SWIVEL COUPLING AND HOSE ASSEMBLIES AND KITS UTILIZING THE SAME
A swivel coupling assembly includes a first annular member having at least one annular barb, a shoulder and at least one annular groove containing a seal. There is a first bearing surface and a second bearing surface either side of the annular groove. The first and second bearing surfaces have a width equal to or greater than a width of the annular groove. There is a second annular member having an inner surface defining a bore configured to receive the first annular member. When joined, the shoulder of the first annular member frictionally engages the bore of the second annular, thereby allowing rotation. The seal engages with and seals the bore at a location between the ends of the second member. and spaced by a distance of at least the width of the first and second bearing surfaces from the shoulder and the second opening, respectively.
This application is a divisional of and claims priority to U.S. patent application Ser. No. 15/416,728, filed Jan. 26, 2017, granted as U.S. Pat. No. 9,869,416 on Jan. 16, 2018, entitled “SWIVEL COUPLING AND HOSE ASSEMBLIES AND KITS UTILIZING THE SAME”, which claims benefit of priority of U.S. Provisional Patent Application Ser. No. 62/287,420, filed Jan. 26, 2016, entitled “FLEXIBLE TAPERED GRIPS GRIP FITTINGS AND LIVE SWIVEL FITTING ASSEMBLIES”, both of which are incorporated herein by reference.
FIELD OF THE INVENTIONThe invention described herein relates generally to the field of swivel coupling assemblies and to swivel coupling assemblies which are easy to install and highly reliable even when used with tube and hose lines operating in harsh industrial and commercial environments. More specifically, the present invention provides improved operation, durability, dependability, weather-resistance, usability, and reliability of swivel couplings, assemblies, and kits for air and hydraulic connections in tractor-trailer and other industrial and commercial applications and environments.
BACKGROUND OF THE INVENTIONApplications of fittings and fitting assemblies for air tube and hose line connections in industrial and commercial environments require resistance to harsh environmental conditions and reliability under stress during installation and operation. For example, in applications in the freight hauling trucking and transportation industry, tractor-trailer air brake fittings and hose and tube assemblies undergo continuous exposure to the elements, often in frigid conditions. Winter road salts and brine, dirt, grease, and other solvents erode fittings and assemblies of critical air brake tube and hose connections, putting the safety of the driver and highway motorists at risk.
Tube and hose lines, as well as grips, fittings and connectors/couplings for such tube and hose lines used within harsh industrial and commercial environments generally must withstand such harsh environments as well as perform reliably under the stress and strain forces encountered during installation and operation. Such tube and hose lines may involve high pressure hydraulics or air and often require some flexibility of the tube or hose. It should be understood that the terms “hose” and “tube”, while often used interchangeably, are technically different components. Hoses are generally reinforced in some way, normally with imbedded braid reinforcement, wire reinforcement, reinforcement with a stiff plastic, dual walls, or a single heavy wall. Hoses are often used and rated for applications that involve high pressure. Tubing, on the other hand, is not reinforced, or is sparsely reinforced, and is often used for gravity flow or lower pressure applications.
Hoses and tubes are commonly used in applications within the freight hauling industry, for example, to supply pressurized air for air brake operation between a tractor cab unit and a freight trailer, or from a locomotive to railway air brakes on railroad cars. Inherent to the freight industry is the constant coupling and decoupling of hoses/tubes as trailers are left for loading or unloading and other trailers are picked up for delivery. Various types of components such as gladhand connectors (couplers resembling a pair of “hands shaking”), grips and couplers/connectors, including swivel couplings, are used to interconnect hose/tube sections to other hoses/tubes sections and to terminals.
During installation and operation of such hoses and components in the freight hauling context, stresses from bending, twisting, and kinking are experienced. For instance, tractor-trailer operators subject air brake lines to twisting while bending them into position in tight quarters between the tractor and trailer. Drivers and fleet maintenance personnel repetitively connect and disconnect air brake lines between the tractor and trailer using hand holds on the hose at the fittings to achieve the needed leverage to secure and release gladhand connections. Connection of tractor to trailer using integrated, multiple hose and tube assemblies, or “kits”, often wrapped or covered with abrasion resistant materials, requires flexibility in the manner of coupling the multiple fittings to their respective fixed air and hydraulic connections.
Conventional grips and couplers/connectors including swivel couplings, however, do not offer sufficient protection against kinking of the hose and tube, particularly at the gladhand connections and occasionally in tractor connections where the ports are mounted higher and their output is pointed vertically requiring the hose to bend toward the trailer, and are difficult to install and not sufficiently reliable during operation. Conventional hose and tube assemblies using only coiled springs or bend restrictors of a thin, flimsy or too-rigid materials and sometimes of a not-firmly attached nature at the fittings provide inadequate protection from the shearing action that takes place during gladhand connection. In the case of the common spring guard, the spring coils shift and do not prevent kinking and bending during installation and operation.
In particular, in the freight hauling industry, conventional air brake tube or hose fittings and tube or hose assemblies undergo stress during tractor-trailer connections and operation. The conventional non-swivel hose and tube fittings and assemblies prevent ease of connecting hose and tube assemblies to the tractor braking air supply lines and typically require the “cork-screwing” of fixed male fittings into fixed swivel fittings, or the disassembly and reassembly of the fittings during installation. During operation, fixed end fittings prevent rotation of hoses where some movement is desirable, such as during lift axle operation, putting further stress on the air brake hose and tube fittings and assemblies and leading to premature failure of the tractor-trailer air brake system. Prior art live swivel fittings do not provide sufficient support, free, (live) rotation and assembly integrity under stress or the long-term sealing qualities necessary in harsh environmental and operational conditions. Connection of conventional hose assemblies typically requires multiple wrenches to couple hose assemblies to fixed fittings or to join multiple hose assemblies. The use of crimped nuts in prior art live swivel fittings requires the use of materials such as steel rather than the more malleable brass to prevent over-torqueing and leakage. This leads to corrosion issues and fitting seize-up.
