BR202020015280U2 - TECHNICAL LAYOUT INTRODUCED IN TWO-PARTED HERMETIC COUPLING-FL-1 - Google Patents

Abstract

technical arrangement introduced in bipartite-fl-1 hermetic coupling. the present utility model patent concerns the technical provision introduced in bipartite hermetic coupling (fl-1), developed to serve the field of industrial installations, condominiums, fluid networks and others, with the purpose of sealing and eliminating leaks in barrels, networks and pipes of different materials such as pvc, cpvc, pex, ppr, copper, prfv, cast iron, steel, metal alloys, among others, to be installed over flanged connections and/or in the vicinity thereof, being the same characterized in that it consists of a split coupling assembled with the presence of a screwed closing system (2) and/or quick closing (11) and/or articulated (12), flanged (4) or threaded (10) compression modules, which it is installed through separate parts, positioned to embrace the pipe (6) with its chamber encompassing the entire external radius of the flange/pipe region to be sealed, having its parts fixed by means of trim pieces screws (2) and/or by means of a quick locking system using bento lock (11).

Description

TECHNICAL LAYOUT INTRODUCED IN TWO-PARTED HERMETIC COUPLING-FL-1 INTRODUCTION

001 This utility model descriptive report concerns the Technical Arrangement Introduced in Bipartite Hermetic Coupling-FL-1, hereinafter called Bipartite Hermetic Coupling (FL-1), which was developed to be assembled by joining parts by screwing and/or fast locking through the use of Bento Closure, with its use aimed at sealing and eliminating leaks in barrels, networks and pipes of various materials such as PVC, CPVC, PEX, PPR, Copper, FRP, Cast Iron, Steel, Metal Alloys, among others, to be installed over flanged connections and/or close to them.

APPLICATION FIELD

002 The field of application of this Bipartite Hermetic Coupling refers to the area of devices and/or hydraulic connections for fluid networks and industries in general, including sanitation and condominiums.

GOAL

003 The purpose of this Bipartite Hermetic Coupling (FL-1) is to stop and/or correct the leakage of fluid in a flanged union pipe, promoting the watertightness of the system without the need to interrupt the work in progress on the system in operation of industries in general, networks, water mains, outfalls, water and effluent treatment stations, oil platforms, and other productive segments.

PROBLEMS TO SOLVE

004 As is well known among technicians in the field, the joints and couplings currently available on the market are especially intended for sealing and/or splicing barrels, networks and pipes for “tip-end” coupling without welding, without threads and/or without flanges.

005 In flanged connection pipes, the occurrence of leaks between the flanges, welds and/or in the vicinity of the flange/tube unions, end up requiring an interruption of the flow of the fluid present in the system in question so that the problem will be remedied with the replacement and/or recovery of all damaged parts, which may take a long time to solve the problem, and in some situations be used permanently.

006 Bearing this in mind, the interruption of the aforementioned flow can cause great damage to the industry, especially when it comes to flow and working pressure on a large scale.

TECHNICAL STATUS

• - BR 11 2018 068503-8 depositada em 16/05/2017 e publicada em 22/01/2019 sob o título de “ACOPLAMENTO E MÉTODO PARA UNIR ELEMENTOS DE TUBO”, um acoplamento de tubo para tubo de extremidade simples que é formado por segmentos unidos de extremidade a extremidade circundando um espaço central. Os segmentos são conectados de extremidade a extremidade por aletas em cada segmento, com prendedores que se estendem entre as mesmas. Cada segmento tem canais em lados opostos que estão voltados para o espaço central com pisos em raios diferentes. Retentores são recebidos dentro dos canais. Os retentores possuem dentes e uma ou mais abas deslocadas que cooperam com os canais para evitar montagem inadequada. Uma vedação em anel é recebida dentro de um canal posicionado em cada segmento entre os canais retentores.
• - BR 10 2017 025997-8 depositada em 01/12/2017 e publicada em 21/08/2018 sob o título de "CONECTOR UNIVERSAL DE ALTA CAPACIDADE", a qual refere-se a um conector universal de alta capacidade, para uso na conexão de elementos tubulares, e a um método para selagem dos elementos tubulares. Os primeiro e segundo elementos tubulares são proporcionados, em que ambos têm extremidades que são postas em acoplamento frente a frente por um conector. Um elemento selante metálico sela contra superfícies cônicas, nas extremidades dos primeiro e segundo elementos tubulares, e propicia que toda a superfície da extremidade de um elemento tubular seja posta em acoplamento com a superfície da extremidade do outro elemento tubular, de modo a aperfeiçoar a capacidade de flexão e compressão da montagem, que compreende os elementos tubulares e o elemento selante metálico. Um anel selante metálico, para uso nesse conjunto, é também proporcionado, juntamente com uma montagem retentora de gaxetas.

