiment shown in
Yet another alternative embodiment of a drain clog remover 10 is illustrated in
A shaft (not shown) may be coupled to a connective assembly 65 to provide fluid communication between the container 14 and the shaft. As described above, the shaft may be sufficiently flexible to bend as needed to traverse a drain pipe and the shaft may include projections that are adapted to grip clog-forming material located in the drain pipe.
In operation, the drain clog remover 10 provides mechanical and chemical actions to remove a clog or clog material 62 formed in a drain 60 (
Further, in another embodiment, the drain clog remover 10 is provided with a bag for containment and/or disposal of the drain clog remover 10 once the drain clog remover 10 has been used.
An exemplary shaft 12 is illustrated in
In
Without wishing to be limited by theory, it is thought that the base section 81 of the shaft 12 may be formed of a base material that is sufficiently rigid to transfer a manual force applied to the flange during use, yet is sufficiently flexible to bend along the drain pipe path. A “Shaft Flex Test” (described below) is used to determine the peak bend force (“PBF”) that is required to bend a shaft 12 at different radiuses. Shafts tested include: a commercially available mechanical drain clog remover “Zip It®” (Cobra Products, Swedesboro, N.J.); an exemplary embodiment of the present invention comprising a rounded central section; and an exemplary embodiment of the present invention comprising an accordion-like central section (described in greater detail infra). Shafts having various geometries are also tested and described below. In one embodiment, the PBF is less than about 4. In another embodiment, the PBF is from about 2-4. In still another embodiment, the PBF is from about 3-4.
Additionally, a “Shaft Break Test” (described in greater detail below) may be used to calculate the force required to break a shaft. In one embodiment, the force to break (“FTB”) is less than about 100. In another embodiment, the FTB is from about 50 to about 100. In still another embodiment, the FTB is from about 50 to about 60.
Surprisingly, it is discovered that by providing PBF and FTB properties within the described ranges, there is an advantage provided to the producer in terms of relatively reduced packaging and costs and further, there is an advantage provided to the consumer, or final user, because such a shaft 12 provides relatively easy movement through the plumbing, especially the U-bend, of a drain.
Nonlimiting examples of suitable materials for the base section and central section, include a monolayer or blend of LLDPE, LDPE, and HDPE, or coextruded with any of these polyethylenes. As described above, projections 42, extend outwardly from the lateral edges 12a, 12b (
In the exemplary embodiment shown in
Similarly, one of skill in the art will appreciate that the optional connector layer 84 may be formed of a connector material that permits materials of disparate and/or similar properties to be joined together. Nonlimiting examples include LLDPE, LDPE, and HDPE.
The optional connector layer 84 may facilitate machine assembly of the shaft 12. For example, the base section 81 and central section 86 may first be extruded and cooled. The optional connector layer 84 may then be extruded and positioned between the base section 81 and the central section 86. The base section 81, central section 86 (and/or optional connection layer 84) may then be brought together so that the molten connector layer adheres the separate pieces together into a unitary structure. In the embodiment shown in
In addition to providing a central section 86 with a rounded (Ω) shape, it is thought that the actual relationship between the central section 86 and the base section 81 is very important. In some embodiments, the shaft 12 may be constructed from a unitary member that may be made from any suitable technique known in the art, such as blow molding or another molding technique. In an alternative exemplary embodiment, the central section 86 may be directly welded to the base section 81. In doing so, two different materials may be used for the separate sections 81, 86 to provide varying properties in the shaft 12 and/or unique flexibility properties to the shaft 12. One of skill in the art may appreciate that a band of molten polymer, such as polyethylene, may be used to combine the central section 86 and base section 81 together. Surprisingly, it is discovered that the relationship between the properties of the central section 86 and base section 81 is very important and may provide further advantages regarding the bending and flexing of the shaft 12 as the shaft traverses a drain pipe assembly.