SUMMARY OF INVENTIONIt is therefore an object of the invention to provide grips, swivel couplings, hose assemblies and kits which protect against stresses caused by kinking, twisting, bending, snagging, tangling and abrading.
It is another object of the invention to provide swivel couplings and swivel coupling assemblies with improved rotation during installation and operation, protecting the system's integrity and ease of connecting and disconnecting of connections at the mating couplings such as tractor and trailer gladhands.
It is yet a further object of the invention to provide swivel couplings and swivel coupling assemblies with longer-life, redundant air seals, and a stronger friction hold at the barrel end of the fitting.
In a first aspect of this invention there is included a swivel coupling assembly, comprising a first annular member having an outer surface and an inner surface. The first annular member includes a first end portion having at least one annular barb, a second end portion spaced from the first end portion and an insert member. There is a shoulder positioned between the at least one annular barb and the insert member and at least one annular groove disposed in the outer surface of the first annular member positioned between the shoulder and the insert member and the at least one annular groove containing a seal. There is a first bearing surface on a first side of the at least one annular groove in the direction of the shoulder and a second bearing surface on a second side of the at least one annular groove in the direction of the insert member. The first bearing surface and the second bearing surface have a width equal to or greater than a width of the at least one annular groove. There is a second annular member having an outer surface and an inner surface, the inner surface defining a bore configured to receive the first annular member. The second annular member includes a first end portion having a first opening in communication with the bore and a second end portion spaced from the first end portion and having a second opening in communication with the bore. When the first annular member is inserted into the bore of the second annular member, the shoulder of the first annular member frictionally engages the bore of the second annular member proximate the first opening. This allows the first annular member to rotate relative to the second annular member. The insert member of the first annular member terminates in the bore proximate the second opening and the seal engages with and seals the bore at a location between the first and second openings of second annular member. The at least one annular groove is spaced by a distance of at least the width of the first and second bearing surfaces from the shoulder and the second opening, respectively.
In one or more embodiments the following features may be included. The at least one annular groove may include a plurality of annular grooves and a like plurality of seals, one disposed in each of the plurality of annular grooves. The first bearing surface and the second bearing surface may have widths between one (1) and three and one half (3.5) times the width of the at least one annular groove. There may be included an annular retaining ring groove disposed in the surface of the first annular member and positioned between the at least one annular groove and the shoulder, the annular retaining ring groove containing a retaining ring which protrudes above the surface of the first annular member. There may also be included an annular recess in the inner surface of the bore, wherein the annular recess is configured to receive the retaining ring when the first annular member is inserted into the second annular member, and wherein the annular recess is located at a position between the shoulder and the at least one annular groove containing the seal. The inner surface of the bore from the first opening in the first end portion of the second annular member to the annular recess may be frusto-conically shaped and wherein the frusto-conically shaped inner surface is angled at least five degrees with respect to a longitudinal axis of the second annular member, thereby allowing the retaining ring to be gradually compressed when the first annular member is inserted into the bore of the second annular member as the retaining ring travels along the inner surface until it reaches the annular recess and expands into and is seated in the annular recess. The first opening in the first end portion may have a chamfered edge. The first annular member may further include a flange located between the shoulder and the plurality of grooves which engages with a stop on the inner surface of the bore when the first annular member is inserted into the second annular member to position the first annular member within the bore such that the shoulder of the first annular member frictionally engages the bore of the second annular member proximate the first opening and the insert member of the second end portion of the first annular member terminates in the bore proximate the second opening. The first end portion of the first annular member may include a plurality of annular barbs which are configured to engage and retain a hose. The inner surface of the first annular member may define a bore configured to carry a fluid there-through. The outer surface of the second annular member may include a threaded portion for being inserted into and engaged with a hose or a complimentarily threaded fixture. The outer surface of the second annular member may further includes a head having a plurality of flat surfaces configured to be engaged by a tool to impart torque to rotate the second annular member to engage the hose or a complimentarily threaded fixture.
In another aspect of this invention there is a hose assembly, comprising a hose having a first end and a second end, a first swivel coupling affixed to the first end of the hose, a second swivel coupling affixed to the second end of the hose. Each of the first and second swivel couplings include a first annular member having an outer surface and an inner surface. The first annular member including a first end portion having at least one annular barb, a second end portion spaced from the first end portion and an insert member. There is a shoulder positioned between the at least one annular barb and the insert member and at least one annular groove disposed in the outer surface of the first annular member positioned between the shoulder and the insert member and the at least one annular groove containing a seal. There is a first bearing surface on a first side of the at least one annular groove in the direction of the shoulder and a second bearing surface on a second side of the at least one annular groove in the direction of the insert member. The first bearing surface and the second bearing surface have a width equal to or greater than a width of the at least one annular groove. There is a second annular member having an outer surface and an inner surface, the inner surface defining a bore configured to receive the first annular member. The second annular member includes a first end portion having a first opening in communication with the bore and a second end portion spaced from the first end portion and having a second opening in communication with the bore. When the first annular member is inserted into the bore of the second annular member, the shoulder of the first annular member frictionally engages the bore of the second annular member proximate the first opening. This allows the first annular member to rotate relative to the second annular member. The insert member of the first annular member terminates in the bore proximate the second opening and the seal engages with and seals the bore at a location between the first and second openings of second annular member. The at least one annular groove is spaced by a distance of at least the width of the first and second bearing surfaces from the shoulder and the second opening, respectively.
