RU181735U1 - SPHERICAL COMPENSATOR - Google Patents

Abstract

The spherical compensator contains a rubbing joint consisting of two parts connected by ends with flanges. Both parts have a spherical surface, with one part placed inside the other part. The flanges are fixed supports, interconnected by a bolted connection. Swivel heads are installed in the supports, fixed from falling out of the supports with screws and connected to the bolt connection through segment compensation elements. The problem was solved of providing a tight quick-disconnect connection of pipelines with compensation for manufacturing inaccuracies and with the possibility of angular movement during assembly of pipelines. 1 ill.

Description

The utility model relates to the field of engine building, namely, to the connecting elements of the piping systems of engine test stands. This device can be used in other technical systems that require such a function.

A movable connection for pipelines is known, comprising flanges at the ends of the pipelines and a hollow composite sealing element with spherical outer surfaces interacting with flanges made with internal conical end surfaces, one of which is movably mounted on the pipeline, while one of the parts of the spherical sealing element is stationary fixed on the pipeline and in contact with the movable flange, and the other part is movable, made with an outer diameter smaller, and the inner m is large compared to the fixed part and is in contact with the fixed flange, in addition, the fixed and moving parts of the sealing element are clamped between the pipes by means of flanges, bolts, nuts and plates (SU No. 1672087, IPC 5 F16L 27/04, publ. 23.08. 1991).

This connection is difficult to perform and assemble, has many components, does not provide the necessary indicators for the tightness of the connection.

The closest to the claimed technical solution according to the set of essential features and the achieved technical result is also known a compensator for temperature displacements and technological errors in the assembly of pipelines, which is a telescopic friction joint consisting of a thin-walled elastic spherical tip and a sleeve of antifriction material, the spherical tip of which is placed inside the antifriction cylindrical bushings installed inside the housing (SU No. 255713, IPC F16L 27/04, publ. 10/28/1969).

This design is simple in execution, but does not provide the necessary indicators for tightness.

The task was set to provide a sufficiently tight quick-disconnect connection of pipelines with compensation for manufacturing inaccuracies, as well as providing the possibility of angular movement during assembly of pipelines.

The problem is solved in that in a spherical compensator containing a friction joint, consisting of two parts, with ends connected to flanges, one of which has a spherical surface and is placed inside the other part, both parts have a spherical surface, supports connected to each other on the flanges bolted connection, in which rotary heads are installed, fixed from falling out of the supports with screws and connected to the bolted connection through segmented compensation elements.

The set of distinguishing features, namely, that both parts of the rubbing joints of the compensator have a spherical surface, supports are fixed to the flanges, interconnected by a bolted connection, in which rotary heads are mounted, fixed from falling out of the supports by screws and connected to the bolted connection through segmented compensation elements , allows to provide a tight quick-disconnect connection of pipelines, to compensate for manufacturing inaccuracies, as well as to provide the possibility of angular emescheniya when assembling the pipelines.

As a result of the analysis of the prior art on patent and other sources of scientific and technical information, an analogue characterized by features identical to all the essential features of the claimed technical solution was not found. Therefore, the proposed technical solution meets the condition of patentability "novelty."

The claimed technical solution is illustrated by the drawing.

The spherical compensator contains a rubbing joint, consisting of two parts 1 and 2, connected by ends to the flanges 3. Both parts 1 and 2 have a spherical surface, and part 1 is placed inside the other part.

On the flanges 3, supports 4 are fixed, interconnected by a bolt connection 6. In the supports 4, rotary heads 5 are mounted, fixed from falling out of the supports by screws 7 and connected to the bolt connection 6 through segment compensation elements 8.

The device operates as follows. Before connecting to pipelines, the fixation of the rotary heads of the spherical compensator is weakened, then the spherical compensator is connected to the pipeline by means of flanges 3, fixing them with a quick-disconnect clamp connection (not shown). After the friction joint adapts to the position of the pipelines, the bolt joint 6 is pulled together, the rotary heads 5 are fixed.

The claimed technical solution allows to provide a tight quick-disconnect connection of pipelines with compensation for manufacturing inaccuracies and with the possibility of angular movement during assembly of pipelines.

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

Claims (1)

A spherical compensator containing a rubbing joint, consisting of two parts, with ends connected to flanges, one of which is placed inside the other part, characterized in that both parts of the rubbing joint have a spherical surface, the flanges are supported, interconnected by a bolted joint, in which rotary heads are installed, fixed from falling out of the supports by screws and connected to the bolt connection through segment compensation elements.

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