RU194881U1 - PIPE JOINT TEE - Google Patents

Abstract

The tee for connecting the pipeline consists of a housing 1 with three nozzles, an attachment element 2 for a tee, an attachment element 3 for a humidity sensor, limiters 4 for installing elastic pipe arms, a metal threaded insert 5. Two nozzles 6 and 7, tapering to the housing, are located in different directions from each other, with protrusions 8 and 9 made on the ends, which are made in the form of beads. The third pipe 10 is made for quick disconnect and is located on the housing 1 between the other two pipes 6 and 7 at an acute angle to the central axis. On the housing 1, there is made an element 2 for fastening a tee in the form of an eye and an element 3 for fastening a humidity sensor having an opening and a window for mounting the sensor. In the housing 1, a metal threaded insert 5 is made for establishing a connection with a clogging sensor. In the nozzles 6 and 7, located on opposite sides of each other, metal sleeves are installed 11. The problem was solved to increase reliability during operation, to simplify the manufacture of the structure.

Description

The utility model relates to the automotive industry, mainly to engine manufacturing, and in particular to the types of connections for the pipeline.

Known tee with welded nozzles, protected from internal corrosion by a coating and shells made of corrosion-resistant steel, including a tee with welded nozzles and an inner coating, nozzles and their welds with a tee are plated inside with shells made of corrosion-resistant steel (RU patent No. 137079, IPC F16L 13/02 , F16L 58/00, publ. 01/27/2014).

A horizontal interstage gas cooler is also known, containing pipes enclosed in cylindrical casings, while the cylindrical casings are secured by sealed tube sheets and are enclosed on both sides by shells that are connected to the tee on two opposite sides, while a condensate collection tank is connected to the tee on the third side. and the tee itself is equipped with a gas outlet pipe, while the gas outlet pipe is L-shaped, while its outlet part is located under an acute angle relative to the horizontal axis of the gas cooler (RU patent No. 135100, IPC F28D 7/10, publ. 11/27/2013).

The closest device of the same purpose to the claimed utility model in terms of the set of essential features and taken as a prototype is a tee for connecting pipelines, characterized in that it contains the first and second nozzles located along the longitudinal axis and the third nozzle oriented perpendicular to it, while at the ends of all branch pipes facing the area of their articulation, identical compensators for deformations of pipelines are installed, each of which is made in the form of coaxially installed in strips and a pipe of a cylindrical sleeve with two rows of protrusions made at its ends on the outer surface, the end of which is made spline, and a bellows mounted on the outer surface of the bellows, one end of which is rigidly fixed to the pipe and the other on the free end of the sleeve with the possibility of its movement in the cavity of the pipe within the interaction of the protrusions of the sleeve with an identical protrusion made on the inner surface of the pipe, while the end splined protrusion of the sleeve is equipped with a sealing element m (patent RU No. 145662, IPC F16L 41/02, publ. 09/27/2014).

Known solutions in most cases do not have sufficient reliability during operation, difficult to manufacture.

The task to be solved by the claimed technical solution is to increase reliability during operation, simplification in manufacturing.

The problem is achieved in that the tee for connecting the pipeline, consisting of a housing with three nozzles, two of which are located on opposite sides of each other, with protrusions made at the ends, and a third nozzle is located on the housing between the other two nozzles at an acute angle to the central axis, while the third nozzle is made for quick disconnect, the protrusions are made in the form of shoulders, additionally contains limiters for installing flexible tubing sleeves, an element is mounted on the housing I tee as abalone and the attachment element of the humidity sensor having an aperture and the window for securing the sensor, in addition the housing is made metallic threaded insert for a connection with the sensor debris, and nozzles arranged at opposite sides from each other, the metal sleeve installed.

The combination of distinctive features, namely, that in the tee for connecting the pipeline the third pipe is made for quick disconnect, the protrusions are made in the form of shoulders, it additionally contains limiters for installing flexible pipe sleeves, the tee fastener in the form of an eyelet and the humidity sensor fastener are made on the body, having a hole and a window for mounting the sensor, in addition, a metal threaded insert is made in the housing to establish a connection with the clogging sensor, and in tube disposed in opposite sides from each other, the metal sleeve are installed, can improve reliability in operation, simplify manufacturing tee.