In one or more embodiments the following features may be included. The at least one annular groove of the first and second swivel couplings may include a plurality of annular grooves and may further include a like plurality of seals, one disposed in each of the plurality of annular grooves. The first bearing surface and the second bearing surface may have widths between one (1) and three and one half (3.5) times the width of the at least one annular groove. The first and second swivel couplings may further include an annular retaining ring groove disposed in the surface of the first annular member and positioned between the at least one annular groove and the shoulder, the annular retaining ring groove containing a retaining ring which protrudes above the surface of the first annular member. The first and second swivel couplings may further include an annular recess in the inner surface of the bore, wherein the annular recess is configured to receive the retaining ring when the first annular member is inserted into the second annular member, and wherein the annular recess is located at a position between the shoulder and the at least one annular groove containing the seal. For the first and second swivel couplings the inner surface of the bore from the first opening in the first end portion of the second annular member to the annular recess may be frusto-conically shaped and wherein the frusto-conically shaped inner surface is angled at least five degrees with respect to a longitudinal axis of the second annular member, thereby allowing the retaining ring to be gradually compressed when the first annular member is inserted into the bore of the second annular member as the retaining ring travels along the inner surface until it reaches the annular recess and expands into and is seated in the annular recess. For the first and second swivel couplings the first opening in the first end portion may have a chamfered edge. Proximate each of the first end and the second end of the hose may be included a collar disposed about the hose, the collar including an identification marking.
In yet another aspect of this invention there is a hose assembly, comprising a hose having a first end and a second end, a grip and fitting assembly affixed to the first end of the hose and a swivel coupling affixed to the second end of the hose. The swivel coupling includes a first annular member having an outer surface and an inner surface. The first annular member including a first end portion having at least one annular barb, a second end portion spaced from the first end portion and an insert member. There is a shoulder positioned between the at least one annular barb and the insert member and at least one annular groove disposed in the outer surface of the first annular member positioned between the shoulder and the insert member and the at least one annular groove containing a seal. There is a first bearing surface on a first side of the at least one annular groove in the direction of the shoulder and a second bearing surface on a second side of the at least one annular groove in the direction of the insert member. The first bearing surface and the second bearing surface have a width equal to or greater than a width of the at least one annular groove. There is a second annular member having an outer surface and an inner surface, the inner surface defining a bore configured to receive the first annular member. The second annular member includes a first end portion having a first opening in communication with the bore and a second end portion spaced from the first end portion and having a second opening in communication with the bore. When the first annular member is inserted into the bore of the second annular member, the shoulder of the first annular member frictionally engages the bore of the second annular member proximate the first opening. This allows the first annular member to rotate relative to the second annular member. The insert member of the first annular member terminates in the bore proximate the second opening and the seal engages with and seals the bore at a location between the first and second openings of second annular member. The at least one annular groove is spaced by a distance of at least the width of the first and second bearing surfaces from the shoulder and the second opening, respectively.
In yet one or more other embodiments the following features may be included. The at least one annular groove of the swivel coupling may include a plurality of annular grooves and further included are a like plurality of seals, one disposed in each of the plurality of annular grooves. The first bearing surface and the second bearing surface may have widths between one (1) and three and one half (3.5) times the width of the at least one annular groove. The swivel coupling may further include an annular retaining ring groove disposed in the surface of the first annular member and positioned between the at least one annular groove and the shoulder, the annular retaining ring groove containing a retaining ring which protrudes above the surface of the first annular member. The swivel coupling may further include an annular recess in the inner surface of the bore, wherein the annular recess is configured to receive the retaining ring when the first annular member is inserted into the second annular member, and wherein the annular recess is located at a position between the shoulder and the at least one annular groove containing the seal. For the swivel coupling the inner surface of the bore from the first opening in the first end portion of the second annular member to the annular recess may be frusto-conically shaped and wherein the frusto-conically shaped inner surface is angled at least five degrees with respect to a longitudinal axis of the second annular member, thereby allowing the retaining ring to be gradually compressed when the first annular member is inserted into the bore of the second annular member as the retaining ring travels along the inner surface until it reaches the annular recess and expands into and is seated in the annular recess. The first opening in the first end portion may have a chamfered edge.
In an additional aspect of this invention there is a kit having a plurality of hose assemblies bundled together with a wrap. At least one of the hose assemblies includes a hose having a first end and a second end, a grip and fitting assembly affixed to the first end of the hose, a swivel coupling affixed to the second end of the hose. The swivel coupling includes a first annular member having an outer surface and an inner surface. The first annular member including a first end portion having at least one annular barb, a second end portion spaced from the first end portion and an insert member. There is a shoulder positioned between the at least one annular barb and the insert member and at least one annular groove disposed in the outer surface of the first annular member positioned between the shoulder and the insert member and the at least one annular groove containing a seal. There is a first bearing surface on a first side of the at least one annular groove in the direction of the shoulder and a second bearing surface on a second side of the at least one annular groove in the direction of the insert member. The first bearing surface and the second bearing surface have a width equal to or greater than a width of the at least one annular groove. There is a second annular member having an outer surface and an inner surface, the inner surface defining a bore configured to receive the first annular member. The second annular member includes a first end portion having a first opening in communication with the bore and a second end portion spaced from the first end portion and having a second opening in communication with the bore. When the first annular member is inserted into the bore of the second annular member, the shoulder of the first annular member frictionally engages the bore of the second annular member proximate the first opening. This allows the first annular member to rotate relative to the second annular member. The insert member of the first annular member terminates in the bore proximate the second opening and the seal engages with and seals the bore at a location between the first and second openings of second annular member. The at least one annular groove is spaced by a distance of at least the width of the first and second bearing surfaces from the shoulder and the second opening, respectively.
