Disclosed is an air intake manifold including a heat exchanger built into its body and including at least two ducts for supplying and removing heat-exchange liquid, the ducts extending through the wall of the body of the manifold with a liquid-tight seal and an airtight seal, which are distinct and mutually offset along the longitudinal axis of the relevant duct being created on each of the ducts. The unit creating the liquid tight seal is arranged between the relevant duct and a circulation pipe connected to the free end of the duct. The unit creating the airtight seal is positioned between the relevant duct and the body of the distributor. A leakage path associated with the liquid-tight seal is created between the latter and the airtight seal.

A connector fitting for a fluid hose in a vehicle comprises a first end connectable to the hose, a second end connectable to parts of a fluid system and a cylindrical middle portion positioned between the first end and the second end. The middle portion comprises a shoulder extending in circumferential direction of the middle portion and is adapted to contact a first surface of a fixing plate when inner walls of a through-going recess of the fixing plate circumferentially surround the middle portion of the connector fitting. The connector fitting further comprises at least one snap-in tongue with a nib. The nib is adapted to engage a second surface of the fixing plate positioned parallel to the first surface such that the fixing plate is fixed in the longitudinal direction of the middle portion between shoulder and the nib.

The present invention provides a piping system (1) at least comprising a main pipeline (2) and a side branch pipeline (3), wherein the side branch pipeline (3) meets the main pipeline (2) at a junction (4), wherein the side branch pipeline (3) is provided with a perforated plate (5) having a plurality of perforations (6), wherein the perforated plate (5) has a downstream half (5B) and an upstream half (5A) (relative to the flow direction in the main pipeline (2)), wherein the downstream half (5B) has less open area than the upstream half (5A), and wherein the perforated plate (5) is provided with a protrusion (8), at the side of the perforated plate (5) facing away from the junction (4).

A carrier assembly for a plurality of pipes includes a block and a keeper plate. The block has pipe holes defined therein, which are configured to receive the pipes. A slot is angular to the pipe holes. The keeper plate has a planar member and open channels formed therethrough, which are configured to partially surround the pipes. A lock member on the keeper plate interfaces the slot in the block. The keeper plate is moveable between an unlocked position, where the lock member is outside of the slot of the block and the open channels are not aligned with the pipe holes of the block; and a locked position, rotated relative to the unlocked position, where the lock member of the keeper plate is within the slot of the block, and the open channels of the keeper plate are aligned with the pipe holes of the block.

Herein a tubular element (2) is disclosed. The tubular element comprises a first tubular portion (4) comprising a first metal or alloy and a second tubular portion (6) comprising a second metal or alloy. At least a portion of an interface (9) between the first and second tubular portions (4, 6) extends within a fixed diameter range along a longitudinal direction (L) of the tubular element. The second tubular portion (6) comprises a first end portion (8) arranged around the first tubular portion (4). The second tubular portion (6) comprises a sealing surface (10) extending circumferentially around the second tubular portion (6) at the first end portion (8).

A carrier assembly for a plurality of pipes includes a block and a keeper plate. The block has pipe holes defined therein, which are configured to receive the pipes. A slot is angular to the pipe holes. The keeper plate has a planar member and open channels formed therethrough, which are configured to partially surround the pipes. A lock member on the keeper plate interfaces the slot in the block. The keeper plate is moveable between an unlocked position, where the lock member is outside of the slot of the block and the open channels are not aligned with the pipe holes of the block; and a locked position, rotated relative to the unlocked position, where the lock member of the keeper plate is within the slot of the block, and the open channels of the keeper plate are aligned with the pipe holes of the block.

A missile flow line is assembled in a frac manifold to manifold the discharge from a plurality of pumps. The missile comprises at least two junction fittings joined by a flange union to at least one spooled pipe to form a conduit. The junction fittings comprise a fitting body having a primary bore and at least two feed bores. The primary bore extends axially through the body between primary union faces adapted for connection to a flowline component by a flange union. The feed bores extend radially through the body from a feed union face to an intersection with the primary bore. The feed union faces are adapted for connection to pump discharge lines by a flange union. The intersections of the feed bores with the primary bore are offset axially from each other along the primary bore.

Subassemblies for air conditioners and other mechanical systems, and methods of assembling the same. In some embodiments, the subassemblies facilitate the proper installation, alignment, and servicing of hoses leading to and from thermal expansion valves in air conditioning and refrigeration systems. The subassemblies can be particularly helpful when installing thermal expansion valves in areas that are hard to reach or of limited space.

The block fitting assembly comprises a male block having a projecting portion extending from a planar face thereof and a sealing and capping element configured for engagement with the male block. The sealing and capping element includes a face portion for engaging the planar face of the male block and a cap portion projecting from the face portion. The cap portion includes a circumferentially extending sidewall having a webbed portion and a cover portion. The cover portion of the sidewall is configured to be separated from the cap portion by a tearing or shearing of the cap portion at the webbed portion of the sidewall.

The invention provides for a secondary overflow pipe and connector (10) connectable to a sewer system, the secondary overflow pipe increasing overall capacity of the sewer system during peak flows, the connector (10) connectable to a manhole (16) and shaped to define a funnel to reduce turbulence and facilitate a smooth flow pattern and maximum flow capacity.