The present subject matter relates to drain cleaning equipment and particularly sectional drain cleaning equipment and sectional drain cleaning cables.
In current sectional drain cleaning, multiple cable sections of drain cleaning cable are typically transported from an operator's van/truck to the drain using an open wire basket.
When a drain cleaning professional sets up the working area around a drain, a section of cable 5 must be retrieved from the wire basket 2 and decoupled from the remainder of cable within the basket. This cable to be used for drain cleaning is pulled out of a circular opening 6 at the center of the wire basket 2. However, due to the free state of the cable being in a generally straight linear form, the cable tends to spring out of the wire basket unexpectedly.
Because the wire basket is mostly open, any debris or drain blockage remnants, in addition to fluid, that return from the drain when the cable is retrieved are exposed to and often contaminate the jobsite environment. This is undesirable because in many applications the jobsite is a clean area of someone's home, business, or the like. The user must take great care to protect their surroundings from this messy situation.
Accordingly, in view of these and other concerns, a need exists for assemblies and related methods which overcome these concerns.
The difficulties and drawbacks associated with previous approaches are addressed in the present subject matter as follows.
In one aspect, the present subject matter provides a storage drum for drain cleaning cables comprising a first face defining at least one opening. The storage drum also comprises an oppositely directed second face. The second face includes an inwardly extending portion defining a centrally located aperture. The storage drum also comprises a generally circumferential outer wall extending between the first face and the second face. The centrally located aperture is accessible from the first face, via the opening defined in the first face.
In another aspect, the present subject matter provides a storage system for drain cleaning cables. The system comprises a storage drum including (i) a first face defining at least one opening, (ii) an oppositely directed second face, the second face including an inwardly extending portion defining a centrally located aperture, and (iii) a generally circumferential outer wall extending between the first face and the second face. The system also comprises a base including a planar member defining a top face and an oppositely directed bottom face, and a post extending from the top face of the planar member. The drum is positioned adjacent the base such that the post extends at least partially through the centrally located aperture. The system also comprises a cable guide assembly rotatably supported by the post.
In yet another aspect, the present subject matter provides a storage system for drain cleaning cables. The system comprises a storage drum including (i) a first face defining at least one opening, (ii) an oppositely directed second face, the second face including an inwardly extending portion defining a centrally located aperture, and (iii) a generally circumferential outer wall extending between the first face and the second face wherein the second face includes a cylindrical member extending from the aperture. The cylindrical member extends along an axis that is perpendicular to the plane of the first face. The system also comprises a cable guide assembly rotatably supported by the cylindrical member.
In still another aspect, the present subject matter provides a storage system for drain cleaning cables. The system comprises a mobile cart including a frame, a base, and at least one wheel. The system also comprises a storage drum secured to the cart. The drum includes (i) a first face defining at least one opening, (ii) an oppositely directed second face, the second face including an inwardly extending portion defining a centrally located aperture, and (iii) a generally circumferential outer wall extending between the first face and the second face wherein the second face includes a cylindrical member extending from the aperture. The cylindrical member extends along an axis that is perpendicular to the plane of the first face. The system also comprises a cable guide assembly rotatably supported by the cylindrical member.
In yet another aspect, the present subject matter provides a method of storing a drain cleaning cable. The method comprises providing a storage system for drain cleaning cables, the system including a storage drum including (i) a first face defining at least one opening, (ii) an oppositely directed second face, the second face including an inwardly extending portion defining a centrally located aperture, and (iii) a generally circumferential outer wall extending between the first face and the second face. The system also includes a base including a planar member defining a top face and an oppositely directed bottom face, and a post extending from the top face of the planar member, and a cable guide assembly rotatably supported by the post. The method also comprises inserting an end of the drain cleaning cable to be stored, in the cable guide assembly and into the storage drum. The method further comprises pushing the drain cleaning cable through the cable guide assembly and into the storage drum whereby at least one of the storage drum and the cable guide assembly rotates about the post, such that the drain cleaning cable is formed into a coiled arrangement within the drum.
In another aspect, the present subject matter provides a method of selectively dispensing a drain cleaning cable from a storage drum. The method comprises providing a storage system for drain cleaning cables. The system includes a storage drum including (i) a first face defining at least one opening, (ii) an oppositely directed second face, the second face including an inwardly extending portion defining a centrally located aperture, and (iii) a generally circumferential outer wall extending between the first face and the second face. The system also includes a base including a planar member defining a top face and an oppositely directed bottom face, and a post extending from the top face of the planar member, and a cable guide assembly rotatably supported by the post. The method also comprises inserting an end of the drain cleaning cable to be dispensed, in the cable guide assembly and out of the storage drum. The method further comprises pulling the drain cleaning cable through the cable guide assembly and out of the storage drum whereby at least one of the storage drum and the cable guide assembly rotates about the post, such that the drain cleaning cable is selectively dispensed from the drum.