In one or more embodiments the following features may be included. The at least one annular groove of the swivel coupling may include a plurality of annular grooves and further included are a like plurality of seals, one disposed in each of the plurality of annular grooves. The first bearing surface and the second bearing surface may have widths between one (1) and three and one half (3.5) times the width of the at least one annular groove. The swivel coupling may further include an annular retaining ring groove disposed in the surface of the first annular member and positioned between the at least one annular groove and the shoulder, the annular retaining ring groove containing a retaining ring which protrudes above the surface of the first annular member. There may further be included an annular recess in the inner surface of the bore, wherein the annular recess is configured to receive the retaining ring when the first annular member is inserted into the second annular member, and wherein the annular recess is located at a position between the shoulder and the at least one annular groove containing the seal. The inner surface of the bore from the first opening in the first end portion of the second annular member to the annular recess may be frusto-conically shaped and wherein the frusto-conically shaped inner surface is angled at least five degrees with respect to a longitudinal axis of the second annular member, thereby allowing the retaining ring to be gradually compressed when the first annular member is inserted into the bore of the second annular member as the retaining ring travels along the inner surface until it reaches the annular recess and expands into and is seated in the annular recess. The first opening in the first end portion may have a chamfered edge.
The above and other benefits and advantages of the present invention will be readily apparent from the Detailed Description to follow.
Embodiments of the present invention will now be described, by way of example only, with reference to the attached Figures, wherein:
The present invention will now be described more fully herein with reference to exemplary embodiments, examples of which are illustrated in the accompanying drawings. Embodiments and implementations set forth in the following detailed description do not represent all embodiments and implementations of the claimed invention. One skilled in the art will appreciate that the present teachings can be practiced with embodiments other than those summarized or disclosed below by the Figures and Detailed Description of the Invention to follow.
For purposes of the following discussion, the terms “hose” and “tube” may be used throughout interchangeably and should not be considered as limiting the invention. Use of either term is meant to encompass both hoses and tubes and all applicable types of such hoses and tubes. Likewise, the exemplary embodiments may describe particular connectors, flexible tapered grips and couplers/connectors, including swivel couplings, however, it should be understood that these are examples of implementations of the present invention. Indeed, the present invention may be implemented within a variety of connectors, flexible tapered grips and couplers/connectors including swivel couplings.
Further, the invention is described herein with regard to transportation applications, in particular trucking; however, there may be other equally suitable applications of the present invention outside of the context of trucking and such applications are well within the intended scope of the present disclosure. In particular, the present invention may be applicable to any suitable mobile or fixed implementations including, but not limited to, air or gas, hydraulic connections, fuel or other fluid transfer, land or marine connections, airplane terminal vestibules, and/or ship-to-shore connections.
A flexible tapered grip assembly for installation in accordance with an aspect of the invention will first be described. Following the description of the flexible tapered grip assembly will be a description of the improved swivel coupling according to another aspect of the invention and then certain hose assemblies/kits using the flexible tapered grip assembly and/or the swivel coupling will be described.
Flexible Tapered Grip
With regard to
The grip 20 is a both flexible and tapered. Flexibility of the grip provides the ability of the grip to bend and yet return to its original shape. The grip 20 itself is a unitary structure fabricated from material suitable for the intended trucking environment which may be hostile to materials—i.e., where wide temperature variations occur and exposure to road salt and a variety of chemicals may occur. One suitable material includes thermoplastic vulcanizates (TPV) which are part of the thermoplastic elastomer (TPE) family of polymers. TPVs offer a combination of elastomeric properties, like compression and tension set, coupled with aging performance and chemical resistance. Other materials such as, but not limited to, ethylene propylene diene monomer (EPDM) thermoset rubber, nylon, or polyvinyl chloride (PVC) may be possible depending upon the intended environment. For example, PVC may not be suitably used for an intended cold weather implementation where flexibility is severely limited at reduced environmental temperatures. The grip 20 may be formed in any suitable manner including, but not limited to, injection molding. It should also be understood that the grip may be colored during molding and provided in a variety of color schemes (i.e., color coded) in accordance with any desired implementation (e.g. red for emergency brake lines, blue for service lines) and which assists to minimize incorrect tractor/trailer connections
With continued reference to
The grip 20 includes traction ridges 21 for an additional non-slip feature when the grip 20 is handled by a user. Recessed areas 26 (and 27 visible in
A fitting 10 is also shown in accordance with the inventive assembly. The fitting 10 includes a first coupling end 15 and a second coupling end 12 between which is located an exterior seating surface 11. It is the exterior seating surface 11 of the fitting 10 and the interior seating surface 24 of the grip 20 which are intended to abut upon insertion of the fitting 10 into the first end 23 of the grip 20. Such insertion is shown and described further below with regard to
With continued reference to
The fitting 10 itself is formed from a corrosion-resistant material such as, but not limited to brass. The first end 15 of the fitting is provided with threading and a hex-nut section 14 of the fitting 10 is provided to enable a user to utilize a wrench to connect the fitting 10 to a coupling mechanism (shown in dotted line as 40). The coupling mechanism 40 may be any suitable universal coupling mechanism such as, but not limited to, the aforementioned gladhand or similar coupler. As should be readily apparent from the description thus far and the accompanying
With reference to
It should be understood that each keyway boss 28a, 28b, 28c corresponds to a keyway recess 19 located on the fitting 10. As seen in
The annular lip 29 is configured perpendicular to the interior seating surface 24 and provides a surface against which the shoulder surface 13 of the fitting's shoulder 17 firmly abuts once the fitting 10 is completely inserted within the first end 23 of the grip 20.
