A pipe drilling device includes a casing having a divided structure and externally fitted to a fluid pipe in a sealed manner, a process valve including a process valve body that comes into contact with and separates from a recessed valve seat portion provided inside a neck portion of the casing, a drilling machine including a cutter that is inserted into the casing and configured for drilling the fluid pipe in an uninterrupted flow state, and a cylindrical portion that is movable to open and close an opening of the recessed valve seat portion inside the neck portion.

A pipe drilling device includes a casing having a divided structure and externally fitted to a fluid pipe in a sealed manner, a process valve including a process valve body that comes into contact with and separates from a recessed valve seat portion provided inside a neck portion of the casing, a drilling machine including a cutter that is inserted into the casing and configured for drilling the fluid pipe in an uninterrupted flow state, and a cylindrical portion that is movable to open and close an opening of the recessed valve seat portion inside the neck portion.

A pipe isolation device and method of using the same. The pipe isolation device includes a control bar head, a first sealing head, and a second sealing head. The first sealing head has a first seal element and a first sliding engagement. The first sliding engagement permits the first sealing head to slide relative to the control bar head along a first fixed path and traverse a right angle to gain access to an interior space of a pipe. The second sealing head has a second seal element and a second sliding engagement. The second sliding engagement permits the second sliding head to slide relative to the first sealing head along a second fixed path and traverse the right angle to gain access to an interior space of the pipe. A first seal element and a second seal element are disposed on the sealing heads and have axially-offset configurations.

A system coupled to a pipeline includes a first portion and a second portion coupled to the first portion by an over-center latch and a secondary adjustment mechanism such that a diameter of the system can be adjusted independently by either the over-center latch or the secondary adjustment mechanism. The first portion may be coupled to the second portion by a ratchet mechanism. The system may include a service saddle or a tapping sleeve. The system may be coupled to a water main.

A system coupled to a pipeline includes a first portion and a second portion coupled to the first portion by an over-center latch and a secondary adjustment mechanism such that a diameter of the system can be adjusted independently by either the over-center latch or the secondary adjustment mechanism. The first portion may be coupled to the second portion by a ratchet mechanism. The system may include a service saddle or a tapping sleeve. The system may be coupled to a water main.

A clamp system for hot-tapping tubulars includes a saddle having a saddle body with an inner surface, an outer surface, and an opening extending from the inner surface to the outer surface, a metal protrusion extending from the inner surface of the saddle body to provide a metal seal, an elastomer seal coupled to the inner surface of the saddle body adjacent to the metal protrusion, and a nipple integrally formed with the saddle body and extending outwardly from the outer surface of the saddle body, the nipple positioned over the opening of the saddle body, and a clamp having a nipple opening configured to receive the nipple, the clamp formed separately from the saddle. A method includes positioning the saddle on a tubular and assembling the clamp around the saddle and the tubular including inserting the nipple through the nipple opening formed in the clamp.

A clamp system for hot-tapping tubulars includes a saddle having a saddle body with an inner surface, an outer surface, and an opening extending from the inner surface to the outer surface, a metal protrusion extending from the inner surface of the saddle body to provide a metal seal, an elastomer seal coupled to the inner surface of the saddle body adjacent to the metal protrusion, and a nipple integrally formed with the saddle body and extending outwardly from the outer surface of the saddle body, the nipple positioned over the opening of the saddle body, and a clamp having a nipple opening configured to receive the nipple, the clamp formed separately from the saddle. A method includes positioning the saddle on a tubular and assembling the clamp around the saddle and the tubular including inserting the nipple through the nipple opening formed in the clamp.

A cut warning system can include a valve sleeve defining a cavity, the valve sleeve defining a bottom sealing surface within the cavity; a pipeline extending through the cavity; a drilling machine including a shell cutter, the shell cutter defining a bottom edge, the drilling machine configured to axially advance the shell cutter from a pre-engagement position towards the bottom sealing surface, the pipeline positioned between the shell cutter and the bottom sealing surface in the pre-engagement position; and a signaling element positioned within the cavity, the signaling element configured to produce a signal when the shell cutter reaches a post-engagement position, the bottom edge being axially positioned between the pipeline and the bottom sealing surface.

A cut warning system can include a valve sleeve defining a cavity, the valve sleeve defining a bottom sealing surface within the cavity; a pipeline extending through the cavity; a drilling machine including a shell cutter, the shell cutter defining a bottom edge, the drilling machine configured to axially advance the shell cutter from a pre-engagement position towards the bottom sealing surface, the pipeline positioned between the shell cutter and the bottom sealing surface in the pre-engagement position; and a signaling element positioned within the cavity, the signaling element configured to produce a signal when the shell cutter reaches a post-engagement position, the bottom edge being axially positioned between the pipeline and the bottom sealing surface.

A machine includes a tool housing defining a housing cavity; a first tool coupled to a first linear drive mechanism, the first tool linearly repositionable along an axis by the first linear drive mechanism about and between a first retracted position and an extended position, the first tool positioned within the housing cavity in the first retracted position, the first tool positioned external to the housing cavity in the extended position; and a second tool coupled to a second linear drive mechanism, the second tool linearly repositionable along the axis by the second linear drive mechanism about and between a second retracted position and a sealing position, the second tool positioned within the housing cavity in the second retracted position, the second tool positioned external to the housing cavity in the sealing position.