A pipe fitting placement system includes a fitting holder including a bar defining a fitting bore proximate to a first end of the bar, the bar further defining a second end distal from the first end, the bar being elongated in a longitudinal direction extending from the first end to the second end; and a saddle coupled to the bar proximate to the second end of the bar, the saddle rotatable about a saddle pivot axis with respect to the bar; and a pipe fitting received within the fitting bore of the fitting holder.

A jumper manifold for use in a fracing system including a first outlet interface for coupling to a first outlet line, a second outlet interface for coupling to a second outlet line, and an inlet interface for coupling to an inlet line carrying a slurry under pressure. A jumper, in a first configuration, couples the inlet interface with the first outlet interface for transporting slurry from the inlet line to the first outlet line while isolating the second outlet line. The jumper, in a second configuration, couples the inlet interface with the second outlet interface for transporting slurry from the inlet line to the second outlet line while isolating the first outlet line.

A jumper manifold for use in a fracing system including a first outlet interface for coupling to a first outlet line, a second outlet interface for coupling to a second outlet line, and an inlet interface for coupling to an inlet line carrying a slurry under pressure. A jumper, in a first configuration, couples the inlet interface with the first outlet interface for transporting slurry from the inlet line to the first outlet line while isolating the second outlet line. The jumper, in a second configuration, couples the inlet interface with the second outlet interface for transporting slurry from the inlet line to the second outlet line while isolating the first outlet line.

A jumper manifold for use in a fracing system including a first outlet interface for coupling to a first outlet line, a second outlet interface for coupling to a second outlet line, and an inlet interface for coupling to an inlet line carrying a slurry under pressure. A jumper, in a first configuration, couples the inlet interface with the first outlet interface for transporting slurry from the inlet line to the first outlet line while isolating the second outlet line. The jumper, in a second configuration, couples the inlet interface with the second outlet interface for transporting slurry from the inlet line to the second outlet line while isolating the first outlet line.

A jumper manifold for use in a fracing system including a first outlet interface for coupling to a first outlet line, a second outlet interface for coupling to a second outlet line, and an inlet interface for coupling to an inlet line carrying a slurry under pressure. A jumper, in a first configuration, couples the inlet interface with the first outlet interface for transporting slurry from the inlet line to the first outlet line while isolating the second outlet line. The jumper, in a second configuration, couples the inlet interface with the second outlet interface for transporting slurry from the inlet line to the second outlet line while isolating the first outlet line.

A connector system for use during hydraulic fracturing operations includes a first connector having a bore and an annular interface defined by a plurality of surfaces disposed at selected angles with respect to each other. A second connector has an annular interface defined by a plurality of surfaces disposed at selected angles to each other. The plurality of surfaces of the annular interface of the first connector are adapted to engage the plurality of surfaces of the annular interface of the second connector to form a seal.

A jumper manifold for use in a fracing system including a first outlet interface for coupling to a first outlet line, a second outlet interface for coupling to a second outlet line, and an inlet interface for coupling to an inlet line carrying a slurry under pressure. A jumper, in a first configuration, couples the inlet interface with the first outlet interface for transporting slurry from the inlet line to the first outlet line while isolating the second outlet line. The jumper, in a second configuration, couples the inlet interface with the second outlet interface for transporting slurry from the inlet line to the second outlet line while isolating the first outlet line.

A jumper manifold for use in a fracing system including a first outlet interface for coupling to a first outlet line, a second outlet interface for coupling to a second outlet line, and an inlet interface for coupling to an inlet line carrying a slurry under pressure. A jumper, in a first configuration, couples the inlet interface with the first outlet interface for transporting slurry from the inlet line to the first outlet line while isolating the second outlet line. The jumper, in a second configuration, couples the inlet interface with the second outlet interface for transporting slurry from the inlet line to the second outlet line while isolating the first outlet line.

The invention concerns a system for the circulation of fluid between at least one first body or housing (2) and at least one second body or housing (3), comprising an arrangement of multiple fluidic connections (4, 4′, 4″, 4′″) between, on the one hand, said first body or housing (2) provided with at least two mutually distinct openings (5, 5′, 5″, 5′″) and, on the other hand, at least one second body or housing (3) also having mutually distinct openings, each connection establishing a leaktight fluidic connection between an opening of the first body or housing (2) and an opening of the second body or housing (3), or of one of the second bodies or housings.

In this system (1), each of the fluidic connections (4, 4′, 4″, 4′″) is of a rigid but articulated type, and formed by successive nestings of a rigid female manifold (7, 7′, 7″, 7′″), a rigid duct or diabolo (9, 9′, 9″, 9′″) and a rigid male fitting (8, 8′, 8″, 8′″).

The invention concerns a system for the circulation of fluid between at least one first body or housing (2) and at least one second body or housing (3), comprising an arrangement of multiple fluidic connections (4, 4′, 4″, 4′″) between, on the one hand, said first body or housing (2) provided with at least two mutually distinct openings (5, 5′, 5″, 5′″) and, on the other hand, at least one second body or housing (3) also having mutually distinct openings, each connection establishing a leaktight fluidic connection between an opening of the first body or housing (2) and an opening of the second body or housing (3), or of one of the second bodies or housings.

In this system (1), each of the fluidic connections (4, 4′, 4″, 4′″) is of a rigid but articulated type, and formed by successive nestings of a rigid female manifold (7, 7′, 7″, 7′″), a rigid duct or diabolo (9, 9′, 9″, 9′″) and a rigid male fitting (8, 8′, 8″, 8′″).