With regard to
As shown in
It should be understood that the material from which the grip is fabricated will have elastic qualities such that the interior seating surface 24 will expand to allow the retaining should 17 to ride over it, but snap back into place once the retaining shoulder 17 is completely through and past the interior retaining surface 24. This snap-fit action results in the configuration seen in
The strain relief aspect of the present invention also provides an “anti-kinking” characteristic such that the tubing attached to the fitting through the tapered grip section is precluded from kinking. Unrestricted movement of the tube within the grip at the end opposite the fitting occurs only to a point at which bending of the given tube will result in the tube coming into contact with the sidewall of the grip. Due to the tapered nature of the grip, the ability of the grip to bend along with the tube is a function of the thickness of the grip. The thinner end will therefore bend along with the abutting tube in a manner that is proportional with the varied thickness of the grip wall. This tapering provides flexible support of the tube while inhibiting the ability of the tube to kink. This is effective against kinking that may otherwise (in the absence of the present invention) occur during the time of connection or at the time of operation (e.g., during a turning of the tractor cab relative to the trailer). Elongation of the grip may be provided so as to further enhance the anti-kinking characteristics of the present invention. In such elongation instance, the grip may be provided in successively tapering sections interconnected to one another.
It should therefore be understood that the sidewall of the flexible tapered grip decreases in thickness along the substantially tubular interior from fitting end to a tear-resistant rail end, so as to oppose kinking of the tube during installation and operation. Moreover, the tear-resistant rail engages with the tube upon minimal bending radius, so as to provide freedom of movement of the tube during initial bending. Thus, the opposing of kinking of the tube is an increasing function of the decrease in thickness from fitting end to rail end and elongation of the flexible tapered grip. In this manner, the grip is elongated along the tube so as to increase anti-kinking characteristics of the overall grip and fitting assembly relative to the tube.
In terms of implementation and use of the present invention, when used in conjunction with the all brass, corrosion-resistance fittings of the present invention, the grip and fitting assembly of the present invention provides improved bend and kink resistance during installation, operation, and gladhand connections and disconnections. Specifically, the present invention provides an improved thermo-composite flexible tapered grip and fitting design, the grip having increased thickness at the fitting end tapering to a tear-resistant rail at the hose and tube end of the fitting. The flexible tapered grip and grip fitting of the present invention further simplifies manufacture of the grip fitting assembly reducing cost and providing for longer operational life under bending and kinking.
Swivel Coupling
Referring to
Barb insert assembly 110 is a machined metallic part formed of brass or a comparable material having an outer surface 111 with a varying radius along its length and an inner surface 113 defining a bore through which fluid may flow between the hoses interconnected by the swivel coupling assembly 100. On outer surface 111 of barb insert assembly 110 there is a barb insert 114 spaced from barb insert end 112, along the longitudinal axis A of barb insert assembly 110, and at the opposite end of said assembly. Beginning at end 112 are formed a series of annular barbs 115 (in this example there are four but there may be greater or fewer depending on the application) which are designed to be inserted into a hose up to approximately shoulder 116 and provide a certain amount of gripping force to hold the hose in place on barb insert assembly 110. The amount of gripping force may not be sufficient to hold the hose in place in the hostile environments encountered by these components, therefore, a metal crimp (not shown) may be installed over the hose in the area of the barb insert assembly to more securely hold the hose in place.
Between shoulder 116 and barb insert 114 are formed three annular grooves 117, 118, and 119 in outer surface 111 of barb insert assembly 110. The groove closest to shoulder 116 may be a retaining ring groove 117 in which retaining ring 120 is disposed. The diameter of the retaining ring 120 is slightly larger than the diameter of the outer surface 111 in the area adjacent to the retaining ring groove 117, which results in the retaining ring protruding above the outer surface 111 when it is disposed in the retaining ring groove 117. Retaining ring 120 may be formed of a metal, such as stainless steel, carbon steel or the like, to provide it with sufficient stiffness to hold the two sub-assemblies in place when they are interconnected, as described below. Retaining ring 120 is constructed in the form of a coil so that as force is applied about the circumference it compresses and its diameter is reduced and when the force is terminated the ring expands to its neutral position with an increased diameter. The width of groove 117 is only slightly larger than the width of retaining ring 120, allowing for insertion of the ring but providing a friction fit so as to retain it in place.
Grooves (or glands) 118 and 119 are also disposed in outer surface 111, but they are further along the longitudinal axis A and closer to barb insert 114 than groove 117. Grooves 118 and 119 may have a width greater than groove 117, so they can accommodate O-ring seals 130 and 140, respectively, which may have a greater width than retaining ring 120. The diameters of O-ring seals 130 and 140 are slightly larger than the diameter of the outer surface 111 in the area adjacent to grooves 118 and 119, which results in the O-ring seals protruding just above the outer surface 111 when they are disposed in the grooves. In this example, groove 119 abuts barb insert 114.