007 Aiming at placing on the market an equipment with its own technical development characteristics, prior art searches were carried out with the INI database, and the following documents were found:

• - BR 11 2018 068503-8 filed on 05/16/2017 and published on 01/22/2019 under the title of “COUPLINING AND METHOD TO JOIN PIPE ELEMENTS”, a single-end pipe-to-pipe coupling that is formed by end-to-end joined segments encircling a central space. The segments are connected end to end by fins on each segment, with fasteners extending between them. Each segment has channels on opposite sides that face the central space with floors at different radii. Retainers are received within channels. Retainers have teeth and one or more offset tabs that cooperate with the channels to prevent improper mounting. A ring seal is received within a channel positioned in each segment between the retaining channels.
• - BR 10 2017 025997-8 filed on 12/01/2017 and published on 08/21/2018 under the title of "HIGH CAPACITY UNIVERSAL CONNECTOR", which refers to a high capacity universal connector, for use in connecting tubular elements, and a method for sealing the tubular elements. First and second tubular elements are provided, both of which have ends which are mated face to face by a connector. A metallic sealing element seals against conical surfaces at the ends of the first and second tubular elements and provides for the entire end surface of one tubular element to be mated with the end surface of the other tubular element, in order to improve the capacity of flexion and compression of the assembly, which comprises the tubular elements and the metallic sealing element. A metal sealing ring for use in this assembly is also provided, along with a gasket retainer assembly.

008 From the comparative analysis between the documents found and the Bipartite Hermetic Coupling (FL-1)_now on screen, it appears that they are totally different, which is why we consider that there are no legal and technical impediments to granting the privilege requested.

TECHNOLOGICAL PROGRESS

009 The technological advance of the Bipartite Hermetic Coupling (FL-1) corresponds to its bipartite structural form, which is installed through separate parts, with positioning in order to embrace the pipe with its chamber encompassing the entire external radius of the flange region. /pipe to be sealed, having its parts fixed by means of screwed, articulated parts and/or by means of a quick locking system using the device called Closing Bento.

010 The invention also has the advantage of dispensing with the interruption of the fluid flow work of the system in operation, in addition to presenting an easy, practical and quick way of installing it.

DESCRIPTION OF THE FIGURES

011 In order to obtain a total and complete view of how the Bipartite Hermetic Coupling (FL-1) is constituted, now in question and object of this Utility Model Patent, follow the illustrative drawings attached, to which references are made as follows:
Figure 1: Represents a perspective view of the split coupling assembled with split flanged compression module and bolted closing system;
Figure 2: Corresponds to the front view of the split coupling, where the flanged compression module is shown, mounted with a bolted closing system;
Figure 3: Illustrates the top view of the split coupling mounted with a bolted closing system, mounted with a flanged compression system;
Figure 4: Shows a side view of the split coupling mounted with a bolted closing system, mounted with a flanged compression system;
Figure 5: Represents longitudinal section of the side view of the split coupling, bolted closure system, with the inclusion of flanged piping to be sealed;
Figure 6: Corresponds to the longitudinal section in front view with “bolted closure” and “flange compression” systems, with the inclusion of the flanged pipe to be sealed;
Figure 7: Shows a perspective view of the longitudinal section with the inclusion of the flanged pipe to be sealed positioned inside the split chamber;
Figure 8: Illustrates a front view of the body of one of the coupling halves without the presence of the flange and screws, detailing the A1 boss and the groove “Z” between the two halves that will be coupled by compressing the sealing rubber of the invention .
Figure 9: Represents an external view of the split sealing ring to be fixed in the coupling of the invention to be pressed by the compression module;
Figure 10: Corresponds to the internal view of the split sealing ring to be fixed in the coupling of the invention to be pressed by the compression module;
Figure 11: Shows a top view of the sealing rubber to be fixed between the coupling modules of the invention, including details (cut) of the part;
Figure 12: Illustrates a longitudinal section of the side view of the assembled coupling, showing the boundary between the flanged compression module fittings, the gasket halves, in addition to the rubber gasket positioned between the mating surfaces between the two body halves of the coupling;
Figure 13: Shows a front perspective view of the invention with a screwed closure system, prepared for the use of a threaded compression module, however, without its presence, leaving the internal thread on the coupling for fixing the split sealing ring to be compressed apparent by the compression device;
Figure 14: Front view of the coupling with a bolted closing system, assembled using the split threaded compression module;
Figure 15: Side view of the invention, exposing the threaded compression modules, in addition to the coupling with closing the system through quick locking with the use of “bento clasp”;
Figure 16: Top view of the invention, showing the threaded compression modules, in addition to the coupling with closure of the system through quick locking with the use of “bento closure”;
Figure 17: Front perspective view of the invention, showing the two-part threaded compression modules, in addition to the coupling with closing of the closing system through quick locking with the use of “bento clasp”;
Figure 18: Front view of the invention, showing the two-part threaded compression modules, with articulated coupling module at one end and bolted closing system at the other end.

