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| United States Patent | 5150927 |
| Link to this page | http://www.wikipatents.com/5150927.html |
| Inventor(s) | Skinner; William O. (Fort Wayne, IN) |
| Abstract | An arrangement for radially expanding a tubular gasket includes a sliding
sleeve and a compression sleeve. The sliding sleeve is formed of a thin
membrane of relatively rigid material, such as nylon, hypalon or
polyester. The sliding sleeve is positioned adjacent an inner surface of
that portion of the tubular gasket to be expanded. The compression sleeve
is disposed immediately adjacent the sliding sleeve such that the sliding
sleeve serves as a slip plate for the compression sleeve when the sleeves
are expanded against the inner surface of the tubular gasket. The sliding
sleeve may be attached to or integrally molded into the inner surface of
the tubular gasket. Another aspect of the invention involves forming the
compression sleeve so as to allow it to be locked in any one of a
plurality of expanded positions. The locking mechanism may be integrally
formed with the compression sleeve, or may be formed as a separate element
which may be molded into, or otherwise pre-attached to, the inner surface
of the tubular gasket. |
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Title Information  |
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| Publication Date |
September 29, 1992 |
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| Filing Date |
January 22, 1991 |
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Title Information |
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References |
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U.S. References |
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| | Reference | Relevancy | Comments | Reference | Relevancy | Comments | 3814409
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Ditcher
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Gellenthin, Jr.
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Sep,1989 | Your vote accepted
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Westhoff
May,1988 | Your vote accepted
[0 after 0 votes] | | 4711455
Ditcher
277/616
Dec,1987 | Your vote accepted
[0 after 0 votes] | | 4702645
Skinner
405/184.2
Oct,1987 | Your vote accepted
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Neil
404/26
Apr,1986 | Your vote accepted
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Skinner
285/189
Oct,1984 | Your vote accepted
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Campolito
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Ditcher
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Bowman
404/26
Aug,1981 | Your vote accepted
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Skinner
156/304.1
Dec,1980 | Your vote accepted
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Skinner
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Skinner
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| Market Size |
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Estimate the gross annual revenues of the relevant market
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| Reasonable Royalty |
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Public's "Guesstimation" of Royalty Value
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Market Review |
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Technical Review |
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Claims |
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What is claimed is:
1. A compression sleeve capable of transmitting an outwardly, radially
directed force to an inner surface of a tubular gasket for radially
expanding the tubular gasket into compressive sealing engagement with the
wall of an opening, comprising a first portion formed as a continuous
strip of resiliently flexible material which comprises means for expanding
said first portion from a first relaxed position to at least one expanded
position, and a second portion for locking the first portion in said at
least one expanded position, said first portion comprising a C-shaped
strip of material having an outer circumference which defines more than
180 degrees, but less than 360 degrees, of the compression sleeve in the
expanded position.
2. A compression sleeve according to claim 1, wherein said second portion
is molded into, or otherwise pre-attached to an inner surface of the
tubular gasket.
3. A compression sleeve according to claim 1, wherein said first and second
portions are formed such that the first portion can be locked into a
plurality of expanded positions, so as to allow the compression sleeve to
be used within a range of gasket and opening sizes.
4. A compression sleeve according to claim 1, wherein said compression
sleeve comprises a C-shaped strip of material having teeth-like structures
on opposing ends thereof, and wherein said means for locking the
compression sleeve comprises an arc-shaped structure adapted to engage the
teeth-like structures on the opposing ends of the compression sleeve to
secure the C-shaped compression sleeve into a locked position.
5. An arrangement for radially expanding a tubular gasket into compressive
sealing engagement with the wall of an opening, comprising:
a sliding sleeve, adapted for positioning adjacent an inner surface of that
portion of the tubular gasket to be expanded, said sliding sleeve being
weakened, such as by perforations, at selected locations so as to allow
the sleeve to stretch, break or otherwise deform at said locations as the
sleeve is expanded from a relaxed position into an expanded position;
a compression sleeve formed of a relatively stiff but resiliently flexible
material and being expandable from a first relaxed position into a second
expanded position, said compression sleeve being adapted for disposition
immediately adjacent said sliding sleeve such that said sliding sleeve
serves as a slip plate for the compression sleeve when the sleeves are
expanded into the second expanded position;
means for expanding the tubular gasket, the sliding sleeve, and the
compression sleeve from the first relaxed position into the second
expanded position such that an outer surface of the tubular gasket engages
the wall of the opening; and
means for locking the compression sleeve in the second expanded position.