Still referring to
A cross-sectional view of swivel coupling assembly 100 is shown in
Still referring to
O-ring seals 130 and 140 are shown in a compressed state in annular grooves/glands 118 and 119, respectively, since the diameter of the bore in annular fitting sub-assembly 150 defined by inner surface 155 is slightly smaller than the diameters of O-ring seals 130 and 140. This forms tight seals with inner surface 155 to prevent fluids from flowing in the gap defined by outer surface 111 of annular barb insert assembly 110 and inner surface 155 of annular fitting sub-assembly 150. In addition, wide bearing surfaces 131 and 141 are included adjacent to O-rings 130 and 140, respectively, which are in contact with and bear against inner surface 155 of annular fitting sub-assembly 150 to provide stable bearing surfaces to protect the O-rings from abnormal loading. This is particularly important as the components wear over time and may otherwise become susceptible to wobble during rotation. By wide, what is meant is that the bearing surfaces are at least as wide as the width of the annular grooves/glands 118 and 119 and preferably wider. The typical range for each bearing surface may be from 1 to 3.5 times wider than the annular grooves. In this embodiment, it should be noted that bearing surface 131 is the external surface of barb insert 114.
By way of example, bearing surface 131 may be 0.186 in. in width and bearing surface 141 may be 0.113 in. in width. With annular grooves 118/119 having a width of 0.095 in. the bearing surfaces 131 and 141 are respectively 1.19 and 1.86 times the width of the annular grooves. These dimensions are provided only as an example and should not be considered as limiting the scope of the invention.
The O-ring seals 130 and 140 as well as the retaining ring 120 and the outer surface 111 in the region of the annular barb insert assembly 110 inside the bore of annular fitting sub-assembly may be coated with a lubricant to provide for a smoother and easier insertion and rotational movement when the coupling is installed. To further facilitate a smoother and easier insertion, proximate end 151 of annular fitting assembly 150, the opening to the bore defined by inner surface 155 at location 162 is shown to have a wider diameter than the nominal diameter of the bore, such as at location 164 and throughout the rest of the bore to end 154 (excluding annular recess 160). The portion of the bore having a nominal diameter is cylindrical in shape. From location 164 to 162 the diameter of inner surface 155 gradually increases at fixed angle relative to longitudinal axis A (approximately 5 to 10 degrees) about the circumference of the bore, thus forming a frusto-conically shaped section between locations 162 and 164. From location 162 to the end 151 is formed a chamfered outer edge 166 which further helps in the smooth insertion of the annular barb insert assembly 110 into the annular fitting assembly. In particular, chamfered edge 166 is helpful in transitioning the retaining ring 120 as it goes from its normal expanded position and it begins to be compressed when it enters the bore.
During the assembly process, as retaining ring 120 encounters chamfered edge 166 it is guided into place and once it enters the bore at location 162 the force and compression on retaining ring 120 begins and gradually increases until the ring reaches location 164. As the retaining ring is pressed further into the bore beyond location 164, it encounters annular recess 160, at which point the force on the circumference of the retaining ring 120 is removed and retaining ring 120 expands and locks in place in annular recess 160. Once locked in place in annular recess 160, the retaining ring 120 prevents further movement of annular barb insert assembly 110 in either direction in the bore. Once in the installed position it can be seen that the outer surface of shoulder 116 is angled in a complimentary fashion to the inner surface 155 of the annular fitting assembly in that region to allow for a proper frictional fit and enable rotation between the two sub-assemblies.
An alternative embodiment of the swivel coupling assembly 100 of
Referring to
As with the embodiment in
The typical range for each bearing surface may be from 1 to 3.5 times wider than the annular grooves. By way of example, in this embodiment, bearing surface 131a may be 0.155 in. in width and bearing surface 141a may be 0.310 in. in width. With annular grooves 118a/119a having a width of 0.095 in. the bearing surfaces 131a and 141a are respectively 1.63 and 3.26 times the width of the annular grooves. Again, this is merely a specific example and should not be considered as limiting the scope of the invention.
The O-ring seals 130a and 140a and the outer surface 111a in the region of the annular barb insert assembly 110a inside the bore of annular fitting sub-assembly may be coated with a lubricant to provide for a smoother and easier insertion and rotational movement when the coupling is installed. To further facilitate a smoother and easier insertion, proximate end 151a of annular fitting assembly 150a has a chamfered outer edge 166a which further helps in the smooth insertion of the annular barb insert assembly 110a into the annular fitting assembly.
Hose Assemblies and Kits Utilizing the Grip and/or Swivel Coupling
As indicated above, various hose assemblies and kits using the flexible tapered grip assembly and/or the swivel coupling will be described. As shown in
One application of hose assembly 200 is shown in
In another application, shown in
In
Kit 400a may further include a clamp assembly 460a which can be located at various positions along the lengths of the hoses/cable product to lift and secure the kit when the various assemblies are connected. Clamp assembly 460a is more clearly depicted in
Similarly, there is shown in
Kit 400b may further include a clamp assembly 460b which can be located at various positions along the lengths of the hoses/cable product to lift and secure the kit when the various assemblies are connected. Clamp assembly 460b is more clearly depicted in
While the foregoing description of the invention enables one of ordinary skill to make and use what is considered presently to be the best mode thereof, those of ordinary skill will understand and appreciate the existence of variations, combinations, and equivalents of the specific embodiments and examples herein.
The above-described embodiments of the present invention are intended to be examples only. Alterations, modifications and variations may be effected to the particular embodiments by those of skill in the art without departing from the scope of the invention, which is defined solely by the claims appended hereto.
The invention is therefore not limited by the above-described embodiments and examples, or embodiments and applications within the scope and spirit of the invention claimed as follows.
