Patent Application
20230381835
Yes
Provisional Patent Application Number 63458826 filed on Jun. 1, 2021
US Class: USPC 15/104.05,104.061,118,210, 15/211, 15/104.05, 42/95, 128/269, 134/22.1, 600/157, 604/1-2,11,385.01, 606/1,185, D22/199, D32/35
D22/199
For simplicity of disclosure the term hollow-shape will be used to reference bores, pipes, conduits, tubes, cannula, lumina, or trocars and be represented as a simple cylinder in the drawings. Cleaning inner surfaces of hollow-shapes is a form of maintenance required for cleanliness. Prior art has many devices that are used to clean the inner surface of hollow-shapes. Said devices use a means designed to scrape, wipe, cut, or absorb contaminants from the inner surface of hollow-shapes. Advantages of this new and novel reusable invention will become obvious to those skilled in the art of cleaning hollow-shapes as damage or scratches of the inner surface is prevented by using a squeegee. The advantages are listed as: 1) comprising at least two shape conforming flexible elements having or not having openings on said flexible element surface, 2) openings sized and arranged on at least one squeegee element or on multiple squeegee elements regulate removal of debris and smeared fluids, 3) said squeegee can be cleaned for repeated use, 4) a cooperatively attached said sheath selectively covers or uncovers said squeegee element to collect or isolate contaminants, 5) a longitudinal shaft having a distal position for said squeegee, and 5) a first proximal means for manipulating said longitudinal shaft and a second proximal means for selective movement of said sheath from a first position to a second position, multiple times, by human or robot.
In the oil, gas, sewer and water industries, pipes or conduits are commonly cleaned by autonomous devices to clean the inner surfaces through mechanical scraping or abrasive means. Such remotely controlled or autonomous devices may be motorized or mobilized by fluid pressure to travel from one end of said pipe or said conduit to the opposite end completing a desired cleaning area.
For firearms and armaments, a bore is commonly cleaned with a shape conforming metal wire brush with brass bristles emanating radially from a common axis being pushed or pulled through said bore dislodging contaminants from said inner surface. After said brushing of said inner surface a shape conforming absorbent material such as a patch of cloth is pushed and/or pulled through to deposit a compatible lubricant and remove any fine particles left behind from said brushing.
In the medical field, prior art disposable devices are forbidden to be cleaned and reused after cleaning the bore or cannula portion of a trocar as they use initially dry absorbent materials which become saturated with biological material. For minimally invasive procedures, hollow-shapes of various types such as: bores, tubes, cannula, lumen, or trocars are used as a port through which instruments and scopes enter a biological abdominopelvic cavity to gain access internally. A scope having a camera lens and light source on the distal end must enter a clean hollow-shape to prevent contamination which would obstruct the surgeon's clear camera view of the surgical site. Prior art devices and methods used to clean hollow-shapes are not reusable such as: 1) a thin stick-like member with sufficient soft dry material attached to the distal end usually made of synthetic foam shapes, organic spun fibers, or wrapped gauze and 2) a larger shaft-like member sized to fit closely to said hollow-shape having a series of dry absorbent rings spaced apart on said distal end of said shaft-like member. Said prior art cleaning devices use a linear reciprocating motion in combination with rotation as a cleaning technique inside said hollow-shape. Said disposable devices use dry media to absorb liquids, collect contaminants, and become saturated, leaving debris or smearing on said inner surface when passing back through said hollow-shape. Since said devices are forbidden to be cleaned additional cleaning to remove smears and remaining debris require the use of a second or third disposable device before said scope can be inserted into said hollow-shape.
In prior art, saturated absorbent materials cannot achieve a contaminant-free squeegeed surface when passing through said hollow-shape. Prior art devices do not use non-absorbent shape conforming flexible disks or non-absorbent shape conforming flexible tabbed fins as well as include a protective sheath to isolate said collected contaminants to prevent recontamination of said inner surface. Prior art does not incorporate graduated surface openings as a means to control the collection of said contaminants, preventing the formation of a debris wavefront.
For purposes of describing the preferred embodiment of the invention, the following descriptions will be concerned with medical procedures and specifically laparoscopic procedures as described hereafter. As one skilled in the art can appreciate, this novel invention is primarily used for, but not limited to, medical use, but may be used in other industries having hollow-shapes that need a non-abrasive cleaning device for a squeegeed inner surface.
In the medical field of minimally invasive surgical procedures, such as laparoscopy et al, surgeons use primarily a trocar having a hollow-shape cannula or bore to pass a scope into a biological abdominal wall for visualization of the interior biological abdominopelvic cavity. Said hollow-shape has a seal at the proximal end to retain insufflation gas to expand the biological abdominopelvic cavity and prevent insufflation gas from escaping said inflated biological abdominopelvic cavity when instruments and devices are not inserted. Said scope consists of a camera lens and a light source for viewing and illuminating the dark internal cavity of a biological abdominopelvic cavity. Said hollow-shape is inserted through the abdominal wall by making a small incision in the epidermis. Said hollow-shape incorporating an internal removable sharp piercing component to push through said epidermal incision and beyond fat layers and muscular tissue until piercing the inside peritoneum, a lining found inside the biological abdominopelvic cavity. Said piercing of said tissues cause minor trauma to tissue and blood vessels yielding a certain amount of blood discharge; therefore, when said removable sharp piercing component is contaminated with blood and withdrawn through said hollow-shape, certain amounts of blood are transferred onto said inner surface of said hollow-shape. Said inner surface must be cleaned prior to inserting said scope to clearly view the inside of said biological abdominopelvic cavity; otherwise, said blood contaminants will obstruct the surgeon's camera view and light emission. After said inner surface of said hollow-shape is sufficiently cleaned said scope can be inserted to view said biological abdominopelvic cavity.