6. An arrangement according to claim 5, wherein said sliding sleeve is
formed of a thin membrane of relatively rigid material.
7. An arrangement according to claim 5, wherein said sliding sleeve is
molded into the inner surface of the tubular gasket.
8. An arrangement according to claim 5, wherein said sliding sleeve is
attached to an outer surface of the compression sleeve.
9. An arrangement according to claim 5, wherein said compression sleeve
comprises a C-shaped structure, and wherein said means for locking the
compression sleeve comprises an arc-shaped structure which engages the
C-shaped compression sleeve so as to form a relatively smooth and
continuous profile around the outer circumference of the compression
sleeve/locking means assembly.
10. An arrangement according to claim 9, wherein said arc-shaped structure
is molded into, or otherwise attached to, the inner surface of the gasket.
11. An arrangement for radially expanding a tubular gasket into compressive
sealing engagement with the wall of an opening, comprising:
a sliding sleeve, adapted for positioning adjacent an inner surface of that
portion of the tubular gasket to be expanded, said sliding sleeve being
expandable from a first relaxed position into a second expanded position;
a compression sleeve formed of a relatively stiff but resiliently flexible
material and being expandable from a first relaxed position into a second
expanded position, said compression sleeve being adapted for disposition
immediately adjacent said sliding sleeve such that said sliding sleeve
serves as a slip plate for the compression sleeve when the sleeves are
expanded into the second expanded position;
means for expanding the tubular gasket, the sliding sleeve, and the
compression sleeve from the first relaxed position into the second
expanded position such that an outer surface of the tubular gasket engages
the wall of the opening; and
means for locking the compression sleeve in the second expanded position;
wherein said sliding sleeve is segmented into portions which break apart
when the sliding sleeve is expanded into the second expanded position.
12. An arrangement for radially expanding a tubular gasket into compressive
sealing engagement with the wall of an opening, comprising:
a sliding sleeve, adapted for positioning adjacent an inner surface of that
portion of the tubular gasket to be expanded, said sliding sleeve being
expandable from a first relaxed position into a second expanded position;
a compression sleeve formed of a relatively stiff but resiliently flexible
material and being expandable from a first relaxed position into a second
expanded position, said compression sleeve being adapted for disposition
immediately adjacent said sliding sleeve such that said sliding sleeve
serves as a slip plate for the compression sleeve when the sleeves are
expanded into the second expanded position;
means for expanding the tubular gasket, the sliding sleeve, and the
compression sleeve from the first relaxed position into the second
expanded position such that an outer surface of the tubular gasket engages
the wall of the opening; and
means for locking the compression sleeve in the second expanded position;
wherein said means for locking the compression sleeve is molded into, or
otherwise attached to, the inner surface of the gasket.
13. An arrangement for radially expanding a tubular gasket into compressive
sealing engagement with the wall of an opening, comprising:
a sliding sleeve and a compression sleeve, said sliding sleeve being formed
of a material which has a lower coefficient of sliding friction when in
contact with the compression sleeve than does the tubular gasket, said
sliding sleeve being adapted for positioning adjacent an inner surface of
that portion of the tubular gasket to be expanded, said sliding sleeve
being expandable from a first relaxed position into a second expanded
position, and said sliding sleeve being formed so as to be plastically
deformable as it is expanded into the second expanded position;
said compression sleeve being formed of a relatively stiff but resiliently
flexible material capable of transmitting an outwardly directed force to
the inner surface of the tubular gasket and being expandable from a first
relaxed position into a second expanded position, said compression sleeve
being adapted for disposition immediately adjacent said sliding sleeve
such that said sliding sleeve serves as a slip plate for the compression
sleeve when the sleeves are expanded into the second expanded position;
means for expanding the tubular gasket, the sliding sleeve, and the
compression sleeve from the first relaxed position into the second
expanded position such that an outer surface of the tubular gasket engages
the wall of the opening, wherein said sliding sleeve is plastically
deformed so as to create and maintain a low friction slip plate between
the compression sleeve and the inner surface of the tubular gasket as the
gasket is expanded into sealing engagement with the wall of the opening;
means for locking the compression sleeve in the second expanded position;
and
means on said compression sleeve for engaging said means for expanding the
compression sleeve; and
wherein said means for engaging the means for expanding the compression
sleeve is designed to fail when a predetermined amount of force is applied
thereto by the means for expanding the compression sleeve.
14. An arrangement according to claim 13, wherein said means for engaging
the means for expanding the compression sleeve comprises tabs formed in
opposing ends of the compression sleeve.