Claims
1. A swivel coupling assembly, comprising:
- a first annular member having an outer surface and an inner surface, the first annular member including: a first end portion having at least one annular barb; a second end portion spaced from the first end portion and including an insert member; an angled shoulder positioned between the at least one annular barb and the insert member; at least one annular groove disposed in the outer surface of the first annular member and positioned between the shoulder and the insert member, the at least one annular groove containing a seal; and an annular retaining ring groove disposed in the surface of the first annular member and positioned between the at least one annular groove and the shoulder, the annular retaining ring groove containing a retaining ring which protrudes above the surface of the first annular member; and
- a second annular member having an outer surface and an inner surface, the inner surface defining a bore configured to receive the first annular member, the second annular member including: a first end portion having a first opening in communication with the bore; and a second end portion spaced from the first end portion and having a second opening in communication with the bore; an annular recess in the inner surface of the bore, wherein the annular recess is configured to receive the retaining ring when the first annular member is inserted into the second annular member, and wherein the annular recess is aligned with the annular retaining ring groove; wherein from a location proximate the first opening in the first end portion of the second annular member to a cylindrical portion of the bore, the inner surface of the bore is frusto-conically shaped;
- wherein, when the first annular member is inserted into the bore of the second annular member;
- the retaining ring is gradually compressed as the retaining ring travels along the frusto-conically shaped inner surface of the bore until it reaches the annular recess and expands into and is seated in the annular recess;
- the angled shoulder of the first annular member conforms with and frictionally engages the frusto-conically shaped inner surface of the bore of the second annular member proximate the first opening, thereby allowing the first annular member to rotate relative to the second annular member; and
- the insert member of the first annular member terminates in the bore proximate the second opening.
2. The swivel coupling of claim 1 wherein the at least one annular groove includes a plurality of annular grooves and further included are a like plurality of seals, one disposed in each of the plurality of annular grooves.
3. The swivel coupling of claim 1 further including a first bearing surface on a first side of the at least one annular groove in the direction of the shoulder and a second bearing surface on a second side of the at least one annular groove in the direction of the insert member; wherein the first bearing surface and the second bearing surface have widths between one (1) and three and one half (3.5) times the width of the at least one annular groove.
4. (canceled)
5. (canceled)
6. The swivel coupling of claim 1 wherein the frusto-conically shaped inner surface is angled at least five degrees with respect to a longitudinal axis of the second annular member.
7. The swivel coupling of claim 6 wherein the first opening in the first end portion has a chamfered edge.
8. (canceled)
9. The swivel coupling of claim 1 wherein the first end portion of the first annular member includes a plurality of annular barbs which are configured to engage and retain a hose
10. The swivel coupling of claim 1 wherein the inner surface of the first annular member defines a bore configured to carry a fluid there-through.
11. The swivel coupling of claim 1 wherein the outer surface of the second annular member includes a threaded portion for being inserted into and engaged with a hose or a complimentarily threaded fixture.
12. The swivel coupling of claim 11 wherein the outer surface of the second annular member further includes a head having a plurality of flat surfaces configured to be engaged by a tool to impart torque to rotate the second annular member to engage the hose or a complimentarily threaded fixture.
13. A hose assembly, comprising:
- a hose having a first end and a second end;
- a first swivel coupling affixed to the first end of the hose;
- a second swivel coupling affixed to the second end of the hose;
- wherein each of the first and second swivel couplings comprise:
- a first annular member having an outer surface and an inner surface, the first annular member including: a first end portion having at least one annular barb; a second end portion spaced from the first end portion and including an insert member; an angled shoulder positioned between the at least one annular barb and the insert member; at least one annular groove disposed in the outer surface of the first annular member and positioned between the shoulder and the insert member, the at least one annular groove containing a seal; and an annular retaining ring groove disposed in the surface of the first annular member and positioned between the at least one annular groove and the shoulder, the annular retaining ring groove containing a retaining ring which protrudes above the surface of the first annular member; and
- a second annular member having an outer surface and an inner surface, the inner surface defining a bore configured to receive the first annular member, the second annular member including: a first end portion having a first opening in communication with the bore; and a second end portion spaced from the first end portion and having a second opening in communication with the bore; an annular recess in the inner surface of the bore, wherein the annular recess is configured to receive the retaining ring when the first annular member is inserted into the second annular member, and wherein the annular recess is aligned with the annular retaining ring groove; wherein from a location proximate the first opening in the first end portion of the second annular member to a cylindrical portion of the bore, the inner surface of the bore is frusto-conically shaped;
- wherein, when the first annular member is inserted into the bore of the second annular member;
- the retaining ring is gradually compressed as the retaining ring travels along the frusto-conically shaped inner surface of the bore until it reaches the annular recess and expands into and is seated in the annular recess;
- the angled shoulder of the first annular member conforms with and frictionally engages the frusto-conically shaped inner surface of the bore of the second annular member proximate the first opening, thereby allowing the first annular member to rotate relative to the second annular member; and
- the insert member of the first annular member terminates in the bore proximate the second opening.
14. The hose assembly of claim 13 wherein the at least one annular groove of the first and second swivel couplings includes a plurality of annular grooves and further included are a like plurality of seals, one disposed in each of the plurality of annular grooves.
15. The hose assembly of claim 13 further including a first bearing surface on a first side of the at least one annular groove in the direction of the shoulder and a second bearing surface on a second side of the at least one annular groove in the direction of the insert member; wherein the first bearing surface and the second bearing surface have widths between one (1) and three and one half (3.5) times the width of the at least one annular groove.
16. (canceled)
17. (canceled)
18. The hose assembly of claim 13 wherein the frusto-conically shaped inner surface is angled at least five degrees with respect to a longitudinal axis of the second annular member.
19. The hose assembly of claim 18 wherein for the first and second swivel couplings the first opening in the first end portion has a chamfered edge.
20. The hose assembly of claim 13 wherein proximate each of the first end and the second end of the hose is included a collar disposed about the hose, the collar including an identification marking.