The claimed technical solution is illustrated by the images:

FIG. 1 - Tee for connecting the pipeline, side view;

FIG. 2 - the same, top view;

FIG. 3 is a section AA in FIG. 1;

FIG. 4 is an enlarged extension element B in FIG. 1;

FIG. 5 is an enlarged extension element B in FIG. 1;

FIG. 6 is an enlarged section GG in FIG. 1;

FIG. 7 is an enlarged section DD in FIG. 1;

FIG. 8 - Tee for connecting the pipeline, general view.

The tee for connecting the pipeline consists of a housing 1 with three nozzles, an element 2 for attaching a tee, an element 3 for attaching a humidity sensor, limiters 4 for installing elastic pipe arms, a metal threaded insert 5.

Two pipes 6 and 7, tapering to the body, are located in different directions from each other, with protrusions 8 and 9 made on the ends, which are made in the form of beads.

The third pipe 10 is made for quick disconnect and is located on the housing 1 between the other two pipes 6 and 7 at a certain angle to the central axis of the tee.

On the housing 1 there is made an attachment element 2 of a tee in the form of an eye and an attachment element 3 of a humidity sensor having an opening and a window for communicating the interior of the tee and the sensor.

In the housing 1, a metal threaded insert 5 is made with a through hole in it for connection to it with a clogging sensor.

In the nozzles 6 and 7 located on opposite sides of each other, metal sleeves 11 are installed.

The device operates as follows.

The tee is installed in the car’s air filtration system, the pipes 6 and 7 are connected by elastic sleeves, using tie-rods, respectively, with the pipes - the output of the air filter and the inlet compressor stage of the turbocharger. The pipe 10 allows you to communicate the inner space of the tee with the inlet pipe of the compressor of the brake pneumatic system through an elastic sleeve. In the insert 5, a pipeline is installed connected to the air filter clogging sensor. Through the attachment element 2, the tee is fixed to the vehicle elements in order to reduce the mobility of the tee during operation.

When the car air filtration system is operating, the air from the air filter through the pipe 6 is sent to the pipe 7 for feeding through the pipeline to the inlet of the turbocharger of the internal combustion engine. When the car is running, purified air from the tee through the hole in the insert 5 is selected to power the pneumatic system of the car's brakes, and the degree of clogging of the air filter and the humidity of the air passing through the tee are determined.

The tee is technologically advanced in design and can be made of metal by joining components together by welding, or it can be obtained by casting. Also, the tee can be made of modern materials by rotational molding, while pockets 12 are formed in the region of the nozzle 10 and the tee fastener 2, the tee fastener 2 itself is hollow. In this case, as an embodiment, a threaded metal insert can be made at the point of transition of the pipe 10 into the body of the tee, into which the pipe 10 made of metal is screwed.

The inner channel of the tee has good aerodynamic properties along the air flowing inside, since the tee elements located on the tubular part 6 do not protrude significantly relative to the inner diameter, thereby creating minimal flow resistance.

The claimed technical solution allows to increase reliability during operation, to simplify the manufacture of structures.

The claimed technical solution meets the requirement of industrial applicability and is possible for implementation on standard processing equipment.

Claims (1)

A tee for connecting the pipeline, consisting of a housing with three nozzles, two of which are located on opposite sides of each other, with protrusions made at the ends, and a third nozzle is located on the housing between the other two nozzles at an acute angle to the central axis, characterized in that the third nozzle is made for quick disconnect, the protrusions are made in the form of shoulders, it additionally contains limiters for installing flexible piping sleeves, an element for fastening a tee in the form of an eye and an ele ent mounting the humidity sensor having an aperture and the window for fixing the sensor, in addition, the housing is made metallic threaded insert for a connection with a contamination sensor, and nozzles arranged at opposite sides from each other, the metal sleeve installed.

Images