15. An arrangement for radially expanding a tubular gasket into compressive
sealing engagement with the wall of an opening, comprising:
a sliding sleeve, adapted for positioning adjacent an inner surface of that
portion of the tubular gasket to be expanded, said sliding sleeve being
expandable from a first relaxed position into a second expanded position;
a compression sleeve formed of a relatively stiff but resiliently flexible
material and being expandable from a first relaxed position into a second
expanded position, said compression sleeve being adapted for disposition
immediately adjacent said sliding sleeve such that said sliding sleeve
serves as a slip plate for the compression sleeve when the sleeves are
expanded into the second expanded position;
means for expanding the tubular gasket, the sliding sleeve, and the
compression sleeve from the first relaxed position into the second
expanded position such that an outer surface of the tubular gasket engages
the wall of the opening; and
means for locking the compression sleeve in the second expanded position;
wherein said compression sleeve comprises a C-shaped structure, and wherein
said means for locking the compression sleeve comprises an arc-shaped
structure which engages the C-shaped compression sleeve so as to form a
relatively smooth and continuous profile around the outer circumference of
the compression sleeve/locking means assembly; and
wherein said arc-shaped structure is molded into, or otherwise attached to,
the inner surface of the gasket.
16. An arrangement for radially expanding a tubular gasket into compressive
sealing engagement with the wall of an opening, comprising:
a sliding sleeve, adapted for positioning adjacent an inner surface of that
portion of the tubular gasket to be expanded, said sliding sleeve being
expandable from a first relaxed position into a second expanded position;
a compression sleeve formed of a relatively stiff but resiliently flexible
material and being expandable from a first relaxed position into a second
expanded position, said compression sleeve being adapted for disposition
immediately adjacent said sliding sleeve such that said sliding sleeve
serves as a slip plate for the compression sleeve when the sleeves are
expanded into the second expanded position;
means for expanding the tubular gasket, the sliding sleeve, and the
compression sleeve from the first relaxed position into the second
expanded position such that an outer surface of the tubular gasket engages
the wall of the opening; and
means for locking the compression sleeve in the second expanded position;
and
wherein said compression sleeve comprises a C-shaped strip of material
having teeth-like structures on opposing ends thereof, and wherein said
means for locking the compression sleeve comprises an arc-shaped structure
adapted to engage the teeth-like structures on the opposing ends of the
compression sleeve to secure the C-shaped compression sleeve into a locked
position.
17. An arrangement according to claim 16, wherein said arc-shaped structure
is molded into, or otherwise attached to, the inner surface of the gasket.
18. In an arrangement for radially expanding a tubular gasket into
compressive sealing engagement with the wall of an opening by means of a
compression sleeve positioned within the gasket, the improvement
comprising a sliding sleeve, adapted for positioning adjacent an inner
surface of that portion of the tubular gasket to be expanded and adjacent
an outer circumferential surface of the compression sleeve, such that said
sliding sleeve serves as a slip plate for the compression sleeve when the
sleeves and gasket are expanded from a relaxed position into an expanded
position, said sliding sleeve being weakened, such as by perforations, at
selected locations so as to allow the sleeve to stretch, break or
otherwise deform at said locations as the sleeve is expanded from the
relaxed position into the expanded position. |
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Claims |
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Description |
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BACKGROUND AND SUMMARY OF THE INVENTION
The present invention relates to a radially expandable seal arrangement
and, more specifically, to an arrangement for radially expanding a tubular
gasket into compressive sealing engagement with the wall of an opening.
The arrangement described below is an improvement upon the invention
described in my previously issued U.S. Pat. No. 4,478,437. To the extent
necessary for a full and complete understanding of the present invention,
the disclosure of U.S. Pat. No. 4,478,437 is incorporated herein by this
reference thereto.
In U.S. Pat. No. 4,478,437, an arrangement for sealing a tubular gasket
against the wall of an opening in a manhole riser is described. That
arrangement includes a radially expandable split sleeve (28) coaxially
received within the gasket adjacent the portion of the gasket which is to
be expanded. The sleeve, which is shown in additional detail in FIGS. 3-11
of that patent, is expanded (along with the gasket) by use of a
scissors-shaped tool (70) which is operated by a hydraulic cylinder (78)
operatively connected between the scissor arms of the tool. Two pins are
provided on the distal ends of the arms. These pins are inserted into two
openings in opposing ends of the split sleeve, and hydraulic pressure is
used to expand the sleeve and gasket until the sleeve ends lock in the
expanded position.