21. A hose assembly, comprising:
- a hose having a first end and a second end;
- a grip and fitting assembly affixed to the first end of the hose;
- a swivel coupling affixed to the second end of the hose; wherein the swivel coupling, comprises:
- a first annular member having an outer surface and an inner surface, the first annular member including: a first end portion having at least one annular barb; a second end portion spaced from the first end portion and including an insert member; an angled shoulder positioned between the at least one annular barb and the insert member; at least one annular groove disposed in the outer surface of the first annular member and positioned between the shoulder and the insert member, the at least one annular groove containing a seal; and an annular retaining ring groove disposed in the surface of the first annular member and positioned between the at least one annular groove and the shoulder, the annular retaining ring groove containing a retaining ring which protrudes above the surface of the first annular member; and
- a second annular member having an outer surface and an inner surface, the inner surface defining a bore configured to receive the first annular member, the second annular member including: a first end portion having a first opening in communication with the bore; and a second end portion spaced from the first end portion and having a second opening in communication with the bore; an annular recess in the inner surface of the bore, wherein the annular recess is configured to receive the retaining ring when the first annular member is inserted into the second annular member, and wherein the annular recess is aligned with the annular retaining ring groove; wherein from a location proximate the first opening in the first end portion of the second annular member to a cylindrical portion of the bore, the inner surface of the bore is frusto-conically shaped;
- wherein, when the first annular member is inserted into the bore of the second annular member;
- the retaining ring is gradually compressed as the retaining ring travels along the frusto-conically shaped inner surface of the bore until it reaches the annular recess and expands into and is seated in the annular recess;
- the angled shoulder of the first annular member conforms with and frictionally engages the frusto-conically shaped inner surface of the bore of the second annular member proximate the first opening, thereby allowing the first annular member to rotate relative to the second annular member; and
- the insert member of the first annular member terminates in the bore proximate the second opening.
22. The hose assembly of claim 21 wherein the at least one annular groove of the swivel coupling includes a plurality of annular grooves and further included are a like plurality of seals, one disposed in each of the plurality of annular grooves.
23. The hose assembly of claim 21 further including a first bearing surface on a first side of the at least one annular groove in the direction of the shoulder and a second bearing surface on a second side of the at least one annular groove in the direction of the insert member; wherein the first bearing surface and the second bearing surface have widths between one (1) and three and one half (3.5) times the width of the at least one annular groove.
24. (canceled)
25.
26. The hose assembly of claim 21 wherein the frusto-conically shaped inner surface is angled at least five degrees with respect to a longitudinal axis of the second annular member.
27. The hose assembly of claim 26 wherein for the swivel coupling the first opening in the first end portion has a chamfered edge.
28. A kit having a plurality of hose assemblies bundled together with a wrap, at least one of the hose assemblies, comprising:
- a hose having a first end and a second end;
- a grip and fitting assembly affixed to the first end of the hose;
- a swivel coupling affixed to the second end of the hose; wherein the swivel coupling, comprises:
- a first annular member having an outer surface and an inner surface, the first annular member including: a first end portion having at least one annular barb; a second end portion spaced from the first end portion and including an insert member; an angled shoulder positioned between the at least one annular barb and the insert member; at least one annular groove disposed in the outer surface of the first annular member and positioned between the shoulder and the insert member, the at least one annular groove containing a seal; and an annular retaining ring groove disposed in the surface of the first annular member and positioned between the at least one annular groove and the shoulder, the annular retaining ring groove containing a retaining ring which protrudes above the surface of the first annular member; and
- a second annular member having an outer surface and an inner surface, the inner surface defining a bore configured to receive the first annular member, the second annular member including: a first end portion having a first opening in communication with the bore; and a second end portion spaced from the first end portion and having a second opening in communication with the bore; an annular recess in the inner surface of the bore, wherein the annular recess is configured to receive the retaining ring when the first annular member is inserted into the second annular member, and wherein the annular recess is aligned with the annular retaining ring groove; wherein from a location proximate the first opening in the first end portion of the second annular member to a cylindrical portion of the bore, the inner surface of the bore is frusto-conically shaped;
- wherein, when the first annular member is inserted into the bore of the second annular member;
- the retaining ring is gradually compressed as the retaining ring travels along the frusto-conically shaped inner surface of the bore until it reaches the annular recess and expands into and is seated in the annular recess;
- the angled shoulder of the first annular member conforms with and frictionally engages the frusto-conically shaped inner surface of the bore of the second annular member proximate the first opening, thereby allowing the first annular member to rotate relative to the second annular member; and
- the insert member of the first annular member terminates in the bore proximate the second opening.
29. The kit of claim 28 wherein the at least one annular groove of the swivel coupling includes a plurality of annular grooves and further included are a like plurality of seals, one disposed in each of the plurality of annular grooves.
30. The kit of claim 28 further including a first bearing surface on a first side of the at least one annular groove in the direction of the shoulder and a second bearing surface on a second side of the at least one annular groove in the direction of the insert member; wherein the first bearing surface and the second bearing surface have widths between one (1) and three and one half (3.5) times the width of the at least one annular groove.
31. (canceled)
32. (canceled)
33. The kit of claim 32 wherein the frusto-conically shaped inner surface is angled at least five degrees with respect to a longitudinal axis of the second annular member.
34. The kit of claim 33 wherein for the swivel coupling the first opening in the first end portion has a chamfered edge.
Type: Application
Filed: Dec 29, 2017
Publication Date: May 24, 2018
Inventors: Kenneth M. Caprio (Cheektowaga, NY), Edward H. Badhorn (Clarence Center, NY), James C. Papafagos (North Java, NY), Bruce D. McKie (Oakville)
Application Number: 15/858,823