A second surgical condition exists for said hollow-shape's inner surface to become contaminated when biological material such as blood, irrigated saline, dissected tissue, and mucous material contaminate said scope during the practice of surgery. Said scope is susceptible to contaminants near a surgical site during surgical procedures through the accumulation of splashed debris and ejecting fluids. As a result, the distal end of said scope becomes contaminated and obstructs the camera view for said surgeon. Cleaning said camera lens and said light source requires removing said scope from said hollow-shape and wiping the distal end of said scope outside the biological body with clean media. The withdrawal of said contaminated scope through said hollow-shape contaminates said inside wall of said hollow-shape. Said hollow-shape remains in situ and the inner surface must be sufficiently cleaned in a time efficient manner before the scope can be reinserted for surgery to proceed. Prior art disposable devices use absorbent materials which become saturated and during removal smears said inner surface of said hollow-shape.
A novel invention to clean the inner surface of a hollow-shape using flexible non-absorbent materials in a series of shape conforming individual or integrated fins or disks, usually round but not limited to round, is referred to as a squeegee element. Said squeegee element consists of said shape conforming flexible disks proximally without surface openings in combination with said shape conforming flexible disks distally having graduated sized openings to create shape conforming flexible tabbed fins. At least one said squeegee is attached to a common longitudinal shaft typically made of a rigid or semi-rigid material having a concentrically cooperative sheath that selectively, uncovers or covers said squeegee for the collection of or isolation of said contaminants respectively. Said isolated contaminants cannot contact said inner surface of said hollow-shape when the invention is removed, leaving said hollow-shape free of contaminants and smears.
There are two distinct directions of movement through said hollow-shape. The first direction of movement is from the proximal end of said hollow-shape through and beyond the distal end of said hollow-shape. During said first distinct direction of movement the first contact of contaminants is by distal end shape conforming flexible tabbed fins and later shape conforming flexible disks. Said distally shape conforming flexible tabbed fins have the greatest ratio of opening to surface area whereas proximal shape conforming flexible tabbed fins have gradually smaller ratio of opening to surface area thereby incrementally collecting less contaminants by passing each successive said tabbed fin preventing the forming of said debris wavefront.
Regulating collected amounts of contaminants prevents a debris mass from forming distally, dripping, and overflowing said sheath distal end. An overflow would contaminate the distal edge of said sheath when covering said squeegee element. In the event of said distal edge sheath contamination, the invention can be removed from said hollow-shape. Said sheath is moved to uncover said squeegee element for rinsing said non-absorbable flexible elements and sheath for reuse. Since the first pass of the invention collected a great amount of contaminants creating said debris wavefront which overflowed, a second pass by said recently cleaned invention will remove any remaining contaminants left inside said inner surface. A single invention can be cleaned and reused multiple time.
The object of the invention is to provide a squeegee system that collects and isolates debris and smears. The combination of said debris and smears will be referred to as contaminants. The sequence of use for the invention is hereby described: the invention enters the proximal end of a hollow-shape in a first direction of movement, collecting contaminants inside said hollow-shape. Upon exiting said hollow-shape at the distal end, the invention has a first proximal means to hold stationary said longitudinal shaft with attached squeegee element while said second proximal means selectively moves said sheath from said first proximal position to said second distal position to isolate said collected contaminants for removal. Removal of the invention is through a second direction of movement from distal end to proximal end of said hollow-shape. Said sheath isolates said contaminants, keeping the inner surface of said hollow-shape from recontamination during removal. One skilled in the art can see that said invention can have numerous proximal end means to accommodate hand manipulation or robot attachment of said invention.
In the following drawings a preferred embodiment is illustrated and described for laparoscopic surgical procedures; however, though the invention is depicted in a preferred embodiment it is not limited to said preferred embodiment and may be used for cleaning various types of hollow-shapes. The materials, production methods, and assembly techniques use commonly available technology. The main components of said invention comprise: a longitudinal shaft made from a variety of organic or thermoplastic materials using fabrication or injection molding techniques respectively, a sheath preferably made from a polyolefin but not limited to a polyolefin thermoplastic material extruded with thin walls and transparent color, a squeegee element made from an elastomeric material such as a thermoset or a thermoplastic, depending on application, by a casting mold or injection mold respectively, and finally a means to proximally manipulate said longitudinal shaft and said sheath each having a proximal shape of either manual or robotic configuration, generally made from fabricated metal, metal injection, or plastic injection.
The invention is suitable for cleaning said inner surface of many sizes of said hollow-shapes by using compatibly sized shape conforming flexible disks and shape conforming flexible tabbed fins. The invention cleans in said first direction without damage to said inner surface, and once contaminants have been removed from said inner surface, the contaminants are covered by said sheath to isolate said contaminants. Isolated contaminants are removed from said hollow-shape, preventing recontamination of said inner surface. After the withdrawal of the invention from said hollow-shape, said sheath is selectively moved back to said first proximal position to expose said squeegee as both will be rinsed and reused multiple times per surgery. The squeegee element also cleans said sheath inner surface while moving from a first position to said second distal position. Multiple uses per patient is a major distinction between prior art and this novel invention due all components using non-absorbent materials.
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