The present invention relates to an apparatus and method for establishing, repairing, or sealing off a connection between two pipes, such as a buried sewer main pipe and lateral pipe.
Conventional sewer lines include a main pipe which extends along the street in a direction parallel to the street. Each house has a lateral pipeline that extends from the home and connects to the main pipeline. Sometimes the connection between the main pipe and the lateral pipe gets damaged, or sometimes it is desirable to connect a new lateral pipe to an existing main pipe. Devices referred to as saddles or tapping saddles are known in the pipe rehabilitation industry for such purposes. Tapping saddles include a curved plate positioned on the outer surface of the sewer pipe and extend at least partially around the sewer pipe to help secure the saddle to the pipe. A boss having a bore extends away from an aperture in the curved plate. The aperture in the curved plate is aligned with an aperture cut in the main pipe or with an aperture left in the main pipe when the lateral pipe was disconnected. The lateral pipe is connected to the boss to create or restore connection between the lateral pipe and the main pipe.
In some existing tapping saddle devices, the seal between the curved plate and the main pipe is prone to leakage or failure. This may result in ground water infiltrating the pipe and/or water and potentially sewage leaking from the pipe into the ground surrounding the pipe. Therefore, there is a need for an improved saddle device which helps create a fluid tight seal between the curved plate and the main pipe.
Therefore, a primary object, feature and/or advantage of the present invention is the provision of an improved method for establishing, repairing, or sealing off the connection between a main pipe and a lateral pipe.
A further object, feature and/or advantage of the present invention is a new apparatus and method for establishing, repairing, or sealing off the connection between a main pipe and a lateral pipe using an assembly having a compressible gasket between the curved plate and the main pipe.
A further object, feature and/or advantage of the present invention is a new apparatus and method for establishing, repairing, or sealing off the connection between a main pipe and a lateral pipe using an assembly having a hydrophilic or hydrophobic sealing gasket between the curved plate and the main pipe.
These and/or other objects, features and/or advantages of the present invention will become apparent with reference to the remainder of the specification and claims.
One aspect of the present invention includes an assembly for establishing or repairing the connection between two pipes such as between a first (main) pipe and a second (lateral) pipe. The assembly includes a pipe saddle device having a curved plate with a first side and a second side. The second side of the curved plate is adapted to engage the pipe along an arc of the outer surface of the pipe. The pipe saddle device also includes a boss extending upwardly from the curved plate about an aperture in the curved plate. A gasket, which may be pre-formed or formed from a bead of caulk or paste, extends around the aperture of the second side of the curved plate to help seal the curved plate to the first pipe. In the embodiments having a pre-formed gasket, the gasket may be attached to the second side of the curved plate mechanically or with an adhesive. The gasket may be made from any suitable compressible material, including a hydrophilic material, a hydrophobic material, and an absorbent material. A hydrophilic material is capable of expanding or swelling in response to being exposed to a liquid, such as water, and forms a seal between the second side of the curved plate and the main pipe. The assembly further includes one or more mechanical fasteners for securing the pipe saddle device to the pipe. The mechanical fastener may include a worm drive hose clamp, strap, bolts, screws, or the like. The mechanical fastener provides a first force against the first side of the pipe saddle device for securing the pipe saddle device to the pipe. In embodiments having a hydrophilic gasket, as the hydrophilic material expands upon its exposure to a liquid, the expanded hydrophobic material fills any space between the pipe saddle device and the main pipe and provides a second force to the second side of the curved plate. The mechanical fastener(s) hold the pipe saddle device against the pipe even as the second force pushes against the second side of the pipe saddle device therefore allowing the gasket to create a true compression seal. An adhesive material can also be disposed between the curved plate and the outer surface of the main pipe to assist in holding the curved plate on the pipe.
Another aspect of the present invention includes a method of establishing the connection between a main pipe and a lateral pipe. The method generally includes excavating the ground to expose a portion of the main pipe and the new lateral pipe adjacent to the main pipe, taking a pipe saddle device as described previously, attaching the pipe saddle device to the main pipe, securing the pipe saddle device to the main pipe using a mechanical fastener, cutting an access hole in the main pipe aligned with a boss bore formed by the boss of the pipe saddle device, and connecting the new lateral pipe with the boss to provide fluid communication between the main pipe and the lateral pipe. The pipe saddle device is mechanically secured to the main pipe by any suitable mechanical fastener. In embodiments where the gasket comprises a hydrophilic material, the mechanical fastener provides a first force against the first side of the pipe saddle device for securing the pipe saddle device to the pipe as the hydrophilic material expands upon its exposure to a liquid and provides a second force to the second side of the curved plate. As the hydrophilic material expands upon its exposure to a liquid, the expanded hydrophobic material fills any space between the pipe saddle device and the main pipe and provides a second force to the second side of the curved plate. The mechanical fastener(s) hold the pipe saddle device against the pipe even as the second force pushes against the second side of the pipe saddle device. An adhesive material can also be disposed between the curved plate and the outer surface of the main pipe to assist in holding the curved plate on the pipe.