DESCRIPTION OF THE INVENTION

012 As can be seen from the attached drawings, the Bipartite Hermetic Coupling (FL-1) was developed to serve the field of industrial, condominium and other installations, with the purpose of sealing and eliminating leaks in barrels, fluid networks and pipelines of various materials such as PVC, CPVC, PEX, PPR, Copper, FRP, Cast Iron, Steel, Metal Alloys, among others, to be installed over flanged connections and/or close to them.

013 To meet the intended purposes, the Bipartite Hermetic Coupling (FL-1) consists of a split coupling assembled with a screwed (2) and/or articulated (12) closing system and/or quick closing (11), fastening screws closure (3), compression flanges (4) and screws fixing the flanges (5), which is installed through separate parts, positioned in order to embrace the flanged pipe (6) with its chamber encompassing the entire external radius of the flange/pipe region to be sealed.

014 The Hermetic Split Coupling (FL-1) has a sealing ring (8), and sealing rubber (7) between the parts of the split coupling. It also has rubber capable of molding to the surface of the pipe (13), compensating for possible irregularities present, thus promoting a perfect accommodation in the internal area of the chamber of the invention.

015 Good tightness results are achieved according to the described characterization, associated with the pressure exerted by the flanged compression module (4) or threaded compression module (10), which will compress the split sealing ring (8) in contact with the same, in order to consolidate a perfect sealing of the system.

016 The invention is mounted externally to the pipe (6), and when tightening the screws (3) of the bolted closure system (2), or tightening the quick locking system using bento closure (11), they compress the sealing rubber ( 7) between the body, against the tube (6)

017 The flanged compression module (4), and sealing rings (8) are mounted externally to the pipeline (6).

018 When tightening the screws (5) of the compression module, they compress the split sealing rings (8) against the body, providing a hermetic system in the region of the tube (6).

019 In the case of using the threaded compression modules (10), they are rotated in the body of the split hermetic coupling (FL-1) in order to compress the sealing rings (8), thus providing a perfect watertightness of the system.

020 The pressure exerted by the flanged module (4) or by the threaded module (10) on the split sealing ring (8) must have a compression force such that it allows total accommodation between the rubber/rubber and rubber/tube surfaces , thus enabling a hermetic system.

021 The specification of manufacturing materials, as well as the thickness and dimensioning of the invention, will depend on the diameter of the pipe to be sealed, and may include amplitudes according to the projected need of the plant or systems in operation.

022 For flexibility and practicality of assembly of the invention, the split coupling may have a joint at one end (12), with closure at the other end with a screwed closure system (2) or a quick locking system using bento closure (11).

023 The fixing screws (3) and compression screws (5) for any diameter are normally supplied in galvanized and/or stainless steel, and the rings (8) and rubber (7) for sealing and coatings are manufactured in NBR or silicone or resin , according to the pressure class and operating fluid, being resistant to gases, salt water, sewage, oils, greases, solvents and chemical products in general.

CONCLUSION

024 It can be seen from all that has been described and illustrated that it is a Bipartite Hermetic Coupling (FL-1) which fits perfectly within the rules governing the Utility Model patent, deserving for what has been described and illustrated, the requested privilege.

Claims (1)

"TECHNICAL DISPOSITION INTRODUCED IN TWO-PARTED-FL-1 HERMETIC COUPLING", intended for sealing and eliminating leaks in barrels, fluid networks and pipes of various materials such as PVC, CPVC, PEX, PPR, Copper, FRP, Cast Iron, Steel , Metal Alloys, among others, to be installed on flanged connections and/or in the vicinity thereof, being the same characterized by being constituted by a bipartite coupling assembled with the presence of a bolted closing system (2) and/or and/or closing quick (11) and/or articulated (12), flanged (4) or threaded (10) compression modules, which is installed through separate parts, positioned to embrace the pipe (6) with its chamber encompassing the entire the external radius of the flange/pipe region to be sealed, having its parts fixed by means of screwed parts (3) and/or by means of a quick locking system using “bento closure” (11).

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