For example, in the nonlimiting embodiment of
In one nonlimiting embodiment, the various central section 86 and base section 81 portions may be made by extruding polymer to provide the desired shape. The shape of the portions may be maintained by running the portions in a wheel which is provided having a hollow area for the portions to fit into. In one embodiment, the central section 86 is guided onto the base section 81 and the two portions may be laminated together using a band of molten polymer, such as polyethylene. The barbs or extensions may be cut from either piece (whichever is desired) using a rotary die cutter.
One of skill in the art will appreciate that as used herein, “projection” may refer to any extension from the shaft which may be used to engage a drain clog material. For example, a projection may be selected from the group consisting of: barbs, hooks, arms, extensions, the like, and combinations thereof. For example, U.S. Pat. No. 6,775,873 describes, inter alia, a unit having a handle, shaft, and projections wherein the projections are at an acute angle. In addition to combining a shaft 12 having projections 42 to be used with a propellant and/or chemical means, the present invention improves upon the prior art by providing projections that have a relatively optimized combination of sharpness, size, flexibility and rigidity. Without wishing to be limited by theory, it is thought that certain barb configurations may provide for relatively easy traversal of the drain and plumbing unit. In particular, it is noticed that certain non-optimized barb configurations may tend to “catch”, or otherwise latch onto, the opening of a drain pipe assembly and require the user to apply an inordinate amount of force to remove the shaft 12. In particular, it is surprisingly discovered that a projection 42 that is too “sharp” or at an overly acute angle tends to catch the drain and is relatively difficult to remove. Even more surprisingly, it is observed that such a configuration does not appear to provide any benefits regarding the removal of clog material from a drain.
Without wishing to be limited by theory, it is thought that providing a barb with a relatively low ability to absorb a shear load, the shaft will be able to be easily removed from a drain pipe assembly in case a barb or extension unexpectedly catches onto some portion of the drain pipe assembly and the user has difficulty removing the unit. A “Barb Strength Test” (described below) may be used to measure the force required to cause a barb to detach, or otherwise break off, from the shaft. In one embodiment, the force to remove a barb is less than about 20. In another embodiment, the force to remove a barb is from about 10 to about 18. In still another embodiment, the force to remove a barb is from about 14 to about 18.
In addition to strength, the geometry of a barb is surprisingly found to have effects beyond the simple ability to “grab” or otherwise secure drain clog material. Surprisingly, it was found that barbs used on exemplary embodiments of the present invention which had two sides which came to an abrupt vertex and/or a vertex formed by an acute angle (i.e., a sharp point) did not pass U.S. CFR Title 16 Part 1500.48-49 (CPSP) regulations. In one embodiment, the barbs of the present invention may be rounded and/or comprise a radius of curvature.
One of skill in the art may appreciate that the barbs 42 may be juxtaposed such that the acute angle formed by the barbs 42 may face either the distal end 34 or proximal end 30.
In one embodiment, the drain clog remover 10 may be provided with a storage bag for disposal and/or storage after use. Such a storage bag may be attached using adhesive or any suitable mechanical means to some portion of the drain clog remover 10, such as the container 14. Alternatively, a storage bag may be included with the outerwrap or packaging that is used to display and/or support the drain clog remover 10 while in a retail setting.
In another embodiment, a kit may be provided wherein a drain clog remover 10 comprises a chemical means and a mechanical means which are packaged together. In this embodiment, the chemical means and mechanical means (such as a shaft having projections extending outwardly therefrom) may, or may not, be mechanically or otherwise physically attached to each other. However, such an embodiment wherein both chemical and mechanical means are used and/or packaged in combination are envisioned in the present invention.