As will be realized, the subject matter described herein is capable of other and different embodiments and its several details are capable of modifications in various respects, all without departing from the claimed subject matter. Accordingly, the drawings and description are to be regarded as illustrative and not restrictive.
The present subject matter relates to sectional drain cleaning cable use, storage, and transport. The present subject matter could apply to drain cable supplied or available under the RIDGID designation, or other manufacturers of drain cleaning cable and also applies to any cable size, for example, diameter, length, and/or other variation of this product type.
By utilizing the present subject matter storage drums and/or systems; easier, controlled insertion and removal of drain cleaning cable from a storage container is achieved. The present subject matter results in low effort requirements for use. Further, the present subject matter results in cleaner jobsites in drain cleaning applications.
The present subject matter provides an enclosed storage container or drum adapted for sectional drain cables and an apparatus that allows easy insertion or removal of the drain cleaning cable from the drum through relative motion between the drum and a cable guide assembly.
The present subject matter features an enclosed or substantially enclosed storage drum for sectional drain cables. This enclosed storage drum holds the drain cleaning cable against an inner span of the interior of the drum which is typically the largest diameter of the interior region of the drum. The storage drum prevents fluid or returned debris from the drain from exiting to the jobsite surroundings, thereby improving the cleanliness of the work environment. This cleanliness, or lack thereof, is a common complaint against sectional drain cleaning use today.
Referring to
In many versions of the storage drum 10, the second face 30 and more particularly the inwardly extending portion 32, includes a cylindrical member 36 extending from or defining the aperture 34. The member 36 includes a circumferential wall. The member 36 generally extends along an axis that is perpendicular to the plane of the first face 20 and/or second face 30. This axis is shown in the referenced figures as axis A. Typically, the circumferential outer wall 40 extends about an axis that is common, i.e., coextensive and collinear, with axis A. Thus, the axis of the cylindrical member 36 is collinear with a center axis about which the generally circumferential outer wall 40 extends.
Another feature of the present subject matter is a dedicated drain area with one or more selectively removable plug(s) to control the release of returned drain fluid that accumulates in the storage container. This feature allows the user to transport the storage drum to an appropriate area prior to releasing the dirty run-off. The term “run-off” as used herein refers to dirt, debris, and/or particulates typically dispersed and carried in a liquid which is often water. The liquid may also include non-aqueous liquids. The term “run-off” also includes liquid free of dirt, debris, and/or particulates. Such liquid is typically water but can include non-aqueous liquids such as oils, organic solvents, and/or petroleum materials for example.
As best illustrated in
Additionally, in certain versions the storage container can feature grab handles for carrying or loading the drain cables retained in the storage container to ease the effort required by the operator.
Referring to
Yet another feature of the present subject matter is a stacking provision. This stacking feature provides easy and efficient storage of drain cleaning cable in the compact work vehicles of drain cleaning professionals. The feature also limits movement of the storage drum relative to another drum it rests upon during transport when the drums are positioned in a face to face arrangement.
Referring to
In the various embodiments described herein, the first and second faces 20, 30 and the outer wall 40 are in the form of continuous members and free of openings (other than the opening or port associated with the plug 50) through which liquid or debris could pass. Thus, the continuous members are significantly different in structure and function than wire forms or open frame configurations as may be known in the art. The first and second faces and outer wall, and other components of the storage drums can be formed from a wide array of materials such as metals, plastics, and composite materials. Moldable plastics are preferred for many embodiments. In particular embodiments, rotationally moldable plastics including high density polyethylene (HDPE) can be used.
The present subject matter further features an apparatus or system to allow easy insertion or removal of drain cleaning cable from the storage drum through relative motion between the drum and a cable guide assembly. In this version, a low friction bearing allows the storage drum to rotate relative to a stationary base. The cable guide assembly is fixed in position onto the stationary base.
Referring to
As a user pushes drain cleaning cable through the cable guide assembly, the guide assembly directs the cable towards an orientation tangential to the inside wall of the storage drum. Continued pushing of the cable through the guide assembly will cause the cable to contact this wall and initiate drum rotation. As the drum rotates while the user continues to feed cable into the storage drum via the guide assembly, cable will line the wall and coil into the drum. Often, the cable will adopt an aligned and wound configuration within the storage drum.
Removing drain cleaning cable from the storage drum follows an opposite process. As the user pulls cable from the guide assembly, the storage drum easily rotates to allow removal. As the cable exits the guide assembly, the cable returns to its linear free state or orientation, ready to be used for drain cleaning. When the storage drum is emptied of drain cleaning cable, attachment and preferably a tool-less attachment of the guide assembly to the stationary base allows for quick and easy removal of the guide assembly and, subsequently, the empty storage drum. A new, fully loaded storage drum can then be placed on the base and the guide assembly reinstalled for continued drain cleaning operation.