Another aspect of the present invention includes a method of repairing the connection between a main pipe and a lateral pipe. The method generally includes excavating the ground to expose a portion of the main pipe and the existing lateral pipe connected to the main pipe, disconnecting the lateral pipe from the main pipe, taking a pipe saddle device as described previously, attaching the pipe saddle device to the main pipe, securing the pipe saddle device to the main pipe using a mechanical fastener, and reconnecting the lateral pipe with the boss to provide fluid communication between the main pipe and the lateral pipe. The pipe saddle device is mechanically secured to the pipe by any suitable mechanical fastener. The mechanical fastener provides a first force against the first side of the pipe saddle device for securing the pipe saddle device to the pipe. As the hydrophilic material expands upon its exposure to a liquid, the expanded hydrophobic material fills any space between the pipe saddle device and the main pipe and provides a second force to the second side of the curved plate. The mechanical fastener(s) hold the pipe saddle device against the pipe even as the second force pushes against the second side of the pipe saddle device. An adhesive material can also be disposed between the curved plate and the outer surface of the main pipe to assist in holding the curved plate on the pipe.
Another aspect of the present invention includes an assembly for repairing a crack, opening, or other damaged area in a main pipe or taking a lateral pipe out of service. The assembly includes a curved plate having a first side and a second side without an aperture in the middle. The second side of the curved plate is adapted to engage the pipe along an arc of the outer surface of the pipe at the area in need of repair or at the opening for a previously installed lateral pipe. A gasket is secured to the second side of the curved plate to help seal off an opening in the main pipe. The gasket is similar to the gasket described previously and may be in the shape of a ring or donut so that the gasket surrounds the opening in the pipe. The gasket may be made from any suitable compressible material, including a hydrophilic material, a hydrophobic material, and an absorbent material. A hydrophilic material is capable of expanding or swelling in response to being exposed to a liquid, such as water, and forms a seal between the second side of the curved plate and the main pipe. The pipe saddle device is mechanically secured to the pipe by any suitable mechanical fastener. The mechanical fastener provides a first force against the first side of the pipe saddle device for securing the pipe saddle device to the pipe. In embodiments where the gasket comprises a hydrophilic material, as the hydrophilic material expands upon its exposure to a liquid, the expanded hydrophobic material fills any space between the pipe saddle device and the main pipe and provides a second force to the second side of the curved plate. The mechanical fastener(s) hold the pipe saddle device against the pipe even as the second force pushes against the second side of the pipe saddle device. An adhesive material can also be disposed between the curved plate and the outer surface of the main pipe to assist in holding the curved plate on the pipe.
Another aspect of the present invention includes a method of repairing a crack or opening in a main pipe or taking a lateral pipe out of service. The method generally includes excavating the ground to expose a portion of the main pipe and the lateral pipe and/or the opening in the main pipe, disconnecting the lateral pipe from the main pipe (in embodiments where the lateral is being taken out of service) to leave an opening in the main pipe, taking a pipe saddle device as described in the previous paragraph, attaching the pipe saddle device to the main pipe with the gasket surrounding the opening, securing the pipe saddle device to the main pipe using a mechanical fastener. The pipe saddle device is mechanically secured to the pipe by any suitable mechanical fastener. The mechanical fastener provides a first force against the first side of the pipe saddle device for securing the pipe saddle device to the pipe. In embodiments where the gasket comprises a hydrophilic material, as the hydrophilic material expands upon its exposure to a liquid, the expanded hydrophobic material fills any space between the pipe saddle device and the main pipe and provides a second force to the second side of the curved plate. The mechanical fastener(s) hold the pipe saddle device against the pipe even as the second force pushes against the second side of the pipe saddle device. An adhesive material can also be disposed between the curved plate and the outer surface of the main pipe to assist in holding the curved plate on the pipe.
The present invention contemplates providing access to all kinds of pipelines, including, but not limited to mainline sewer pipelines, lateral sewer pipelines, gas pipelines, and potable water pipelines.
For exemplary purposes only, the present invention is described in detail with reference to establishing, repairing, or sealing off the connection between a main pipe 16 and a lateral pipe 10. The present invention is equally applicable to as other types of pipe.
As best shown in
In some embodiments, the curved plate 30 includes a concave surface having a radius of curvature less than the radius of curvature of the outer surface of the pipe 16 so that the curved plate 30 is biased against the outer surface of the pipe 16 when the curved plate 30 is expanded or flexed to engage the pipe 16. In these embodiments, because the curved plate 30 initially has a radius of curvature less than the radius of curvature of the outer surface of the pipe 16 in this embodiment, when the curved plate 30 is flexed and pushed down on top of the pipe 16, the curved plate 30 provides a pinching or clamping action around the outer surface of the pipe 16.