The arrangement described in U.S. Pat. No. 4,478,437 works well for its
intended purpose. However, a relatively strong force must be exerted by
the hydraulic tool in order to expand the compression sleeve and gasket
into the final locked position. An object of the present invention is to
provide an improved arrangement wherein the magnitude of the force
required to expand the sleeve into its final locked position is reduced.
This allows a corresponding reduction in the size and weight of the
tooling used for installation of the gasket, and for greater equalization
of the compression forces applied to the gasket.
Another object of the present invention is to provide an alternative
arrangement for locking a split sleeve in the expanded position. This
alternative arrangement provides a range of locking positions which enable
a single sleeve to be used for openings having a relatively wide range of
diameters. The resulting "standardization" in sleeve length and structure
allows for substantial reductions in sleeve production costs.
These and other objects of the invention are achieved in an arrangement for
radially expanding a tubular gasket which comprises a sliding sleeve, a
compression sleeve, means for expanding the sliding sleeve, compression
sleeve and tubular gasket from a relaxed position into an expanded
position, and means for locking the compression sleeve in the expanded
position. The sliding sleeve is formed of a thin membrane of relatively
rigid material, such as nylon, hypalon or polyester. The sleeve is
positioned adjacent an inner surface of that portion of the tubular gasket
to be expanded. The compression sleeve formed of a relatively stiff, but
resiliently flexible material is disposed immediately adjacent the sliding
sleeve such that the sliding sleeve serves as a slip plate for the
compression sleeve when the sleeves are expanded against the inner surface
of the tubular gasket. In one embodiment, the sliding sleeve is formed in
a U-channel shape, and is dimensioned so as to accept the compression
sleeve within the upstanding sidewalls of the U-shaped cross-section. The
thickness of the upstanding sidewalls is substantially greater than the
wall thickness of the remaining portion of the sliding sleeve. The thin
portion of the sliding sleeve is designed to stretch or break when the
compression sleeve, sliding sleeve and gasket are expanded. If necessary,
the sliding sleeve may be segmented into portions (such as by
perforations) which break apart when the sliding sleeve is expanded.
The sliding sleeve may be adapted to fit within a groove formed in the
inner surface of the tubular gasket, alternatively, the sliding sleeve may
be attached to or molded into the inner surface of the tubular gasket. The
sliding sleeve may be attached to the outer surface of the compression
sleeve.
The sliding sleeve of the present invention may be used with a compression
sleeve such as that shown in U.S. Pat. No. 4,478,437. Alternatively, a
compression sleeve which locks in a plurality of expanded positions may be
used. One embodiment of such a compression sleeve includes a plurality of
inwardly projecting teeth on a first end of the sleeve, and at least one
tooth engaging surface on a second opposing end of the sleeve which may
engage any one of the plurality of inwardly projecting teeth to lock the
sleeve in a corresponding plurality of expanded positions. The second end
of the sleeve is formed to include a recess to receive one or more of the
plurality of teeth so as to maintain a relatively smooth and continuous
profile around the outer circumference of the sleeve.
In another embodiment, the compression sleeve comprises a C-shaped
structure and a separate, arc-shaped locking mechanism which engages the
ends of the C-shaped sleeve so as to lock the sleeve in an expanded
position, and so as to form a relatively smooth and continuous profile
around the outer circumference of the compression sleeve/locking mechanism
assembly. In this arrangement, teeth-like structures may be provided on
opposing ends of the C-shaped sleeve. Mating teeth-like structures are
similarly provided on the arc-shaped element to engage the teeth-like
structures on the opposing ends of the sleeve to secure the sleeve into an
expanded and locked position. The arc-shaped element may be molded into
the gasket (or otherwise pre-attached to the inner surface of the gasket)
for ease of use and installation.
In either embodiment of the sleeve, a pair of tabs may be provided to
engage an appropriate tool for expanding the sleeve and gasket into
position. The tabs may be designed to fail when a predetermined amount of
force is applied thereto in order to limit the magnitude of the force
which may be applied to the sleeve/gasket assembly.
Other objects, advantages and novel features of the present invention will
become apparent from the following detailed description of the invention
when considered in conjunction with the accompanying drawings.
BRIEF DESCRIPTION OF THE DRAWINGS
FIG. 1 is a perspective, partially cut-away and sectioned view of a seal
installation constructed in accordance with the principles of the present
invention.
FIG. 2 is a front view of the sliding sleeve of t | | |