Sample shafts having a length of at least 12 inches and one or more barbs or projections 42 extending outwardly therefrom are labeled. Shafts having multiple barbs 42 at the same position in the X-direction are identified and all but one overlapping barbs 42 are removed using a utility knife. (
A first test fixture 91 is provided to be used with an Instron Universal Testing Machine Model TT-C retrofitted with a National Instruments USB-6009, 14 bit data acquisition card running LabView software. (not shown) (Instron®, Norwood, Mass.). As exemplified in
The shaft 12 is juxtaposed such that any acute angle formed by the barbs 42 and body of the shaft 12 are facing towards the opening 93. The shaft 12 is passed through the opening 93 of the fixture 91 until the end of the shaft that is being passed through the fixture is able to be secured in the upper jaw of the Instron device (clamp) 95. The shaft is pulled through the opening at a rate of about 5″/minute until the remaining barb 42 on the shaft 12 is broken off. The resultant force required to break the barb is recorded (lbs).
This test is performed in accordance with guidelines outlined in ASTM Method D790 (Flexural Properties of Unreinforced and Reinforced Plastics and Electrical Insulating Materials).
The supports are positioned about 2″ apart (from the outer edge of each support, and collinear in the vertical direction
A section of a shaft at least 12″ long is placed with on the supports. In the case of a shaft having a central section, the shaft is juxtaposed such that the central section is facing away from the supports. The loading nose is directed towards the shaft at a rate of about 5″/minute to apply a force to the wand. The maximum load that is required to bend the shaft (wherein the load does not increase with an increase in strain) is recorded.
The test is performed in general accordance with the guidelines outlined in ASTM D 638 (Tensile Properties of Plastics) using an Instron Universal Testing Machine Model TT-C retrofitted with a National Instruments USB-6009, 14 bit data acquisition card running LabView software. A pair of Instron G-61-1C grips 97, with serrated metal faces are used to attach the sample to the load cell 98 and the movable member 99 of the testing machine (
The wand is clamped in the grips. The grips are separated at a rate of about 5″/minute until the wand breaks. The force is recorded.
It is noted that terms like “specifically,” “preferably,” “typically,” “generally,” and “often” are not utilized herein to limit the scope of the claimed invention or to imply that certain features are critical, essential, or even important that certain features are merely intended to highlight alternative or additional features that may or may not be utilized in a particular embodiment of the present invention. It is also noted that terms like “substantially” and “about” are utilized herein to represent the inherent degree of uncertainty that may be attributed to any quantitative comparison, value, measurement, or other representation.
The dimensions and values disclosed herein are not to be understood as being strictly limited to the exact numerical values recited. Instead, unless otherwise specified, each such dimension is intended to mean both the recited value and a functionally equivalent range surrounding that value. For example, a dimension disclosed as “40 mm” is intended to mean “about 40 mm.”
All documents cited in the Detailed Description of the Invention are, in relevant part, incorporated herein by reference; the citation of any document is not to be construed as an admission that it is prior art with respect to the present invention. To the extent that any meaning or definition of a term in this written document conflicts with any meaning or definition of the term in a document incorporated by reference, the meaning or definition assigned to the term in this written document shall govern.
While particular embodiments of the present invention have been illustrated and described, it would be obvious to those skilled in the art that various other changes and modifications can be made without departing from the spirit and scope of the invention. It is therefore intended to cover in the appended claims all such changes and modifications that are within the scope of the invention.
The apparatus and methods disclosed herein may be used to remove clogs from drain pipes. The drain clog remover includes a container adapted to hold a chemical composition. A shaft is coupled to the container and defines a passage through which the chemical composition may flow. The shaft further includes projections configured to engage a clog and/or provide the user with a relatively easy traversal of the drain pipe. A pressure force is communicated to the interior of the container to discharge the chemical composition. Additionally, the user may manipulate the shaft attached to the container to mechanically engage a clog.
This application is a continuation-in-part of prior application Ser. No. 11/746,214, filed May 9, 2007. This application also claims the benefit of U.S. Provisional Application No. 61/082,726, filed Jul. 22, 2008, and U.S. Provisional Application No. 61/119,134, filed Dec. 2, 2008.
Number | Date | Country | |
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61082726 | Jul 2008 | US | |
61119134 | Dec 2008 | US |
Number | Date | Country | |
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Parent | 11746214 | May 2007 | US |
Child | 12474386 | US |