The gasket 70 may be made from any suitable material. In some embodiments the gasket 70 is a pre-formed compressible gasket 70 and in other embodiments the gasket 70 is a caulk or paste applied to the second side of the curved plate 30 before the curved plate 30 is pressed against the main pipe 16. The gasket 70 may be made from any suitable compressible material, including a hydrophilic material, a hydrophobic material, and an absorbent material. A hydrophilic material is capable of expanding or swelling in response to being exposed to a liquid, such as water, and forms a seal between the second side of the curved plate 30 and the main pipe 16. In the embodiments having a pre-formed gasket 70, the gasket may be attached to the second side of the curved plate 30 mechanically by staples or screws or by application of an adhesive. The gasket 70 may be a ring or doughnut shape for extending around the aperture 43 in the curved plate 30.
Referring to
The assembly described above may be used to establish a new connection between a main pipe 16 and a lateral pipe 10. The method generally includes excavating the ground to expose a portion of the main pipe 16 and the new lateral pipe 10 adjacent to the main pipe 16, taking a pipe saddle device as described previously, attaching the pipe saddle device to the main pipe 16, securing the pipe saddle device to the main pipe 16 using a mechanical fastener 72, cutting an access hole in the main pipe 16 aligned with a boss bore 34 formed by the boss of the pipe saddle device, and connecting the new lateral pipe 10 with the boss 32 to provide fluid communication between the main pipe 16 and the lateral pipe 10. The lateral pipe 10 may be telescopically connected to the boss 32 by inserting one component 10, 32 within the other component 10, 32. The pipe saddle device is mechanically secured to the main pipe by any suitable mechanical fastener 72, including a worm drive hose clamp, straps, bolts, screws, or the like. The mechanical fastener 72 provides a first force for securing the pipe saddle device to the pipe 16. In embodiments where the gasket 70 is hydrophilic, the hydrophilic material expands upon its exposure to a liquid and provides a second force to the second side of the curved plate as further described above. The force of the mechanical fastener 72 is greater than the force of the hydrophilic gasket 70 to secure the pipe saddle device in is proper position.
The assembly disclosed above may be used to repair an existing connection between a main pipe 16 and a lateral pipe 10. The method generally includes excavating the ground to expose a portion of the main pipe 16 and the existing lateral pipe 10 connected to the main pipe 16, disconnecting the lateral pipe 10 from the main pipe 16, taking a pipe saddle device as described previously, attaching the pipe saddle device to the main pipe 16, securing the pipe saddle device to the main pipe 16 using a mechanical fastener 72, and reconnecting the lateral pipe 10 with the boss 32 to provide fluid communication between the main pipe 16 and the lateral pipe 10. The lateral pipe 10 may be telescopically connected to the boss 32 by inserting one component 10, 32 within the other component 10, 32. The pipe saddle device is mechanically secured to the pipe by any suitable mechanical fastener 72, including a worm drive hose clamp, straps, bolts, screws, or the like. The mechanical fastener 72 provides a first force for securing the pipe saddle device to the main pipe 16. In embodiments where the gasket 70 is hydrophilic, the hydrophilic material expands upon its exposure to a liquid and provides a second force to the second side of the curved plate as further described above. The force of the mechanical fastener 72 is greater than the force of the hydrophilic gasket 70 to secure the pipe saddle device in is proper position.
The pipe saddle device is mechanically secured to the pipe by any suitable mechanical fastener 72, including a worm drive hose clamp, straps, bolts, screws, or the like. The mechanical fastener 72 provides a first force for securing the pipe saddle device to the pipe 16. This first force helps ensure the pipe saddle device does not become significantly pushed away from the main pipe 16 in embodiments where the gasket 70 is a hydrophilic material. In these embodiments, the hydrophilic material expands upon its exposure to a liquid and provides a second force to the second side of the curved plate 30. The mechanical fastener 72 provides a greater and opposing force which holds the pipe saddle device on the pipe 16 and allows the hydrophilic gasket 70 to fill the space between the curved plate 30 and the pipe 16 to create a fluid tight seal. An adhesive material can also be disposed between the curved plate 30 and the outer surface of the main pipe 16 to assist in holding the curved plate 30 on the pipe 16.
Another aspect of the present invention includes a method of repairing a crack or opening in a main pipe 16 or taking a lateral pipe 10 out of service using the assembly described with respect to
In the drawings and specification there has been set forth a preferred embodiment of the invention, and although specific terms are employed, these are used in a generic and descriptive sense only and not for purposes of limitation. Changes in the form and the proportion of parts as well as in the substitution of equivalents are contemplated as circumstance may suggest or render expedient without departing from the spirit or scope of the invention as further defined in the following claims.