Referring further to
As previously described, the present subject matter can include a stationary base at a fixed position, with the drum rotating during use. Another variant also encompassed by the present subject matter is a stationary storage drum in which a cable guide assembly rotates. In this version, the operation is as previously described. As the cable is pushed into the drum through the guide assembly, the cable is oriented towards an orientation tangential to the wall of the storage drum and is typically arranged in a coil. As the cable is continued to be inserted, the cable guide assembly will rotate, laying the cable around the interior of the drum as the guide assembly turns. Retrieval of the cable will turn the guide assembly as the cable is easily removed by hand at the end of the guide assembly. When emptied, the entire guide assembly can be moved to a new, fully loaded storage drum for ongoing cable use.
Referring to
The present subject matter drums can be stationary mounted, or could be cart-mounted to improve mobility via a wheeled version.
A significant advantage of the present subject matter is the time saved when storing drain cleaning cable or using or dispensing cable when cleaning a drain. The efficient loading and unloading of drain cable from the storage drum results in faster overall drain cleaning operation and completion of a drain cleaning job or operation.
Similarly, the easy relative rotation of the storage container to the cable guide assembly requires less overall effort to store or use sectional drain cables compared to current storage methods. This reduces the strain on the user and minimizes the work performed to prepare the jobsite or clean up after the drain blockage is cleared.
The controlled dispensing of the drain cleaning cable from the storage drum provides a predictable placement for loading and unloading the cable. Unlike conventional techniques that allow the coiled cable to spring outward from the open center of the wire basket when unloading, the present subject matter assemblies and/or systems guide the drain cable outward into a linear orientation to match the free state of the cable, thereby reducing the occurrence of unexpected cable motion.
The sectional drain cable can be removed from the storage drum and fed directly into drain cleaning equipment, minimizing the area required for operation. Using current methods, it is difficult to do this due to the tendency of the cable to rotate or expand outward from the wire basket as it is removed. Therefore, it is common for drain cleaning professionals to pull out an entire section of cable, which is typically 15 feet or longer, from the wire basket and lay the cable flat before feeding into the drain cleaning equipment for use. This additional space on the jobsite is often difficult to find. Additionally, this space is subject to potential drain fluid or debris, i.e., run-off, that may return from the drain with the cable being retrieved. By minimizing the length of cable exposed to the jobsite, the jobsite will remain cleaner.
The various drums and related assemblies and systems of the present subject matter provide a more intuitive and easy to understand method of storing or using drain cable compared to conventional approaches. Making the method of use easier helps reduce the learning curve for new users.
The enclosed cable storage container or drum provides a cleaner method of storing drain cleaning cable as it is returned from the drain. Compared to the use of currently known open wire baskets, the present methods will retain the run-off fluid and other drain debris that is retrieved with the cable within the drum for later disposal.
The additional feature of a dedicated drain and plug on the enclosed cable storage drum allows controlled draining of the fluid accumulated in the drum when the operator is in an appropriate area to clean the unit. This results in greater cleanliness and control of the system.
The further feature of integral grab handles in the drum allow easy carrying of the storage drum. Further, the round shape of the cable storage drum allows the drum to be rolled when weighted full of drain cleaning cable if the user prefers.
Likewise, the additional feature of stacking provisions reduces the footprint required to store long lengths of drain cleaning cable and improves the ability of the cable to be stored or transported.
The drain cleaning cable carrier featuring the tool-less guide assembly provides for easy change out or replacement of drums. When the contents of one drum are emptied into a drain, a new cable storage drum can be inserted quickly for continued operation. The efficiency gained by the operation of the insertion/retrieval mechanism is enhanced through continuous use with additional storage containers.
The additional feature of a wheeled cart version provides another benefit to the end user—easier transport. By providing a wheeled cart, the burden of carrying a fully weighted, heavy cable storage drum is eliminated.
Many other benefits will no doubt become apparent from future application and development of this technology.
All patents, applications, standards, and articles noted herein are hereby incorporated by reference in their entirety.
The present subject matter includes all operable combinations of features and aspects described herein. Thus, for example if one feature is described in association with an embodiment and another feature is described in association with another embodiment, it will be understood that the present subject matter includes embodiments having a combination of these features.
As described hereinabove, the present subject matter solves many problems associated with previous strategies, systems and/or devices. However, it will be appreciated that various changes in the details, materials and arrangements of components, which have been herein described and illustrated in order to explain the nature of the present subject matter, may be made by those skilled in the art without departing from the principle and scope of the claimed subject matter, as expressed in the appended claims.
This application is a continuation application from U.S. nonprovisional application Ser. No. 16/210,068 filed Dec. 5, 2018, which claims priority from U.S. provisional application Ser. No. 62/598,548 filed on Dec. 14, 2017.
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Number | Date | Country | |
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20220001431 A1 | Jan 2022 | US |
Number | Date | Country | |
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62598548 | Dec 2017 | US |
Number | Date | Country | |
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Parent | 16210068 | Dec 2018 | US |
Child | 17475454 | US |